diff options
| author |   Matej Klotton <mklotton@cisco.com> | 2016-07-22 09:34:25 +0200 |
|---|---|---|
| committer | Matej Klotton <mklotton@cisco.com> | 2016-07-22 13:32:53 +0200 |
| commit | 70cbaaee0e6210682ce6d278ea645b8bea153b67 (patch) | |
| tree | 9d82a1df0276cfb854d9fc8d5d1888b360fe9234 /tests/suites | |
| parent | 7c3e0cc41f55327d6eeb04fe757c6e80064ab28a (diff) | |
CSIT-220: Rename directories in tests directory
- Move performance directory one level up and rename it to “perf”
- Rename “suites” directory to “func”
- Create __init__.py in “perf” directory
- Rename fds_related_tests to fds
Change-Id: I59f06afe1c5b95dd8a48417b8fbfd1fca8797097
Signed-off-by: Matej Klotton <mklotton@cisco.com>
Diffstat (limited to 'tests/suites')
62 files changed, 0 insertions, 16488 deletions
diff --git a/tests/suites/__init__.robot b/tests/suites/__init__.robot deleted file mode 100644 index 2016146e3b..0000000000 --- a/tests/suites/__init__.robot +++ /dev/null @@ -1,20 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/interfaces.robot -| Library | resources.libraries.python.SetupFramework -| Suite Setup | Run Keywords | Setup Framework | ${nodes} -| ... | AND | Setup All DUTs | ${nodes} -| ... | AND | Update All Interface Data On All Nodes | ${nodes} diff --git a/tests/suites/bridge_domain/bridge_domain_untagged.robot b/tests/suites/bridge_domain/bridge_domain_untagged.robot deleted file mode 100644 index 1876d901bb..0000000000 --- a/tests/suites/bridge_domain/bridge_domain_untagged.robot +++ /dev/null @@ -1,369 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/bridge_domain.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/qemu.robot -| Library | resources.libraries.python.Trace -| Force Tags | HW_ENV | VM_ENV -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *L2 bridge-domain test cases* -| ... -| ... | *[Top] Network Topologies:* TG=DUT1 2-node topology with two links -| ... | between nodes; TG-DUT1-DUT2-TG 3-node circular topology with -| ... | single links between nodes; TG=DUT1=DUT2=TG 3-node circular -| ... | topology with double parallel links and TG=DUT=VM 3-node topology -| ... | with VM and double parallel links. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4-ICMPv4 for L2 switching of -| ... | IPv4; Eth-IPv6-ICMPv6 for L2 switching of IPv6 use. Both apply -| ... | to all links. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 -| ... | bridge-domain (L2BD) switching combined with static MACs; MAC -| ... | learning enabled and Split Horizon Groups (SHG) depending on -| ... | test case. -| ... | *[Ver] TG verification:* Test ICMPv4 (or ICMPv6) Echo Request packets -| ... | are sent in both directions by TG on links to DUT1 and DUT2; on -| ... | receive TG verifies packets for correctness and their IPv4 (IPv6) -| ... | src-addr, dst-addr and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* - -*** Variables *** -| ${bd_id1}= | 1 -| ${bd_id2}= | 2 -| ${shg1}= | 3 -| ${shg2}= | 4 -| ${sock1}= | /tmp/sock1 -| ${sock2}= | /tmp/sock2 - -*** Test Cases *** -| TC01: DUT reports active interfaces -| | [Documentation] -| | ... | [Top] TG=DUT1; TG-DUT1-DUT2-TG. [Enc] None. [Cfg] Discovered \ -| | ... | active interfaces. [Ver] Report active interfaces on DUT. [Ref] -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO | 3_NODE_SINGLE_LINK_TOPO -| | VPP reports interfaces on | ${nodes['DUT1']} - -| TC02: DUT with L2BD (MAC learning) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG=DUT1. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure \ -| | ... | two i/fs into L2BD with MAC learning. [Ver] Make TG verify -| | ... | ICMPv4 Echo Req pkts are switched thru DUT1 in both directions -| | ... | and are correct on receive. [Ref] -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | When Bridge domain on DUT node is created | ${dut_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut_node} | ${dut_to_tg_if1} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut_node} | ${dut_to_tg_if2} -| | ... | ${bd_id1} -| | Then Send and receive ICMPv4 bidirectionally | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tg_to_dut_if2} - -| TC03: DUT1 and DUT2 with L2BD (MAC learning) switch between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 and DUT2 \ -| | ... | configure two i/fs into L2BD with MAC learning. [Ver] Make TG -| | ... | verify ICMPv4 Echo Req pkts are switched thru DUT1 and DUT2 in -| | ... | both directions and are correct on receive. [Ref] -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | When Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_dut1} -| | ... | ${bd_id2} -| | Then Send and receive ICMPv4 bidirectionally | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} - -| TC04: DUT1 and DUT2 with L2BD (static MACs) switch between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 and \ -| | ... | DUT2 configure two i/fs into L2BD with static MACs. [Ver] Make -| | ... | TG verify ICMPv4 Echo Req pkts are switched thru DUT1 and DUT2 -| | ... | in both directions and are correct on receive. [Ref] -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | When Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | ... | learn=${FALSE} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Destination port is added to L2FIB on DUT node | ${tg_node} -| | ... | ${tg_to_dut1} -| | ... | ${dut1_node} -| | ... | ${dut1_to_tg} -| | ... | ${bd_id1} -| | And Destination port is added to L2FIB on DUT node | ${tg_node} -| | ... | ${tg_to_dut2} -| | ... | ${dut1_node} -| | ... | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id2} -| | ... | learn=${FALSE} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_dut1} -| | ... | ${bd_id2} -| | And Destination port is added to L2FIB on DUT node | ${tg_node} -| | ... | ${tg_to_dut1} -| | ... | ${dut2_node} -| | ... | ${dut2_to_dut1} -| | ... | ${bd_id2} -| | And Destination port is added to L2FIB on DUT node | ${tg_node} -| | ... | ${tg_to_dut2} -| | ... | ${dut2_node} -| | ... | ${dut2_to_tg} -| | ... | ${bd_id2} -| | Then Send and receive ICMPv4 bidirectionally | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} - -| TC05: DUT1 and DUT2 with L2BD (MAC learn) and SHG switch between four TG links -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 and \ -| | ... | DUT2 configure four i/fs into L2BD with MAC learning and the -| | ... | same SHG on i/fs towards TG. [Ver] Make TG verify ICMPv4 Echo -| | ... | Req pkts are switched thru DUT1 and DUT2 in both directions and -| | ... | are correct on receive; verify no pkts are switched thru SHG -| | ... | isolated interfaces. [Ref] -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO -| | Given Path for 3-node BD-SHG testing is set | ${nodes['TG']} -| | ... | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} -| | And Interfaces in 3-node BD-SHG testing are up -| | When Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_tg_if1} -| | ... | ${bd_id1} | ${shg1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_tg_if2} -| | ... | ${bd_id1} | ${shg1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg_if1} -| | ... | ${bd_id2} | ${shg2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg_if2} -| | ... | ${bd_id2} | ${shg2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_dut1} -| | ... | ${bd_id2} -| | Then Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if1} -| | ... | ${tg_to_dut2_if1} -| | And Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if1} -| | ... | ${tg_to_dut2_if2} -| | And Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if2} -| | ... | ${tg_to_dut2_if1} -| | And Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if2} -| | ... | ${tg_to_dut2_if2} -| | And Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMPv4 bidirectionally -| | | ... | ${tg_node} | ${tg_to_dut1_if1} -| | | ... | ${tg_to_dut1_if2} -| | And Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMPv4 bidirectionally -| | | ... | ${tg_node} | ${tg_to_dut2_if1} -| | | ... | ${tg_to_dut2_if2} - -| TC06: DUT with two L2BDs (MAC learn) switches ICMPv4 between TG and VM links -| | [Documentation] -| | ... | [Top] TG=DUT=VM. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure \ -| | ... | two L2BDs with MAC learning, each with vhost-user i/f to local -| | ... | VM and i/f to TG; configure VM to loop pkts back betwen its two -| | ... | virtio i/fs. [Ver] Make TG verify ICMPv4 Echo Req pkts are -| | ... | switched thru DUT1 and VM in both directions and are correct on -| | ... | receive. [Ref] -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO | VPP_VM_ENV -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | When VPP Vhost interfaces for L2BD forwarding are setup | ${dut_node} -| | ... | ${sock1} -| | ... | ${sock2} -| | And Bridge domain on DUT node is created | ${dut_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut_node} | ${dut_to_tg_if1} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut_node} | ${vhost_if1} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut_node} | ${bd_id2} -| | And Interface is added to bridge domain | ${dut_node} | ${dut_to_tg_if2} -| | ... | ${bd_id2} -| | And Interface is added to bridge domain | ${dut_node} | ${vhost_if2} -| | ... | ${bd_id2} -| | And VM for Vhost L2BD forwarding is setup | ${dut_node} | ${sock1} -| | ... | ${sock2} -| | Then Send and receive ICMPv4 bidirectionally | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tg_to_dut_if2} -| | [Teardown] | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| | ... | AND | Show vpp trace dump on all DUTs -| | ... | AND | Stop and Clear QEMU | ${dut_node} | ${vm_node} - -| TC07: DUT with two L2BDs (MAC learn) switches ICMPv6 between TG and VM links -| | [Documentation] -| | ... | [Top] TG=DUT=VM. [Enc] Eth-IPv6-ICMPv6. [Cfg] On DUT1 configure \ -| | ... | two L2BDs with MAC learning, each with vhost-user i/f to local -| | ... | VM and i/f to TG; configure VM to loop pkts back betwen its two -| | ... | virtio i/fs. [Ver] Make TG verify ICMPv6 Echo Req pkts are -| | ... | switched thru DUT1 and VM in both directions and are correct on -| | ... | receive. [Ref] -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO | VPP_VM_ENV -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | When VPP Vhost interfaces for L2BD forwarding are setup | ${dut_node} -| | ... | ${sock1} -| | ... | ${sock2} -| | And Bridge domain on DUT node is created | ${dut_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut_node} | ${dut_to_tg_if1} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut_node} | ${vhost_if1} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut_node} | ${bd_id2} -| | And Interface is added to bridge domain | ${dut_node} | ${dut_to_tg_if2} -| | ... | ${bd_id2} -| | And Interface is added to bridge domain | ${dut_node} | ${vhost_if2} -| | ... | ${bd_id2} -| | And VM for Vhost L2BD forwarding is setup | ${dut_node} | ${sock1} -| | ... | ${sock2} -| | Then Send and receive ICMPv6 bidirectionally | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tg_to_dut_if2} -| | [Teardown] | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| | ... | AND | Show vpp trace dump on all DUTs -| | ... | AND | Stop and Clear QEMU | ${dut_node} | ${vm_node} - -| TC08: DUT with two L2BDs (static MACs) switches ICMPv4 between TG and VM links -| | [Documentation] -| | ... | [Top] TG=DUT=VM. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure \ -| | ... | two L2BDs with static MACs, each with vhost-user i/f to local VM -| | ... | and i/f to TG; configure VM to loop pkts back betwen its two -| | ... | virtio i/fs. [Ver] Make TG verify ICMPv4 Echo Req pkts are -| | ... | switched thru DUT1 and VM in both directions and are correct on -| | ... | receive. [Ref] -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO | VPP_VM_ENV -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | When VPP Vhost interfaces for L2BD forwarding are setup | ${dut_node} -| | ... | ${sock1} -| | ... | ${sock2} -| | And Bridge domain on DUT node is created | ${dut_node} | ${bd_id1} -| | ... | learn=${FALSE} -| | And Interface is added to bridge domain | ${dut_node} | ${dut_to_tg_if1} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut_node} | ${vhost_if1} -| | ... | ${bd_id1} -| | And Destination port is added to L2FIB on DUT node | ${tg_node} -| | ... | ${tg_to_dut_if1} -| | ... | ${dut_node} -| | ... | ${dut_to_tg_if1} -| | ... | ${bd_id1} -| | And Destination port is added to L2FIB on DUT node | ${tg_node} -| | ... | ${tg_to_dut_if2} -| | ... | ${dut_node} -| | ... | ${vhost_if1} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut_node} | ${bd_id2} -| | ... | learn=${FALSE} -| | And Interface is added to bridge domain | ${dut_node} | ${dut_to_tg_if2} -| | ... | ${bd_id2} -| | And Interface is added to bridge domain | ${dut_node} | ${vhost_if2} -| | ... | ${bd_id2} -| | And Destination port is added to L2FIB on DUT node | ${tg_node} -| | ... | ${tg_to_dut_if2} -| | ... | ${dut_node} -| | ... | ${dut_to_tg_if2} -| | ... | ${bd_id2} -| | And Destination port is added to L2FIB on DUT node | ${tg_node} -| | ... | ${tg_to_dut_if1} -| | ... | ${dut_node} -| | ... | ${vhost_if2} -| | ... | ${bd_id2} -| | And VM for Vhost L2BD forwarding is setup | ${dut_node} | ${sock1} -| | ... | ${sock2} -| | Then Send and receive ICMPv4 bidirectionally | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tg_to_dut_if2} -| | [Teardown] | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| | ... | AND | Show vpp trace dump on all DUTs -| | ... | AND | Stop and Clear QEMU | ${dut_node} | ${vm_node} - -| TC09: DUT with two L2BDs (static MACs) switches ICMPv6 between TG and VM links -| | [Documentation] -| | ... | [Top] TG=DUT=VM. [Enc] Eth-IPv6-ICMPv6. [Cfg] On DUT1 configure \ -| | ... | two L2BDs with static MACs, each with vhost-user i/f to local VM -| | ... | and i/f to TG; configure VM to loop pkts back betwen its two -| | ... | virtio i/fs. [Ver] Make TG verify ICMPv6 Echo Req pkts are -| | ... | switched thru DUT1 and VM in both directions and are correct on -| | ... | receive. [Ref] -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO | VPP_VM_ENV -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | When VPP Vhost interfaces for L2BD forwarding are setup | ${dut_node} -| | ... | ${sock1} -| | ... | ${sock2} -| | And Bridge domain on DUT node is created | ${dut_node} | ${bd_id1} -| | ... | learn=${FALSE} -| | And Interface is added to bridge domain | ${dut_node} | ${dut_to_tg_if1} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut_node} | ${vhost_if1} -| | ... | ${bd_id1} -| | And Destination port is added to L2FIB on DUT node | ${tg_node} -| | ... | ${tg_to_dut_if1} -| | ... | ${dut_node} -| | ... | ${dut_to_tg_if1} -| | ... | ${bd_id1} -| | And Destination port is added to L2FIB on DUT node | ${tg_node} -| | ... | ${tg_to_dut_if2} -| | ... | ${dut_node} -| | ... | ${vhost_if1} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut_node} | ${bd_id2} -| | ... | learn=${FALSE} -| | And Interface is added to bridge domain | ${dut_node} | ${dut_to_tg_if2} -| | ... | ${bd_id2} -| | And Interface is added to bridge domain | ${dut_node} | ${vhost_if2} -| | ... | ${bd_id2} -| | And Destination port is added to L2FIB on DUT node | ${tg_node} -| | ... | ${tg_to_dut_if2} -| | ... | ${dut_node} -| | ... | ${dut_to_tg_if2} -| | ... | ${bd_id2} -| | And Destination port is added to L2FIB on DUT node | ${tg_node} -| | ... | ${tg_to_dut_if1} -| | ... | ${dut_node} -| | ... | ${vhost_if2} -| | ... | ${bd_id2} -| | And VM for Vhost L2BD forwarding is setup | ${dut_node} | ${sock1} -| | ... | ${sock2} -| | Then Send and receive ICMPv6 bidirectionally | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tg_to_dut_if2} -| | [Teardown] | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| | ... | AND | Show vpp trace dump on all DUTs -| | ... | AND | Stop and Clear QEMU | ${dut_node} | ${vm_node} diff --git a/tests/suites/cop/cop_whitelist_blacklist.robot b/tests/suites/cop/cop_whitelist_blacklist.robot deleted file mode 100644 index c84387d349..0000000000 --- a/tests/suites/cop/cop_whitelist_blacklist.robot +++ /dev/null @@ -1,128 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Library | resources.libraries.python.Trace -| Library | resources.libraries.python.Cop -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/ipv4.robot -| Resource | resources/libraries/robot/traffic.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/l2_xconnect.robot -| Variables | resources/libraries/python/IPv4NodeAddress.py | ${nodes} -| Force Tags | HW_ENV | VM_ENV | 3_NODE_SINGLE_LINK_TOPO -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| ... | AND | Update All Interface Data On All Nodes | ${nodes} -| Test Teardown | Run Keywords | Show packet trace on all DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *COP Security IPv4 Blacklist and Whitelist Tests* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4-ICMPv4 on all links. -| ... | *[Cfg] DUT configuration:* DUT1 is configured with IPv4 routing and -| ... | static routes. COP security white-lists are applied on DUT1 ingress -| ... | interface from TG. DUT2 is configured with L2XC. -| ... | *[Ver] TG verification:* Test ICMPv4 Echo Request packets are sent in -| ... | one direction by TG on link to DUT1; on receive TG verifies packets for -| ... | correctness and drops as applicable. -| ... | *[Ref] Applicable standard specifications:* - -*** Variables *** -| ${tg_node}= | ${nodes['TG']} -| ${dut1_node}= | ${nodes['DUT1']} -| ${dut2_node}= | ${nodes['DUT2']} - -| ${dut1_if1_ip}= | 192.168.1.1 -| ${dut1_if2_ip}= | 192.168.2.1 -| ${dut1_if1_ip_GW}= | 192.168.1.2 -| ${dut1_if2_ip_GW}= | 192.168.2.2 - -| ${test_dst_ip}= | 32.0.0.1 -| ${test_src_ip}= | 16.0.0.1 - -| ${cop_dut_ip}= | 16.0.0.0 - -| ${ip_prefix}= | 24 -| ${nodes_ipv4_addresses}= | ${nodes_ipv4_addr} - -| ${fib_table_number}= | 1 - -*** Test Cases *** -| TC01: DUT permits IPv4 pkts with COP whitelist set with IPv4 src-addr -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 \ -| | ... | configure interface IPv4 addresses and routes in the main -| | ... | routing domain, add COP whitelist on interface to TG with IPv4 -| | ... | src-addr matching packets generated by TG; on DUT2 configure L2 -| | ... | xconnect. [Ver] Make TG send ICMPv4 Echo Req on its interface to -| | ... | DUT1; verify received ICMPv4 Echo Req pkts are correct. [Ref] -| | Given Path for 3-node testing is set -| | ... | ${tg_node} | ${dut1_node} | ${dut2_node} | ${tg_node} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Set Interface Address -| | ... | ${dut1_node} | ${dut1_to_tg} | ${dut1_if1_ip} | ${ip_prefix} -| | And Set Interface Address -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_if2_ip} | ${ip_prefix} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_tg} | ${dut1_if1_ip_GW} | ${tg_to_dut1_mac} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_if2_ip_GW} | ${tg_to_dut2_mac} -| | And Vpp Route Add | ${dut1_node} -| | ... | ${test_dst_ip} | ${ip_prefix} | ${dut1_if2_ip_GW} | ${dut1_to_dut2} -| | And Add fib table | ${dut1_node} -| | ... | ${cop_dut_ip} | ${ip_prefix} | ${fib_table_number} | local -| | When COP Add whitelist Entry -| | ... | ${dut1_node} | ${dut1_to_tg} | ip4 | ${fib_table_number} -| | And COP interface enable or disable | ${dut1_node} | ${dut1_to_tg} | enable -| | Then Send Packet And Check Headers | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} | ${dut1_to_dut2_mac} -| | ... | ${tg_to_dut2_mac} - -| TC02: DUT drops IPv4 pkts with COP blacklist set with IPv4 src-addr -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 \ -| | ... | configure interface IPv4 addresses and routes in the main -| | ... | routing domain, add COP blacklist on interface to TG with IPv4 -| | ... | src-addr matching packets generated by TG; on DUT2 configure L2 -| | ... | xconnect. [Ver] Make TG send ICMPv4 Echo Req on its interface to -| | ... | DUT1; verify no ICMPv4 Echo Req pkts are received. [Ref] -| | Given Path for 3-node testing is set -| | ... | ${tg_node} | ${dut1_node} | ${dut2_node} | ${tg_node} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Set Interface Address -| | ... | ${dut1_node} | ${dut1_to_tg} | ${dut1_if1_ip} | ${ip_prefix} -| | And Set Interface Address -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_if2_ip} | ${ip_prefix} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_tg} | ${dut1_if1_ip_GW} | ${tg_to_dut1_mac} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_if2_ip_GW} | ${tg_to_dut2_mac} -| | And Vpp Route Add | ${dut1_node} -| | ... | ${test_dst_ip} | ${ip_prefix} | ${dut1_if2_ip_GW} | ${dut1_to_dut2} -| | And Add fib table | ${dut1_node} -| | ... | ${cop_dut_ip} | ${ip_prefix} | ${fib_table_number} | drop -| | When COP Add whitelist Entry -| | ... | ${dut1_node} | ${dut1_to_tg} | ip4 | ${fib_table_number} -| | And COP interface enable or disable | ${dut1_node} | ${dut1_to_tg} | enable -| | Then Send packet from Port to Port should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} | ${dut1_to_dut2_mac} -| | ... | ${tg_to_dut2_mac} diff --git a/tests/suites/cop/cop_whitelist_blacklist_IPv6.robot b/tests/suites/cop/cop_whitelist_blacklist_IPv6.robot deleted file mode 100644 index 3fb9428680..0000000000 --- a/tests/suites/cop/cop_whitelist_blacklist_IPv6.robot +++ /dev/null @@ -1,142 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Library | resources.libraries.python.Trace -| Library | resources.libraries.python.Cop -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/ipv6.robot -| Resource | resources/libraries/robot/traffic.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/l2_xconnect.robot -| Variables | resources/libraries/python/IPv6NodesAddr.py | ${nodes} -| Force Tags | HW_ENV | VM_ENV | 3_NODE_SINGLE_LINK_TOPO -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| ... | AND | Update All Interface Data On All Nodes | ${nodes} -| Test Teardown | Run Keywords | Show packet trace on all DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *COP Security IPv6 Blacklist and Whitelist Tests* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv6-ICMPv6 on all links. -| ... | *[Cfg] DUT configuration:* DUT1 is configured with IPv6 routing and -| ... | static routes. COP security white-lists are applied on DUT1 ingress -| ... | interface from TG. DUT2 is configured with L2XC. -| ... | *[Ver] TG verification:* Test ICMPv6 Echo Request packets are sent in -| ... | one direction by TG on link to DUT1; on receive TG verifies packets for -| ... | correctness and drops as applicable. -| ... | *[Ref] Applicable standard specifications:* - -*** Variables *** -| ${tg_node}= | ${nodes['TG']} -| ${dut1_node}= | ${nodes['DUT1']} -| ${dut2_node}= | ${nodes['DUT2']} - -| ${dut1_if1_ip}= | 3ffe:62::1 -| ${dut1_if2_ip}= | 3ffe:63::1 -| ${dut1_if1_ip_GW}= | 3ffe:62::2 -| ${dut1_if2_ip_GW}= | 3ffe:63::2 - -| ${dut2_if1_ip}= | 3ffe:72::1 -| ${dut2_if2_ip}= | 3ffe:73::1 - -| ${test_dst_ip}= | 3ffe:64::1 -| ${test_src_ip}= | 3ffe:61::1 - -| ${cop_dut_ip}= | 3ffe:61:: - -| ${ip_prefix}= | 64 - -| ${nodes_ipv6_addresses}= | ${nodes_ipv6_addr} - -| ${fib_table_number}= | 1 - -*** Test Cases *** -| TC01: DUT permits IPv6 pkts with COP whitelist set with IPv6 src-addr -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv6-ICMPv6. [Cfg] On DUT1 \ -| | ... | configure interface IPv6 addresses and routes in the main -| | ... | routing domain, add COP whitelist on interface to TG with IPv6 -| | ... | src-addr matching packets generated by TG; on DUT2 configure L2 -| | ... | xconnect. [Ver] Make TG send ICMPv6 Echo Req on its interface to -| | ... | DUT1; verify received ICMPv6 Echo Req pkts are correct. [Ref] -| | Given Path for 3-node testing is set -| | ... | ${tg_node} | ${dut1_node} | ${dut2_node} | ${tg_node} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And VPP Set IF IPv6 Addr -| | ... | ${dut1_node} | ${dut1_to_tg} | ${dut1_if1_ip} | ${ip_prefix} -| | And VPP Set IF IPv6 Addr -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_if2_ip} | ${ip_prefix} -| | And VPP Set IF IPv6 Addr -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_if1_ip} | ${ip_prefix} -| | And VPP Set IF IPv6 Addr -| | ... | ${dut2_node} | ${dut2_to_tg} | ${dut2_if2_ip} | ${ip_prefix} -| | And Add IP Neighbor -| | ... | ${dut1_node} | ${dut1_to_tg} | ${dut1_if1_ip_GW} | ${tg_to_dut1_mac} -| | And Add IP Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_if2_ip_GW} | ${tg_to_dut2_mac} -| | And Vpp Route Add | ${dut1_node} -| | ... | ${test_dst_ip} | ${ip_prefix} | ${dut1_if2_ip_GW} | ${dut1_to_dut2} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | And Add fib table | ${dut1_node} | ${cop_dut_ip} | ${ip_prefix} | -| | ... | ${fib_table_number} | local -| | When COP Add whitelist Entry | ${dut1_node} | ${dut1_to_tg} | ip6 | -| | ... | ${fib_table_number} -| | And COP interface enable or disable | ${dut1_node} | ${dut1_to_tg} | enable -| | Then Send Packet And Check Headers | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} | ${dut1_to_dut2_mac} -| | ... | ${tg_to_dut2_mac} - -| TC02: DUT drops IPv6 pkts with COP blacklist set with IPv6 src-addr -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv6-ICMPv6. [Cfg] On DUT1 \ -| | ... | configure interface IPv6 addresses and routes in the main -| | ... | routing domain, add COP blacklist on interface to TG with IPv6 -| | ... | src-addr matching packets generated by TG; on DUT2 configure L2 -| | ... | xconnect. [Ver] Make TG send ICMPv6 Echo Req on its interface to -| | ... | DUT1; verify no ICMPv6 Echo Req pkts are received. [Ref] -| | Given Path for 3-node testing is set -| | ... | ${tg_node} | ${dut1_node} | ${dut2_node} | ${tg_node} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And VPP Set IF IPv6 Addr -| | ... | ${dut1_node} | ${dut1_to_tg} | ${dut1_if1_ip} | ${ip_prefix} -| | And VPP Set IF IPv6 Addr -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_if2_ip} | ${ip_prefix} -| | And VPP Set IF IPv6 Addr -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_if1_ip} | ${ip_prefix} -| | And VPP Set IF IPv6 Addr -| | ... | ${dut2_node} | ${dut2_to_tg} | ${dut2_if2_ip} | ${ip_prefix} -| | And Add IP Neighbor -| | ... | ${dut1_node} | ${dut1_to_tg} | ${dut1_if1_ip_GW} | ${tg_to_dut1_mac} -| | And Add IP Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_if2_ip_GW} | ${tg_to_dut2_mac} -| | And Vpp Route Add | ${dut1_node} -| | ... | ${test_dst_ip} | ${ip_prefix} | ${dut1_if2_ip_GW} | ${dut1_to_dut2} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | And Add fib table | ${dut1_node} -| | ... | ${cop_dut_ip} | ${ip_prefix} | ${fib_table_number} | drop -| | When COP Add whitelist Entry -| | ... | ${dut1_node} | ${dut1_to_tg} | ip6 | ${fib_table_number} -| | And COP interface enable or disable | ${dut1_node} | ${dut1_to_tg} | enable -| | Then Send packet from Port to Port should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} | ${dut1_to_dut2_mac} -| | ... | ${tg_to_dut2_mac} diff --git a/tests/suites/dhcp/dhcp_client.robot b/tests/suites/dhcp/dhcp_client.robot deleted file mode 100644 index eb34544d0b..0000000000 --- a/tests/suites/dhcp/dhcp_client.robot +++ /dev/null @@ -1,118 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/dhcp_client.robot -| Resource | resources/libraries/robot/ipv4.robot -| Library | resources.libraries.python.Trace -| Force Tags | HW_ENV | VM_ENV | 3_NODE_DOUBLE_LINK_TOPO -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *DHCP Client related test cases* - -*** Variables *** -| ${client_hostname}= | dhcp-client -| ${client_ip}= | 192.168.23.10 -| ${client_mask}= | 255.255.255.0 -| ${server_ip}= | 192.168.23.1 -| ${own_xid}= | 11112222 -| ${lease_time}= | ${15} - -*** Test Cases *** -| VPP sends a DHCP DISCOVER -| | [Documentation] | Configure DHCP client on interface to TG without hostname -| | ... | and check if DHCP DISCOVER message contains all required -| | ... | fields with expected values. -| | ... -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | When Set DHCP client on Interface | ${dut_node} | ${dut_to_tg_if1} -| | Then Check DHCP DISCOVER header | ${tg_node} -| | ... | ${tg_to_dut_if1} | ${dut_to_tg_if1_mac} - -| VPP sends a DHCP DISCOVER with hostname -| | [Documentation] | Configure DHCP client on interface to TG with hostname -| | ... | and check if DHCP DISCOVER message contains all required -| | ... | fields with expected values. -| | ... -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | When Set DHCP client on Interface | ${dut_node} | ${dut_to_tg_if1} -| | ... | ${client_hostname} -| | Then Check DHCP DISCOVER header | ${tg_node} -| | ... | ${tg_to_dut_if1} | ${dut_to_tg_if1_mac} | ${client_hostname} - -| VPP sends DHCP REQUEST after OFFER -| | [Documentation] | Configure DHCP client on interface to TG and check if -| | ... | DHCP REQUEST message contains all required fields. -| | ... -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | And VPP Route Add | ${dut_node} | 255.255.255.255 | 32 | ${NONE} | local -| | ... | ${FALSE} | ${NONE} -| | When Set DHCP client on Interface | ${dut_node} | ${dut_to_tg_if1} -| | Then Check DHCP REQUEST after OFFER | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tg_to_dut_if1_mac} | ${server_ip} -| | ... | ${dut_to_tg_if1_mac} | ${client_ip} | ${client_mask} - -| VPP doesn't send DHCP REQUEST after OFFER with wrong XID -| | [ Tags ] | EXPECTED_FAILING -| | [Documentation] | Configure DHCP client on interface to TG. If server sends -| | ... | DHCP OFFER with different XID as in DHCP DISCOVER, -| | ... | DHCP REQUEST message shouldn't be sent. -| | ... -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | And VPP Route Add | ${dut_node} | 255.255.255.255 | 32 | ${NONE} | local -| | ... | ${FALSE} | ${NONE} -| | When Set DHCP client on Interface | ${dut_node} | ${dut_to_tg_if1} -| | Then Run Keyword And Expect Error | DHCP REQUEST Rx timeout -| | ... | Check DHCP REQUEST after OFFER | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tg_to_dut_if1_mac} | ${server_ip} -| | ... | ${dut_to_tg_if1_mac} | ${client_ip} | ${client_mask} -| | ... | offer_xid=${own_xid} - -| VPP honors DHCPv4 lease time -| | [Documentation] | Send IP configuration to the VPP client via DHCP. Address -| | ... | is checked with ICMP echo request and there should be no -| | ... | reply for echo request when lease has expired. -| | ... -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | And VPP Route Add | ${dut_node} | 255.255.255.255 | 32 | ${NONE} | local -| | ... | ${FALSE} | ${NONE} -| | When Set DHCP client on Interface | ${dut_node} | ${dut_to_tg_if1} -| | And Send IP configuration to client via DHCP -| | ... | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tg_to_dut_if1_mac} | ${server_ip} -| | ... | ${client_ip} | ${client_mask} -| | ... | ${lease_time} -| | And Add Arp On Dut | ${dut_node} | ${dut_to_tg_if1} | ${server_ip} -| | ... | ${tg_to_dut_if1_mac} -| | Then Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${dut_to_tg_if1_mac} | ${tg_to_dut_if1_mac} | ${client_ip} -| | ... | ${server_ip} -| | And Sleep | ${lease_time} -| | And Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Node replies to ICMP echo request | ${tg_node} -| | ... | ${tg_to_dut_if1} | ${dut_to_tg_if1_mac} | ${tg_to_dut_if1_mac} -| | ... | ${client_ip} | ${server_ip} diff --git a/tests/suites/fds_related_tests/provider_network.robot b/tests/suites/fds_related_tests/provider_network.robot deleted file mode 100644 index bda5525885..0000000000 --- a/tests/suites/fds_related_tests/provider_network.robot +++ /dev/null @@ -1,339 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/ipv4.robot -| Resource | resources/libraries/robot/bridge_domain.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/double_qemu_setup.robot -| Resource | resources/libraries/robot/qemu.robot -| Library | resources.libraries.python.Trace -| Force Tags | HW_ENV | VM_ENV | SKIP_PATCH -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| ... | AND | Qemu Teardown | ${dut1_node} | ${qemu_node1} -| ... | qemu_node1 -| ... | AND | Qemu Teardown | ${dut2_node} | ${qemu_node2} -| ... | qemu_node2 -| Documentation | *Provider network FDS related.* -| ... -| ... | Test suite uses 3-node topology TG - DUT1 - DUT2 - TG -| ... | with one link between nodes. Test packets are sent in both directions -| ... | between namespaces in DUT1 and DUT2 with both positive and negative -| ... | scenarios tested. - -*** Variables *** -| ${bd_id1}= | 1 -| ${bd_id2}= | 2 -| ${shg1}= | 3 -| ${shg2}= | 4 -| ${sock1}= | /tmp/sock1 -| ${sock2}= | /tmp/sock2 -| ${sock3}= | /tmp/sock3 -| ${sock4}= | /tmp/sock4 - -| ${bid_b}= | 23 -| ${bid_r}= | 24 - -| ${vlan_red}= | 50 -| ${vlan_blue}= | 60 - -| ${dut1_if_ip}= | 16.0.0.1 -| ${dut2_if_ip}= | 16.0.0.2 - -| ${dut1_blue1}= | 16.0.10.1 -| ${dut1_blue2}= | 16.0.10.2 -| ${dut1_red1}= | 16.0.10.3 -| ${dut1_red2}= | 16.0.10.4 - -| ${dut2_blue1}= | 16.0.20.1 -| ${dut2_blue2}= | 16.0.20.2 -| ${dut2_red1}= | 16.0.20.3 -| ${dut2_red2}= | 16.0.20.4 - -| ${namespace1}= | nmspace1 -| ${namespace2}= | nmspace2 -| ${namespace3}= | nmspace3 -| ${namespace4}= | nmspace4 - -| ${prefix_length}= | 16 - -*** Test Cases *** -| Provider network test cases with provider physical networks (VLAN) -| | [Documentation] | Ping among all ports inside the same network should pass. -| | ... | a) test l2 connectivity inside every network -| | ... | b) test l2 connectivity between networks -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO | VPP_VM_ENV -| | Given Path for 3-node testing is set | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes['TG']} -| | And Set Interface Address | ${dut1_node} | ${dut1_to_dut2} | ${dut1_if_ip} -| | ... | ${prefix_length} -| | And Set Interface Address | ${dut2_node} | ${dut2_to_dut1} | ${dut2_if_ip} -| | ... | ${prefix_length} -| | And Set Interface State | ${dut1_node} | ${dut1_to_dut2} | up -| | And Set Interface State | ${dut2_node} | ${dut2_to_dut1} | up -| | ${vhost_if1_DUT1}= | And Vpp Create Vhost User Interface -| | ... | ${dut1_node} | ${sock1} -| | ${vhost_if2_DUT1}= | And Vpp Create Vhost User Interface -| | ... | ${dut1_node} | ${sock2} -| | ${vhost_if3_DUT1}= | And Vpp Create Vhost User Interface -| | ... | ${dut1_node} | ${sock3} -| | ${vhost_if4_DUT1}= | And Vpp Create Vhost User Interface -| | ... | ${dut1_node} | ${sock4} -| | ${dut1_vhosts}= | And Create List | ${vhost_if1_DUT1} | ${vhost_if2_DUT1} -| | ... | ${vhost_if3_DUT1} | ${vhost_if4_DUT1} -| | ${vhost_if1_DUT2}= | And Vpp Create Vhost User Interface -| | ... | ${dut2_node} | ${sock1} -| | ${vhost_if2_DUT2}= | And Vpp Create Vhost User Interface -| | ... | ${dut2_node} | ${sock2} -| | ${vhost_if3_DUT2}= | And Vpp Create Vhost User Interface -| | ... | ${dut2_node} | ${sock3} -| | ${vhost_if4_DUT2}= | And Vpp Create Vhost User Interface -| | ... | ${dut2_node} | ${sock4} -| | ${dut2_vhosts}= | And Create List | ${vhost_if1_DUT2} | ${vhost_if2_DUT2} -| | ... | ${vhost_if3_DUT2} | ${vhost_if4_DUT2} -| | When Setup QEMU Vhost and Run | ${dut1_node} -| | ... | ${sock1} -| | ... | ${sock2} -| | ... | ${sock3} -| | ... | ${sock4} -| | ... | ${dut1_blue1} -| | ... | ${dut1_blue2} -| | ... | ${dut1_red1} -| | ... | ${dut1_red2} -| | ... | ${prefix_length} -| | ... | qemu_node1 -| | ... | 04 -| | And Setup QEMU Vhost and Run | ${dut2_node} -| | ... | ${sock1} -| | ... | ${sock2} -| | ... | ${sock3} -| | ... | ${sock4} -| | ... | ${dut2_blue1} -| | ... | ${dut2_blue2} -| | ... | ${dut2_red1} -| | ... | ${dut2_red2} -| | ... | ${prefix_length} -| | ... | qemu_node2 -| | ... | 06 -| | And Setup VLAN and BD on Dut | ${dut1_node} | ${dut1_to_dut2} -| | ... | @{dut1_vhosts} -| | And Setup VLAN and BD on Dut | ${dut2_node} | ${dut2_to_dut1} -| | ... | @{dut2_vhosts} -| | Then Positive Scenario Ping From DUT1 - Intra network -| | And Positive Scenario Ping From DUT1 - Inter network -| | And Positive Scenario Ping From DUT2 - Intra network -| | And Positive Scenario Ping From DUT2 - Inter network -| | And Negative Scenario Ping From DUT1 - Intra network -| | And Negative Scenario Ping From DUT1 - Inter network -| | And Negative Scenario Ping From DUT2 - Intra network -| | And Negative Scenario Ping From DUT2 - Inter network - -*** Keywords *** -| Setup VLAN and BD on Dut -| | [Documentation] | Setup VLAN and bridge domain on specific DUT and -| | ... | subsequently interconnect them properly. Also set VLAN tag -| | ... | rewrite on vhosts. -| | ... -| | ... | *Arguments:* -| | ... | - dut_node - Node where to setup VLAN and BD. Type: dict -| | ... | - interface - Interface where to create VLAN sub-interface. -| | ... | Type: string -| | ... | - vhosts - List containing vhost interfaces. -| | ... -| | ... | *Example:* -| | ... -| | ... | \| Setup VLAN and BD on Dut \| ${dut_node} \| GigabitEthernet0/6/0 \ -| | ... | \| @{vhosts} \| -| | ... -| | [Arguments] | ${dut_node} | ${interface} | @{vhosts} -| | Bridge domain on DUT node is created | ${dut_node} | ${bid_b} | learn=${TRUE} -| | Bridge domain on DUT node is created | ${dut_node} | ${bid_r} | learn=${TRUE} -| | ${interface_name}= | Get interface name | ${dut_node} | ${interface} -| | ${vlan1_name} | ${vlan1_index}= | Create Vlan Subinterface -| | ... | ${dut_node} | ${interface_name} | ${vlan_blue} -| | ${vlan2_name} | ${vlan2_index}= | Create Vlan Subinterface -| | ... | ${dut_node} | ${interface_name} | ${vlan_red} -| | L2 Tag Rewrite | ${dut_node} | @{vhosts}[0] | push-1 | ${vlan_blue} -| | L2 Tag Rewrite | ${dut_node} | @{vhosts}[1] | push-1 | ${vlan_blue} -| | L2 Tag Rewrite | ${dut_node} | @{vhosts}[2] | push-1 | ${vlan_red} -| | L2 Tag Rewrite | ${dut_node} | @{vhosts}[3] | push-1 | ${vlan_red} -| | Interface is added to bridge domain | ${dut_node} -| | ... | ${vlan1_index} | ${bid_b} | 0 -| | Interface is added to bridge domain | ${dut_node} -| | ... | @{vhosts}[0] | ${bid_b} | 0 -| | Interface is added to bridge domain | ${dut_node} -| | ... | @{vhosts}[1] | ${bid_b} | 0 -| | Interface is added to bridge domain | ${dut_node} -| | ... | ${vlan2_index} | ${bid_r} | 0 -| | Interface is added to bridge domain | ${dut_node} -| | ... | @{vhosts}[2] | ${bid_r} | 0 -| | Interface is added to bridge domain | ${dut_node} -| | ... | @{vhosts}[3] | ${bid_r} | 0 - -| Positive Scenario Ping From DUT1 - Intra network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test connectivity. -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_blue2} | ${namespace1} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_blue1} | ${namespace2} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_red2} | ${namespace3} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_red1} | ${namespace4} - -| Positive Scenario Ping From DUT1 - Inter network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test connectivity. -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue1} | ${namespace1} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue2} | ${namespace1} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue1} | ${namespace2} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue2} | ${namespace2} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red1} | ${namespace3} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red2} | ${namespace3} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red1} | ${namespace4} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red2} | ${namespace4} - -| Positive Scenario Ping From DUT2 - Intra network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test connectivity. -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_blue2} | ${namespace1} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_blue1} | ${namespace2} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_red2} | ${namespace3} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_red1} | ${namespace4} - -| Positive Scenario Ping From DUT2 - Inter network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test connectivity. -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue1} | ${namespace1} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue2} | ${namespace1} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue1} | ${namespace2} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue2} | ${namespace2} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red1} | ${namespace3} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red2} | ${namespace3} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red1} | ${namespace4} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red2} | ${namespace4} - -| Negative Scenario Ping From DUT1 - Intra network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test unreachability of namespaces. -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_red1} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_red2} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_red1} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_red2} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_blue1} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_blue2} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_blue1} -| | ... | ${namespace4} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_blue2} -| | ... | ${namespace4} - - -| Negative Scenario Ping From DUT1 - Inter network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test unreachability of namespaces. -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red1} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red2} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red1} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red2} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue1} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue2} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue1} -| | ... | ${namespace4} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue2} -| | ... | ${namespace4} - -| Negative Scenario Ping From DUT2 - Intra network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test unreachability of namespaces. -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_red1} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_red2} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_red1} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_red2} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_blue1} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_blue2} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_blue1} -| | ... | ${namespace4} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_blue2} -| | ... | ${namespace4} - - -| Negative Scenario Ping From DUT2 - Inter network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test unreachability of namespaces. -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red1} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red2} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red1} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red2} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue1} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue2} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue1} -| | ... | ${namespace4} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue2} -| | ... | ${namespace4} diff --git a/tests/suites/fds_related_tests/tenant_network.robot b/tests/suites/fds_related_tests/tenant_network.robot deleted file mode 100644 index e57b374583..0000000000 --- a/tests/suites/fds_related_tests/tenant_network.robot +++ /dev/null @@ -1,335 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/ipv4.robot -| Resource | resources/libraries/robot/bridge_domain.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/double_qemu_setup.robot -| Resource | resources/libraries/robot/qemu.robot -| Library | resources.libraries.python.Trace -| Force Tags | HW_ENV | VM_ENV | SKIP_PATCH -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| ... | AND | Qemu Teardown | ${dut1_node} | ${qemu_node1} -| ... | qemu_node1 -| ... | AND | Qemu Teardown | ${dut2_node} | ${qemu_node2} -| ... | qemu_node2 -| Documentation | *Tenant network FDS related.* -| ... -| ... | Test suite uses 3-node topology TG - DUT1 - DUT2 - TG -| ... | with one link between nodes. Test packets are sent in both directions -| ... | between namespaces in DUT1 and DUT2 with both positive and negative -| ... | scenarios tested. - -*** Variables *** -| ${bd_id1}= | 1 -| ${bd_id2}= | 2 -| ${shg1}= | 3 -| ${shg2}= | 4 -| ${sock1}= | /tmp/sock1 -| ${sock2}= | /tmp/sock2 -| ${sock3}= | /tmp/sock3 -| ${sock4}= | /tmp/sock4 - -| ${vni_blue}= | 23 -| ${vni_red}= | 24 - -| ${bid_b}= | 23 -| ${bid_r}= | 24 - -| ${dut1_if_ip}= | 16.0.0.1 -| ${dut2_if_ip}= | 16.0.0.2 - -| ${dut1_blue1}= | 16.0.10.1 -| ${dut1_blue2}= | 16.0.10.2 -| ${dut1_red1}= | 16.0.10.3 -| ${dut1_red2}= | 16.0.10.4 - -| ${dut2_blue1}= | 16.0.20.1 -| ${dut2_blue2}= | 16.0.20.2 -| ${dut2_red1}= | 16.0.20.3 -| ${dut2_red2}= | 16.0.20.4 - -| ${namespace1}= | nmspace1 -| ${namespace2}= | nmspace2 -| ${namespace3}= | nmspace3 -| ${namespace4}= | nmspace4 - -| ${prefix_length}= | 16 - -*** Test Cases *** -| L2 test cases with tenant networks (VXLAN) -| | [Documentation] | Ping among all ports inside the same network should pass. -| | ... | a) test l2 connectivity inside every network -| | ... | b) test l2 connectivity between networks -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO | VPP_VM_ENV -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Set Interface Address -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_if_ip} | ${prefix_length} -| | And Set Interface Address -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_if_ip} | ${prefix_length} -| | And Set Interface State | ${dut1_node} | ${dut1_to_dut2} | up -| | And Set Interface State | ${dut2_node} | ${dut2_to_dut1} | up -| | ${vhost_if1_DUT1}= | And Vpp Create Vhost User Interface -| | ... | ${dut1_node} | ${sock1} -| | ${vhost_if2_DUT1}= | And Vpp Create Vhost User Interface -| | ... | ${dut1_node} | ${sock2} -| | ${vhost_if3_DUT1}= | And Vpp Create Vhost User Interface -| | ... | ${dut1_node} | ${sock3} -| | ${vhost_if4_DUT1}= | And Vpp Create Vhost User Interface -| | ... | ${dut1_node} | ${sock4} -| | ${dut1_vhosts}= | And Create List | ${vhost_if1_DUT1} | ${vhost_if2_DUT1} -| | ... | ${vhost_if3_DUT1} | ${vhost_if4_DUT1} -| | ${vhost_if1_DUT2}= | And Vpp Create Vhost User Interface -| | ... | ${dut2_node} | ${sock1} -| | ${vhost_if2_DUT2}= | And Vpp Create Vhost User Interface -| | ... | ${dut2_node} | ${sock2} -| | ${vhost_if3_DUT2}= | And Vpp Create Vhost User Interface -| | ... | ${dut2_node} | ${sock3} -| | ${vhost_if4_DUT2}= | And Vpp Create Vhost User Interface -| | ... | ${dut2_node} | ${sock4} -| | ${dut2_vhosts}= | And Create List | ${vhost_if1_DUT2} | ${vhost_if2_DUT2} -| | ... | ${vhost_if3_DUT2} | ${vhost_if4_DUT2} -| | When Setup QEMU Vhost and Run | ${dut1_node} -| | ... | ${sock1} -| | ... | ${sock2} -| | ... | ${sock3} -| | ... | ${sock4} -| | ... | ${dut1_blue1} -| | ... | ${dut1_blue2} -| | ... | ${dut1_red1} -| | ... | ${dut1_red2} -| | ... | ${prefix_length} -| | ... | qemu_node1 -| | ... | 04 -| | And Setup QEMU Vhost and Run | ${dut2_node} -| | ... | ${sock1} -| | ... | ${sock2} -| | ... | ${sock3} -| | ... | ${sock4} -| | ... | ${dut2_blue1} -| | ... | ${dut2_blue2} -| | ... | ${dut2_red1} -| | ... | ${dut2_red2} -| | ... | ${prefix_length} -| | ... | qemu_node2 -| | ... | 06 -| | And Setup VXLAN and BD on Dut | ${dut1_node} | ${dut1_if_ip} | ${dut2_if_ip} -| | ... | @{dut1_vhosts} -| | And Setup VXLAN and BD on Dut | ${dut2_node} | ${dut2_if_ip} | ${dut1_if_ip} -| | ... | @{dut2_vhosts} -| | Then Positive Scenario Ping From DUT1 - Intra network -| | And Positive Scenario Ping From DUT1 - Inter network -| | And Positive Scenario Ping From DUT2 - Intra network -| | And Positive Scenario Ping From DUT2 - Inter network -| | And Negative Scenario Ping From DUT1 - Intra network -| | And Negative Scenario Ping From DUT1 - Inter network -| | And Negative Scenario Ping From DUT2 - Intra network -| | And Negative Scenario Ping From DUT2 - Inter network - -*** Keywords *** -| Setup VXLAN and BD on Dut -| | [Documentation] | Setup VXLAN and bridge domain on specific DUT and -| | ... | subsequently interconnect them properly. -| | ... -| | ... | *Arguments:* -| | ... | - dut_node - Node where to setup vxlan and BD. Type: dict -| | ... | - src_ip - Source IP for VXLAN. Type: string -| | ... | - dst_ip - Destination IP for vxlan. Type: string -| | ... | - vhosts - List containing vhost interfaces. -| | ... -| | ... | *Example:* -| | ... -| | ... | \| Setup VXLAN and BD on Dut \| ${dut_node} \| 16.0.0.1 \| 16.0.0.1 \ -| | ... | \| @{vhosts} \| -| | ... -| | [Arguments] | ${dut_node} | ${src_ip} | ${dst_ip} | @{vhosts} -| | Bridge domain on DUT node is created -| | ... | ${dut_node} | ${bid_b} | learn=${TRUE} -| | Bridge domain on DUT node is created -| | ... | ${dut_node} | ${bid_r} | learn=${TRUE} -| | ${vxlan1_if}= | Create VXLAN interface | ${dut_node} | ${vni_blue} -| | | ... | ${src_ip} | ${dst_ip} -| | ${vxlan2_if}= | Create VXLAN interface | ${dut_node} | ${vni_red} -| | | ... | ${src_ip} | ${dst_ip} -| | Interface is added to bridge domain -| | ... | ${dut_node} | ${vxlan1_if} | ${bid_b} | 0 -| | Interface is added to bridge domain -| | ... | ${dut_node} | @{vhosts}[0] | ${bid_b} | 0 -| | Interface is added to bridge domain -| | ... | ${dut_node} | @{vhosts}[1] | ${bid_b} | 0 -| | Interface is added to bridge domain -| | ... | ${dut_node} | ${vxlan2_if} | ${bid_r} | 0 -| | Interface is added to bridge domain -| | ... | ${dut_node} | @{vhosts}[2] | ${bid_r} | 0 -| | Interface is added to bridge domain -| | ... | ${dut_node} | @{vhosts}[3] | ${bid_r} | 0 - -| Positive Scenario Ping From DUT1 - Intra network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test connectivity. -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_blue2} | ${namespace1} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_blue1} | ${namespace2} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_red2} | ${namespace3} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_red1} | ${namespace4} - -| Positive Scenario Ping From DUT1 - Inter network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test connectivity. -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue1} | ${namespace1} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue2} | ${namespace1} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue1} | ${namespace2} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue2} | ${namespace2} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red1} | ${namespace3} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red2} | ${namespace3} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red1} | ${namespace4} -| | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red2} | ${namespace4} - -| Positive Scenario Ping From DUT2 - Intra network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test connectivity. -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_blue2} | ${namespace1} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_blue1} | ${namespace2} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_red2} | ${namespace3} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_red1} | ${namespace4} - -| Positive Scenario Ping From DUT2 - Inter network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test connectivity. -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue1} | ${namespace1} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue2} | ${namespace1} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue1} | ${namespace2} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue2} | ${namespace2} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red1} | ${namespace3} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red2} | ${namespace3} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red1} | ${namespace4} -| | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red2} | ${namespace4} - -| Negative Scenario Ping From DUT1 - Intra network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test unreachability of namespaces. -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_red1} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_red2} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_red1} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_red2} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_blue1} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_blue2} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_blue1} -| | ... | ${namespace4} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut1_blue2} -| | ... | ${namespace4} - - -| Negative Scenario Ping From DUT1 - Inter network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test unreachability of namespaces. -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red1} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red2} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red1} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_red2} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue1} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue2} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue1} -| | ... | ${namespace4} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node1} | ${dut2_blue2} -| | ... | ${namespace4} - -| Negative Scenario Ping From DUT2 - Intra network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test unreachability of namespaces. -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_red1} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_red2} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_red1} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_red2} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_blue1} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_blue2} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_blue1} -| | ... | ${namespace4} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut2_blue2} -| | ... | ${namespace4} - - -| Negative Scenario Ping From DUT2 - Inter network -| | [Documentation] | Send ping packets from specified namespaces to other in -| | ... | order to test unreachability of namespaces. -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red1} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red2} -| | ... | ${namespace1} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red1} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_red2} -| | ... | ${namespace2} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue1} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue2} -| | ... | ${namespace3} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue1} -| | ... | ${namespace4} -| | Run keyword and expect error | Ping Not Successful -| | ... | Send Ping From Node To Dst | ${qemu_node2} | ${dut1_blue2} -| | ... | ${namespace4} diff --git a/tests/suites/gre/gre_encapsulation.robot b/tests/suites/gre/gre_encapsulation.robot deleted file mode 100644 index 17b3fffff2..0000000000 --- a/tests/suites/gre/gre_encapsulation.robot +++ /dev/null @@ -1,150 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/ipv4.robot -| Resource | resources/libraries/robot/gre.robot -| Resource | resources/libraries/robot/traffic.robot -| Library | resources.libraries.python.IPUtil -| Library | resources.libraries.python.Trace -| Force Tags | VM_ENV | HW_ENV -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *GREoIPv4 test cases* -| ... -| ... | *[Top] Network Topologies:* TG=DUT1 2-node topology with two links -| ... | between nodes; TG-DUT1-DUT2-TG 3-node circular topology with single -| ... | links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4-GRE-IPv4-ICMPv4 on DUT1-DUT2, -| ... | Eth-IPv4-ICMPv4 on TG-DUTn for routing over GRE tunnel; Eth-IPv4-ICMPv4 -| ... | on TG_if1-DUT, Eth-IPv4-GRE-IPv4-ICMPv4 on TG_if2_DUT for GREoIPv4 -| ... | encapsulation and decapsulation verification. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with IPv4 routing -| ... | and static routes. GREoIPv4 tunnel is configured between DUT1 and DUT2. -| ... | *[Ver] TG verification:* Test ICMPv4 (or ICMPv6) Echo Request packets are -| ... | sent in both directions by TG on links to DUT1 and DUT2; GREoIPv4 -| ... | encapsulation and decapsulation are verified separately by TG; on -| ... | receive TG verifies packets for correctness and their IPv4 (IPv6) -| ... | src-addr, dst-addr and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* RFC2784. - -*** Variables *** -| ${net1_address}= | 192.168.0.0 -| ${net1_host_address}= | 192.168.0.100 -| ${net1_gw_address}= | 192.168.0.1 -| ${net2_address}= | 192.168.2.0 -| ${net2_host_address}= | 192.168.2.100 -| ${net2_gw_address}= | 192.168.2.1 -| ${dut1_ip_address}= | 192.168.1.1 -| ${dut2_ip_address}= | 192.168.1.2 -| ${dut1_gre_ip}= | 172.16.0.1 -| ${dut2_gre_ip}= | 172.16.0.2 -| ${prefix}= | 24 - -*** Test Cases *** -| TC01: DUT1 and DUT2 route over GREoIPv4 tunnel between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-GRE-IPv4-ICMPv4 on \ -| | ... | DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 -| | ... | configure GREoIPv4 tunnel with IPv4 routes towards each other. -| | ... | [Ver] Make TG send ICMPv4 Echo Req between its interfaces across -| | ... | both DUTs and GRE tunnel between them; verify IPv4 headers on -| | ... | received packets are correct. [Ref] RFC2784. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | 3_NODE_DOUBLE_LINK_TOPO -| | Given Path for 3-node testing is set | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And IP addresses are set on interfaces -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_ip_address} | ${prefix} -| | ... | ${dut1_node} | ${dut1_to_tg} | ${net1_gw_address} | ${prefix} -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_ip_address} | ${prefix} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${net2_gw_address} | ${prefix} -| | And VPP IP Probe | ${dut1_node} | ${dut1_to_dut2} | ${dut2_ip_address} -| | And VPP IP Probe | ${dut2_node} | ${dut2_to_dut1} | ${dut1_ip_address} -| | And Add Arp On Dut | ${dut2_node} | ${dut2_to_tg} | ${net2_host_address} -| | ... | ${tg_to_dut2_mac} -| | ${dut1_gre_interface} | ${dut1_gre_index}= -| | | ... | When GRE tunnel interface is created and up -| | | | ... | ${dut1_node} | ${dut1_ip_address} | ${dut2_ip_address} -| | ${dut2_gre_interface} | ${dut2_gre_index}= -| | | ... | And GRE tunnel interface is created and up -| | | | ... | ${dut2_node} | ${dut2_ip_address} | ${dut1_ip_address} -| | And IP addresses are set on interfaces -| | ... | ${dut1_node} | ${dut1_gre_index} | ${dut1_gre_ip} | ${prefix} -| | ... | ${dut2_node} | ${dut2_gre_index} | ${dut2_gre_ip} | ${prefix} -| | And Vpp Route Add | ${dut1_node} | ${net2_address} | ${prefix} -| | ... | ${dut2_gre_ip} | ${dut1_gre_index} -| | Then Send Packet And Check Headers | ${tg_node} -| | ... | ${net1_host_address} | ${net2_host_address} -| | ... | ${tg_to_dut1} | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut2} | ${dut2_to_tg_mac} | ${tg_to_dut2_mac} - -| TC02: DUT encapsulates IPv4 into GREoIPv4 tunnel - GRE header verification -| | [Documentation] -| | ... | [Top] TG=DUT1. [Enc] Eth-IPv4-ICMPv4 on TG_if1-DUT, \ -| | ... | Eth-IPv4-GRE-IPv4-ICMPv4 on TG_if2_DUT. [Cfg] On DUT1 configure -| | ... | GREoIPv4 tunnel with IPv4 route towards TG. [Ver] Make TG send -| | ... | non-encapsulated ICMPv4 Echo Req to DUT; verify TG received -| | ... | GREoIPv4 encapsulated packet is correct. [Ref] RFC2784. -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | And IP addresses are set on interfaces -| | ... | ${dut_node} | ${dut_to_tg_if2} | ${dut1_ip_address} | ${prefix} -| | ... | ${dut_node} | ${dut_to_tg_if1} | ${net1_gw_address} | ${prefix} -| | And Add Arp On Dut | ${dut_node} | ${dut_to_tg_if2} | ${dut2_ip_address} -| | ... | ${tg_to_dut_if2_mac} -| | ${dut1_gre_interface} | ${dut1_gre_index}= -| | | ... | When GRE tunnel interface is created and up -| | | | ... | ${dut_node} | ${dut1_ip_address} | ${dut2_ip_address} -| | And IP addresses are set on interfaces -| | ... | ${dut_node} | ${dut1_gre_index} | ${dut1_gre_ip} | ${prefix} -| | And Vpp Route Add | ${dut_node} | ${net2_address} | ${prefix} -| | ... | ${dut2_gre_ip} | ${dut1_gre_index} -| | Then Send ICMPv4 and check received GRE header -| | ... | ${tg_node} | ${tg_to_dut_if1} | ${tg_to_dut_if2} -| | ... | ${dut_to_tg_if1_mac} | ${tg_to_dut_if2_mac} -| | ... | ${net1_host_address} | ${net2_host_address} -| | ... | ${dut1_ip_address} | ${dut2_ip_address} - -| TC03: DUT decapsulates IPv4 from GREoIPv4 tunnel - IPv4 header verification -| | [Documentation] -| | ... | [Top] TG=DUT1. [Enc] Eth-IPv4-ICMPv4 on TG_if1-DUT, \ -| | ... | Eth-IPv4-GRE-IPv4-ICMPv4 on TG_if2_DUT. [Cfg] On DUT1 configure -| | ... | GREoIPv4 tunnel towards TG. [Ver] Make TG send ICMPv4 Echo Req -| | ... | encapsulated into GREoIPv4 towards VPP; verify TG received IPv4 -| | ... | de-encapsulated packet is correct. [Ref] RFC2784. -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | And IP addresses are set on interfaces -| | ... | ${dut_node} | ${dut_to_tg_if2} | ${dut1_ip_address} | ${prefix} -| | ... | ${dut_node} | ${dut_to_tg_if1} | ${net1_gw_address} | ${prefix} -| | And Add Arp On Dut | ${dut_node} | ${dut_to_tg_if1} | ${net1_host_address} -| | ... | ${tg_to_dut_if1_mac} -| | ${dut1_gre_interface} | ${dut1_gre_index}= -| | | ... | When GRE tunnel interface is created and up -| | | | ... | ${dut_node} | ${dut1_ip_address} | ${dut2_ip_address} -| | And IP addresses are set on interfaces -| | ... | ${dut_node} | ${dut1_gre_index} | ${dut1_gre_ip} | ${prefix} -| | Then Send GRE and check received ICMPv4 header -| | ... | ${tg_node} | ${tg_to_dut_if2} | ${tg_to_dut_if1} -| | ... | ${dut_to_tg_if2_mac} | ${tg_to_dut_if1_mac} -| | ... | ${net2_host_address} | ${net1_host_address} -| | ... | ${dut2_ip_address} | ${dut1_ip_address} diff --git a/tests/suites/honeycomb/010_interface_management.robot b/tests/suites/honeycomb/010_interface_management.robot deleted file mode 100644 index e9798167c7..0000000000 --- a/tests/suites/honeycomb/010_interface_management.robot +++ /dev/null @@ -1,116 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Variables *** -# Interface to run tests on. -| ${interface}= | ${node['interfaces']['port1']['name']} -# Configuration which will be set and verified during tests. -| ${ipv4_address}= | 192.168.0.2 -| ${ipv4_address2}= | 192.168.0.3 -| ${ipv4_mask}= | 255.255.255.0 -| ${ipv4_prefix}= | ${24} -| @{ipv4_neighbor}= | 192.168.0.4 | 08:00:27:c0:5d:37 -| &{ipv4_settings}= | enabled=${True} | forwarding=${True} | mtu=${9000} -| @{ipv6_address}= | 10::10 | ${64} -| @{ipv6_neighbor}= | 10::11 | 08:00:27:c0:5d:37 -| &{ipv6_settings}= | enabled=${True} | forwarding=${True} | mtu=${9000} -| ... | dup-addr-detect-transmits=${5} -| &{ethernet}= | mtu=${9000} -| &{routing}= | vrf-id=${27} -| &{vxlan_settings}= | src=10.0.1.20 | dst=10.0.3.20 | vni=${1000} -| ... | encap-vrf-id=${1000} - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/interfaces.robot -| Force Tags | honeycomb_sanity -| Documentation | *Honeycomb interface management test suite.* -| ... -| ... | Test suite uses the first interface of the first DUT node. - -*** Test Cases *** -| Honeycomb configures and reads interface state -| | [Documentation] | Check if Honeycomb API can modify the admin state of\ -| | ... | VPP interfaces. -| | Given Interface state is | ${node} | ${interface} | down -| | When Honeycomb sets interface state | ${node} | ${interface} | up -| | Then Interface state from Honeycomb should be -| | ... | ${node} | ${interface} | up -| | And Interface state from VAT should be | ${node} | ${interface} | up -| | When Honeycomb sets interface state | ${node} | ${interface} | down -| | Then Interface state from Honeycomb should be -| | ... | ${node} | ${interface} | down -| | And Interface state from VAT should be | ${node} | ${interface} | down - -| Honeycomb modifies interface configuration - ipv4 (netmask) -| | [Documentation] | Check if Honeycomb API can configure interfaces for ipv4\ -| | ... | with address and netmask provided. -| | When Honeycomb sets interface ipv4 address | ${node} | ${interface} -| | ... | ${ipv4_address} | ${ipv4_mask} | ${ipv4_settings} -| | And Honeycomb adds interface ipv4 neighbor -| | ... | ${node} | ${interface} | @{ipv4_neighbor} -| | Then IPv4 config from Honeycomb should be -| | ... | ${node} | ${interface} | ${ipv4_address} | ${ipv4_prefix} -| | ... | @{ipv4_neighbor} | ${ipv4_settings} -| | And IPv4 config from VAT should be -| | ... | ${node} | ${interface} | ${ipv4_address} | ${ipv4_prefix} - -| Honeycomb removes ipv4 address from interface -| | [Documentation] | Check if Honeycomb API can remove configured ipv4\ -| | ... | addresses from interface. -| | Given IPv4 config from Honeycomb should be -| | ... | ${node} | ${interface} | ${ipv4_address} | ${ipv4_prefix} -| | ... | @{ipv4_neighbor} | ${ipv4_settings} -| | And IPv4 config from VAT should be -| | ... | ${node} | ${interface} | ${ipv4_address} | ${ipv4_prefix} -| | When Honeycomb removes interface ipv4 addresses | ${node} | ${interface} -| | Then IPv4 address from Honeycomb should be empty | ${node} |${interface} -| | And ipv4 address from VAT should be empty | ${node} | ${interface} - -| Honeycomb modifies interface configuration - ipv4 (prefix) -| | [Documentation] | Check if Honeycomb API can configure interfaces for ipv4\ -| | ... | with address and prefix provided. -| | [Teardown] | Honeycomb removes interface ipv4 addresses | ${node} -| | ... | ${interface} -| | When Honeycomb sets interface ipv4 address with prefix -| | ... | ${node} | ${interface} | ${ipv4_address2} | ${ipv4_prefix} -| | ... | ${ipv4_settings} -| | And Honeycomb adds interface ipv4 neighbor -| | ... | ${node} | ${interface} | @{ipv4_neighbor} -| | Then IPv4 config from Honeycomb should be -| | ... | ${node} | ${interface} | ${ipv4_address2} | ${ipv4_prefix} -| | ... | @{ipv4_neighbor} -| | ... | ${ipv4_settings} -| | And IPv4 config from VAT should be -| | ... | ${node} | ${interface} | ${ipv4_address2} | ${ipv4_prefix} - -| Honeycomb modifies interface configuration - ipv6 -| | [Documentation] | Check if Honeycomb API can configure interfaces for ipv6. -| | When Honeycomb sets interface ipv6 configuration -| | ... | ${node} | ${interface} | @{ipv6_address} | @{ipv6_neighbor} -| | ... | ${ipv6_settings} -| | Then IPv6 config from Honeycomb should be -| | ... | ${node} | ${interface} | @{ipv6_address} | @{ipv6_neighbor} -| | ... | ${ipv6_settings} -| | And IPv6 config from VAT should be -| | ... | ${node} | ${interface} | @{ipv6_address} - -| Honeycomb modifies interface configuration - ethernet,routing -| | [Documentation] | Check if Honeycomb API can configure interface ethernet\ -| | ... | and routing settings. -| | When Honeycomb sets interface ethernet and routing configuration -| | ... | ${node} | ${interface} | ${ethernet} | ${routing} -| | Then Interface ethernet and routing configuration from Honeycomb should be -| | ... | ${node} | ${interface} | ${ethernet} | ${routing} -| | And Interface ethernet and routing configuration from VAT should be -| | ... | ${node} | ${interface} | ${ethernet['mtu']} | ${routing['vrf-id']} diff --git a/tests/suites/honeycomb/020_bridge_domain.robot b/tests/suites/honeycomb/020_bridge_domain.robot deleted file mode 100644 index 0bd4463ea0..0000000000 --- a/tests/suites/honeycomb/020_bridge_domain.robot +++ /dev/null @@ -1,105 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Variables *** -# Interfaces to run tests on. -| @{interfaces}= | ${node['interfaces']['port1']['name']} -| ... | ${node['interfaces']['port3']['name']} -# Configuration which will be set and verified during tests. -| ${bd1_name}= | bd-01 -| ${bd2_name}= | bd-02 -| &{bd_settings}= | flood=${True} | forward=${True} | learn=${True} -| ... | unknown-unicast-flood=${True} | arp-termination=${True} -| &{if_settings}= | split_horizon_group=${1} | bvi=${False} -| &{if_settings2}= | split_horizon_group=${2} | bvi=${True} - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/interfaces.robot -| Resource | resources/libraries/robot/honeycomb/bridge_domain.robot -| Suite Teardown | Honeycomb removes all bridge domains | ${node} -| Force Tags | honeycomb_sanity -| Documentation | *Honeycomb bridge domain management test suite.* -| ... -| ... | Test suite uses the first two interfaces on the first DUT node. - -*** Test Cases *** -| Honeycomb sets up l2 bridge domain -| | [Documentation] | Check if Honeycomb can create bridge domains on VPP node. -| | When Honeycomb creates first l2 bridge domain -| | ... | ${node} | ${bd1_name} | ${bd_settings} -| | Then Bridge domain configuration from Honeycomb should be -| | ... | ${node} | ${bd1_name} | ${bd_settings} -| | And Bridge domain configuration from VAT should be -| | ... | ${node} | ${0} | ${bd_settings} - -| Honeycomb manages multiple bridge domains on node -| | [Documentation] | Check if Honeycomb can manage multiple bridge domains on\ -| | ... | a single node. -| | Given Bridge domain configuration from Honeycomb should be -| | ... | ${node} | ${bd1_name} | ${bd_settings} -| | When Honeycomb creates l2 bridge domain -| | ... | ${node} | ${bd2_name} | ${bd_settings} -| | Then Bridge domain configuration from Honeycomb should be -| | ... | ${node} | ${bd1_name} | ${bd_settings} -| | And Bridge domain configuration from Honeycomb should be -| | ... | ${node} | ${bd2_name} | ${bd_settings} -| | And Bridge domain configuration from VAT should be -| | ... | ${node} | ${0} | ${bd_settings} -| | And Bridge domain configuration from VAT should be -| | ... | ${node} | ${1} | ${bd_settings} - -| Honeycomb removes bridge domains -| | [Documentation] | Check if Honeycomb can remove bridge domains from a VPP\ -| | ... | node. -| | Given Bridge domain configuration from Honeycomb should be -| | ... | ${node} | ${bd1_name} | ${bd_settings} -| | When Honeycomb removes all bridge domains | ${node} -| | Then Honeycomb should show no bridge domains | ${node} -| | And VAT should show no bridge domains | ${node} - -| Honeycomb assigns interfaces to bridge domain -| | [Documentation] | Check if Honeycomb can assign VPP interfaces to an\ -| | ... | existing bridge domain. -| | Given Honeycomb creates first l2 bridge domain -| | ... | ${node} | ${bd1_name} | ${bd_settings} -| | When Honeycomb adds interfaces to bridge domain -| | ... | ${node} | @{interfaces} | ${bd1_name} | ${if_settings} -| | Then Honeycomb should show interfaces assigned to bridge domain -| | ... | ${node} | @{interfaces} | ${bd1_name} | ${if_settings} -| | And VAT should show interfaces assigned to bridge domain -| | ... | ${node} | ${0} | @{interfaces} | ${if_settings} - -| Honeycomb removes bridge domain with an interface assigned -| | [Documentation] | Check if Honeycomb can remove a bridge domain that has an\ -| | ... | interface assigned to it. -| | Given Honeycomb should show interfaces assigned to bridge domain -| | ... | ${node} | @{interfaces} | ${bd1_name} | ${if_settings} -| | And VAT should show interfaces assigned to bridge domain -| | ... | ${node} | ${0} | @{interfaces} | ${if_settings} -| | When Honeycomb removes all bridge domains | ${node} -| | Then Honeycomb should show no bridge domains | ${node} -| | And VAT should show no bridge domains | ${node} - -| Honeycomb does not assign two bridged virtual interfaces to one bridge domain. -| | [Documentation] | Check if Honeycomb can assign two bridged virtual\ -| | ... | interfaces to a single bridge domain, and expect to fail. -| | [Teardown] | Honeycomb removes all bridge domains | ${node} -| | Given Honeycomb creates first l2 bridge domain -| | ... | ${node} | ${bd1_name} | ${bd_settings} -| | When Honeycomb fails to add interfaces to bridge domain -| | ... | ${node} | @{interfaces} | ${bd1_name} | ${if_settings2} -| | Then Honeycomb should not show interfaces assigned to bridge domain -| | ... | ${node} | @{interfaces} | ${bd1_name} | ${if_settings2} -| | And VAT should not show interfaces assigned to bridge domain -| | ... | ${node} | ${0} | @{interfaces} | ${if_settings2} diff --git a/tests/suites/honeycomb/021_l2_fib.robot b/tests/suites/honeycomb/021_l2_fib.robot deleted file mode 100644 index ec07e104ad..0000000000 --- a/tests/suites/honeycomb/021_l2_fib.robot +++ /dev/null @@ -1,228 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/interfaces.robot -| Resource | resources/libraries/robot/honeycomb/bridge_domain.robot -| Resource | resources/libraries/robot/honeycomb/l2_fib.robot -| Variables | resources/test_data/honeycomb/l2_fib.py -| Documentation | *Honeycomb L2 FIB management test suite.* -| Suite Setup | Run keywords -| ... | Set test interface down -| ... | AND -| ... | Honeycomb removes all bridge domains | ${node} -| Suite Teardown | Honeycomb removes all bridge domains | ${node} -| Force tags | honeycomb_sanity - -*** Variables *** -# Interface to run tests on. -| ${interface}= | ${node['interfaces']['port1']['name']} - -*** Test Cases *** -| Honeycomb adds L2 FIB entry (forward) -| | [Documentation] | Honeycomb creates a bridge domain and assignes an \ -| | ... | interface to it. Then adds an L2 FIB entry (forward) to the bridge \ -| | ... | domain. -| | ... -| | [Teardown] | Honeycomb removes L2 FIB entry -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_oper['phys-address']} -| | ... -| | Given Interface state from Honeycomb should be -| | ... | ${node} | ${interface} | down -| | When Honeycomb sets interface state -| | ... | ${node} | ${interface} | up -| | Then Interface state from Honeycomb should be -| | ... | ${node} | ${interface} | up -| | When Honeycomb creates first l2 bridge domain -| | ... | ${node} | ${bd_name} | ${bd_settings} -| | Then Bridge domain configuration from Honeycomb should be -| | ... | ${node} | ${bd_name} | ${bd_settings} -| | Given Bridge domain configuration in interface operational data should be empty -| | ... | ${node} | ${interface} -| | When Honeycomb adds interface to bridge domain -| | ... | ${node} | ${interface} | ${bd_name} | ${if_bd_settings} -| | Then Bridge domain configuration in interface operational data should be -| | ... | ${node} | ${interface} | ${if_bd_settings} -| | Given L2 FIB Table from Honeycomb should be empty -| | ... | ${node} | ${bd_name} -| | And L2 FIB Table from VAT should be empty -| | ... | ${node} | ${bd_index} -| | When Honeycomb adds L2 FIB entry to bridge domain -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_cfg} -| | Then L2 FIB Entry from Honeycomb should be -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_oper} -| | And L2 FIB entry from VAT should be -| | ... | ${node} | ${bd_index} | ${l2_fib_forward_vat} - -| Honeycomb adds L2 FIB entry (static, forward) -| | [Documentation] | Honeycomb adds an L2 FIB entry (static, forward) to the \ -| | ... | bridge domain. -| | ... -| | [Teardown] | Honeycomb removes L2 FIB entry -| | ... | ${node} | ${bd_name} | ${l2_fib_static_forward_oper['phys-address']} -| | ... -| | Given Bridge domain configuration in interface operational data should be -| | ... | ${node} | ${interface} | ${if_bd_settings} -| | And L2 FIB Table from Honeycomb should be empty -| | ... | ${node} | ${bd_name} -| | And L2 FIB Table from VAT should be empty -| | ... | ${node} | ${bd_index} -| | When Honeycomb adds L2 FIB entry to bridge domain -| | ... | ${node} | ${bd_name} | ${l2_fib_static_forward_cfg} -| | Then L2 FIB Entry from Honeycomb should be -| | ... | ${node} | ${bd_name} | ${l2_fib_static_forward_oper} -| | And L2 FIB entry from VAT should be -| | ... | ${node} | ${bd_index} | ${l2_fib_static_forward_vat} - -| Honeycomb adds L2 FIB entry (static, filter) -| | [Documentation] | Honeycomb adds an L2 FIB entry (static, filter) to the \ -| | ... | bridge domain. -| | ... -| | [Teardown] | Honeycomb removes L2 FIB entry -| | ... | ${node} | ${bd_name} | ${l2_fib_filter_oper['phys-address']} -| | ... -| | Given Bridge domain configuration in interface operational data should be -| | ... | ${node} | ${interface} | ${if_bd_settings} -| | And L2 FIB Table from Honeycomb should be empty -| | ... | ${node} | ${bd_name} -| | And L2 FIB Table from VAT should be empty -| | ... | ${node} | ${bd_index} -| | When Honeycomb adds L2 FIB entry to bridge domain -| | ... | ${node} | ${bd_name} | ${l2_fib_filter_cfg} -| | Then L2 FIB Entry from Honeycomb should be -| | ... | ${node} | ${bd_name} | ${l2_fib_filter_oper} -| | And L2 FIB entry from VAT should be -| | ... | ${node} | ${bd_index} | ${l2_fib_filter_vat} - -| Honeycomb adds and removes L2 FIB entry (forward) -| | [Documentation] | Honeycomb adds an L2 FIB entry (forward) to the bridge \ -| | ... | domain and then Honeycomb removes it from the bridge domain. -| | ... -| | [Teardown] | Honeycomb removes L2 FIB entry -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_oper['phys-address']} -| | ... -| | Given Bridge domain configuration in interface operational data should be -| | ... | ${node} | ${interface} | ${if_bd_settings} -| | And L2 FIB Table from Honeycomb should be empty -| | ... | ${node} | ${bd_name} -| | And L2 FIB Table from VAT should be empty -| | ... | ${node} | ${bd_index} -| | When Honeycomb adds L2 FIB entry to bridge domain -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_cfg} -| | Then L2 FIB Entry from Honeycomb should be -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_oper} -| | And L2 FIB entry from VAT should be -| | ... | ${node} | ${bd_index} | ${l2_fib_forward_vat} -| | When Honeycomb removes L2 FIB entry -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_oper['phys-address']} -| | Then L2 FIB Table from Honeycomb should be empty -| | ... | ${node} | ${bd_name} -| | And L2 FIB Table from VAT should be empty -| | ... | ${node} | ${bd_index} - -| Honeycomb adds more than one L2 FIB entry -| | [Documentation] | Honeycomb adds three L2 FIB entries to the bridge domain. -| | ... -| | [Teardown] | Honeycomb removes all L2 FIB entries -| | ... | ${node} | ${bd_name} -| | ... -| | Given Bridge domain configuration in interface operational data should be -| | ... | ${node} | ${interface} | ${if_bd_settings} -| | And L2 FIB Table from Honeycomb should be empty -| | ... | ${node} | ${bd_name} -| | And L2 FIB Table from VAT should be empty -| | ... | ${node} | ${bd_index} -| | When Honeycomb adds L2 FIB entry to bridge domain -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_cfg} -| | And Honeycomb adds L2 FIB entry to bridge domain -| | ... | ${node} | ${bd_name} | ${l2_fib_static_forward_cfg} -| | And Honeycomb adds L2 FIB entry to bridge domain -| | ... | ${node} | ${bd_name} | ${l2_fib_filter_cfg} -| | Then L2 FIB Entry from Honeycomb should be -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_oper} -| | And L2 FIB Entry from Honeycomb should be -| | ... | ${node} | ${bd_name} | ${l2_fib_static_forward_oper} -| | And L2 FIB Entry from Honeycomb should be -| | ... | ${node} | ${bd_name} | ${l2_fib_filter_oper} -| | And L2 FIB entry from VAT should be -| | ... | ${node} | ${bd_index} | ${l2_fib_forward_vat} -| | And L2 FIB entry from VAT should be -| | ... | ${node} | ${bd_index} | ${l2_fib_static_forward_vat} -| | And L2 FIB entry from VAT should be -| | ... | ${node} | ${bd_index} | ${l2_fib_filter_vat} - -| Honeycomb fails to set wrong L2 FIB entry -| | [Documentation] | Honeycomb tries to add an L2 FIB entry with wrong \ -| | ... | parameters to the bridge domain. It must fail. -| | ... -| | [Teardown] | Honeycomb removes all L2 FIB entries -| | ... | ${node} | ${bd_name} -| | ... -| | Given Bridge domain configuration in interface operational data should be -| | ... | ${node} | ${interface} | ${if_bd_settings} -| | And L2 FIB Table from Honeycomb should be empty -| | ... | ${node} | ${bd_name} -| | And L2 FIB Table from VAT should be empty -| | ... | ${node} | ${bd_index} -| | When Honeycomb fails to add wrong L2 FIB entry -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_cfg_wrong_mac} -| | Then L2 FIB Table from Honeycomb should be empty -| | ... | ${node} | ${bd_name} -| | And L2 FIB Table from VAT should be empty -| | ... | ${node} | ${bd_index} -| | When Honeycomb fails to add wrong L2 FIB entry -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_cfg_wrong_if} -| | Then L2 FIB Table from Honeycomb should be empty -| | ... | ${node} | ${bd_name} -| | And L2 FIB Table from VAT should be empty -| | ... | ${node} | ${bd_index} -| | When Honeycomb fails to add wrong L2 FIB entry -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_cfg_wrong_action} -| | Then L2 FIB Table from Honeycomb should be empty -| | ... | ${node} | ${bd_name} -| | And L2 FIB Table from VAT should be empty -| | ... | ${node} | ${bd_index} - -| Honeycomb fails to modify existing L2 FIB entry -| | [Documentation] | Honeycomb tries to modify an existing L2 FIB entry. It \ -| | ... | must fail. -| | ... -| | [Teardown] | Honeycomb removes all L2 FIB entries -| | ... | ${node} | ${bd_name} -| | ... -| | Given Bridge domain configuration in interface operational data should be -| | ... | ${node} | ${interface} | ${if_bd_settings} -| | And L2 FIB Table from Honeycomb should be empty -| | ... | ${node} | ${bd_name} -| | And L2 FIB Table from VAT should be empty -| | ... | ${node} | ${bd_index} -| | When Honeycomb adds L2 FIB entry to bridge domain -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_cfg} -| | Then L2 FIB Entry from Honeycomb should be -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_oper} -| | When Honeycomb fails to modify L2 FIB entry -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_oper['phys-address']} -| | ... | outgoing-interface -| | ... | ${l2_fib_forward_modified_cfg['outgoing-interface']} -| | Then L2 FIB Entry from Honeycomb should be -| | ... | ${node} | ${bd_name} | ${l2_fib_forward_oper} -| | And L2 FIB entry from VAT should be -| | ... | ${node} | ${bd_index} | ${l2_fib_forward_vat} - -*** Keywords *** -| Set test interface down -| | [Documentation] | Set the interface used in tests down. -| | ... -| | Honeycomb sets interface state -| | ... | ${node} | ${interface} | down diff --git a/tests/suites/honeycomb/030_vxlan.robot b/tests/suites/honeycomb/030_vxlan.robot deleted file mode 100644 index 7e192cea47..0000000000 --- a/tests/suites/honeycomb/030_vxlan.robot +++ /dev/null @@ -1,115 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Variables *** -# Interfaces to run tests on. -| ${interface}= | ${node['interfaces']['port1']['name']} -| ${vx_interface}= | vx_tunnel_test -# Configuration which will be set and verified during tests. -| &{vxlan_settings}= | src=192.168.0.2 | dst=192.168.0.3 | vni=${88} -| ... | encap-vrf-id=${0} -| &{vxlan_settings2}= | src=192.168.0.4 | dst=192.168.0.5 | vni=${47} -| ... | encap-vrf-id=${0} -| &{vxlan_settings_ipv6}= | src=10::10 | dst=10::11 | vni=${88} -| ... | encap-vrf-id=${0} -| &{vxlan_settings_ipv6_long}= | src=10:0:0:0:0:0:0:10 | dst=10:0:0:0:0:0:0:11 -| ... | vni=${88} | encap-vrf-id=${0} - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/interfaces.robot -| Resource | resources/libraries/robot/honeycomb/vxlan.robot -# import additional VxLAN settings from resource file -| Variables | resources/test_data/honeycomb/vxlan.py -| Force Tags | honeycomb_sanity -| Documentation | *Honeycomb VxLAN management test suite.* -| ... -| ... | Test suite uses the first interface of the first DUT node. - -*** Test Cases *** -| Honeycomb configures VxLAN tunnel -| | [Documentation] | Check if Honeycomb API can configure VxLAN settings. -| | Given VxLAN configuration from Honeycomb should be empty -| | ... | ${node} | ${vx_interface} -| | And VxLAN configuration from VAT should be empty | ${node} -| | When Honeycomb sets interface VxLAN configuration -| | ... | ${node} | ${vx_interface} | ${vxlan_settings} -| | Then VxLAN configuration from Honeycomb should be -| | ... | ${node} | ${vx_interface} | ${vxlan_settings} -| | And VxLAN configuration from VAT should be -| | ... | ${node} | ${vxlan_settings} - -| Honeycomb disables VxLAN tunnel -| | [Documentation] | Check if Honeycomb API can reset VxLAN configuration. -| | Given VxLAN configuration from Honeycomb should be -| | ... | ${node} | ${vx_interface} | ${vxlan_settings} -| | And VxLAN configuration from VAT should be -| | ... | ${node} | ${vxlan_settings} -| | When Honeycomb removes VxLAN tunnel settings | ${node} | ${vx_interface} -| | Then VxLAN configuration from Honeycomb should be empty -| | ... | ${node} | ${vx_interface} -| | And VxLAN configuration from VAT should be empty | ${node} - -Honeycomb can configure VXLAN tunnel after one has been disabled -| | [Documentation] | Check if Honeycomb API can configure VxLAN settings again\ -| | ... | after previous settings have been removed. -| | [Teardown] | Honeycomb removes VxLAN tunnel settings -| | ... | ${node} | ${vx_interface} -| | Given VxLAN configuration from Honeycomb should be empty -| | ... | ${node} | ${vx_interface} -| | And VxLAN configuration from VAT should be empty | ${node} -| | When Honeycomb sets interface VxLAN configuration -| | ... | ${node} | ${vx_interface} | ${vxlan_settings2} -| | Then VxLAN configuration from Honeycomb should be -| | ... | ${node} | ${vx_interface} | ${vxlan_settings2} -| | And VxLAN configuration from VAT should be -| | ... | ${node} | ${vxlan_settings2} - -| Honeycomb does not set VxLAN configuration on another interface type -| | [Documentation] | Check if Honeycomb API prevents setting VxLAN\ -| | ... | on incorrect interface. -| | Given VxLAN configuration from Honeycomb should be empty -| | ... | ${node} | ${interface} -| | And VxLAN configuration from VAT should be empty | ${node} -| | When Honeycomb fails setting VxLan on different interface type -| | ... | ${node} | ${interface} | ${vxlan_settings2} -| | Then VxLAN configuration from Honeycomb should be empty -| | ... | ${node} | ${interface} -| | And VxLAN configuration from VAT should be empty -| | ... | ${node} - -| Honeycomb does not set invalid VxLAN configuration -| | [Documentation] | Check if Honeycomb API prevents setting incorrect VxLAN\ -| | ... | settings. -| | Given VxLAN configuration from Honeycomb should be empty -| | ... | ${node} | ${vx_interface} -| | And VxLAN configuration from VAT should be empty | ${node} -| | When Honeycomb fails setting invalid VxLAN configuration -| | ... | ${node} | ${vx_interface} | ${vxlan_invalid} -| | Then VxLAN configuration from Honeycomb should be empty -| | ... | ${node} | ${vx_interface} - -| Honeycomb configures VxLAN tunnel with ipv6 -| | [Documentation] | Check if Honeycomb API can configure VxLAN with\ -| | ... | ipv6 settings. -| | [Teardown] | Honeycomb removes VxLAN tunnel settings -| | ... | ${node} | ${vx_interface} -| | Given VxLAN configuration from Honeycomb should be empty -| | ... | ${node} | ${vx_interface} -| | And VxLAN configuration from VAT should be empty | ${node} -| | When Honeycomb sets interface VxLAN configuration -| | ... | ${node} | ${vx_interface} | ${vxlan_settings_ipv6} -| | Then VxLAN configuration from Honeycomb should be -| | ... | ${node} | ${vx_interface} | ${vxlan_settings_ipv6_long} -| | And VxLAN configuration from VAT should be -| | ... | ${node} | ${vxlan_settings_ipv6} diff --git a/tests/suites/honeycomb/031_vxlan_gpe.robot b/tests/suites/honeycomb/031_vxlan_gpe.robot deleted file mode 100644 index 5c51319070..0000000000 --- a/tests/suites/honeycomb/031_vxlan_gpe.robot +++ /dev/null @@ -1,174 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Variables *** -# Interface to run tests on. -| ${interface}= | ${node['interfaces']['port1']['name']} - -# Parameters to be set on existing interface -| ${vxlan_gpe_existing_if}= | ${interface} -| &{vxlan_gpe_base_wrong_interface_settings}= -| ... | name=${vxlan_gpe_existing_if} -| ... | type=iana-if-type:ethernetCsmacd -| ... | description=for testing purposes -| ... | enabled=true -| ... | link-up-down-trap-enable=enabled -| &{vxlan_gpe_wrong_interface_settings}= -| ... | local=192.168.50.77 -| ... | remote=192.168.50.72 -| ... | vni=${9} -| ... | next-protocol=wrong_ipv4 -| ... | encap-vrf-id=${0} -| ... | decap-vrf-id=${0} - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/interfaces.robot -| Resource | resources/libraries/robot/honeycomb/vxlan_gpe.robot -# Import additional VxLAN GPE settings from resource file -| Variables | resources/test_data/honeycomb/vxlan_gpe.py -| Documentation | *Honeycomb VxLAN-GPE management test suite.* -| Force Tags | honeycomb_sanity - -*** Test Cases *** -| Honeycomb creates VxLAN GPE tunnel -| | [Documentation] | Check if Honeycomb API can configure VxLAN GPE tunnel. -| | ... -| | Given interface configuration from Honeycomb should be empty -| | ... | ${node} | ${vxlan_gpe_if1} -| | And interface configuration from VAT should be empty -| | ... | ${node} | ${vxlan_gpe_if1} -| | When Honeycomb creates VxLAN GPE interface -| | ... | ${node} | ${vxlan_gpe_if1} -| | ... | ${vxlan_gpe_base_settings} | ${vxlan_gpe_settings} -| | Then run keyword and continue on failure -| | ... | VxLAN GPE configuration from Honeycomb should be -| | ... | ${node} | ${vxlan_gpe_if1} -| | ... | ${vxlan_gpe_base_settings} | ${vxlan_gpe_settings} -| | And run keyword and continue on failure -| | ... | VxLAN GPE configuration from VAT should be -| | ... | ${node} | ${vxlan_gpe_if1} | ${vxlan_gpe_settings} -| | And run keyword and continue on failure -| | ... | VxLAN GPE Interface indices from Honeycomb and VAT should correspond -| | ... | ${node} | ${vxlan_gpe_if1} - -| Honeycomb removes VxLAN GPE tunnel -| | [Documentation] | Check if Honeycomb API can remove VxLAN GPE tunnel. -| | ... -# Disabled beacuse of bug in Honeycomb. -# TODO: Enable when fixed. -#| | Given VxLAN GPE configuration from Honeycomb should be -#| | ... | ${node} | ${vxlan_gpe_if1} -#| | ... | ${vxlan_gpe_base_settings} | ${vxlan_gpe_settings} -#| | And VxLAN GPE configuration from VAT should be -#| | ... | ${node} | ${vxlan_gpe_if1} | ${vxlan_gpe_settings} -| | When Honeycomb removes VxLAN GPE interface -| | ... | ${node} | ${vxlan_gpe_if1} -| | Then VxLAN GPE configuration from VAT should be empty -| | ... | ${node} -| | And VxLAN GPE configuration from Honeycomb should be -| | ... | ${node} | ${vxlan_gpe_if1} -| | ... | ${vxlan_gpe_disabled_base_settings} | ${vxlan_gpe_settings} - -| Honeycomb sets wrong interface type while creating VxLAN GPE tunnel -| | [Documentation] | Check if Honeycomb refuses to create a VxLAN GPE tunnel\ -| | ... | with a wrong interface type set. -| | ... -| | Given interface configuration from Honeycomb should be empty -| | ... | ${node} | ${vxlan_gpe_if2} -| | And interface configuration from VAT should be empty -| | ... | ${node} | ${vxlan_gpe_if2} -| | When Honeycomb fails to create VxLAN GPE interface -| | ... | ${node} | ${vxlan_gpe_if2} -| | ... | ${vxlan_gpe_wrong_type_base_settings} | ${vxlan_gpe_settings} -| | Then interface configuration from Honeycomb should be empty -| | ... | ${node} | ${vxlan_gpe_if2} -| | And interface configuration from VAT should be empty -| | ... | ${node} | ${vxlan_gpe_if2} - -| Honeycomb sets wrong protocol while creating VxLAN GPE tunnel -| | [Documentation] | Check if Honeycomb refuses to create a VxLAN GPE tunnel\ -| | ... | with a wrong next-protocol set. -| | ... -| | Given interface configuration from Honeycomb should be empty -| | ... | ${node} | ${vxlan_gpe_if3} -| | And interface configuration from VAT should be empty -| | ... | ${node} | ${vxlan_gpe_if3} -| | When Honeycomb fails to create VxLAN GPE interface -| | ... | ${node} | ${vxlan_gpe_if3} -| | ... | ${vxlan_gpe_wrong_protocol_base_settings} -| | ... | ${vxlan_gpe_wrong_protocol_settings} -| | Then interface configuration from Honeycomb should be empty -| | ... | ${node} | ${vxlan_gpe_if3} -| | And interface configuration from VAT should be empty -| | ... | ${node} | ${vxlan_gpe_if3} - -| Honeycomb sets VxLAN GPE tunnel on existing interface with wrong type -| | [Documentation] | Check if Honeycomb refuses to create a VxLAN GPE tunnel\ -| | ... | on existing interface with wrong type. -| | ... -| | Given VxLAN GPE configuration from VAT should be empty -| | ... | ${node} -| | When Honeycomb fails to create VxLAN GPE interface -| | ... | ${node} | ${vxlan_gpe_existing_if} -| | ... | ${vxlan_gpe_base_wrong_interface_settings} -| | ... | ${vxlan_gpe_wrong_interface_settings} -| | Then VxLAN GPE configuration from VAT should be empty -| | ... | ${node} - -| Honeycomb creates VxLAN GPE tunnel with ipv6 -| | [Documentation] | Check if Honeycomb API can configure VxLAN GPE tunnel\ -| | ... | with IPv6 addresses. -| | ... -| | Given VxLAN GPE configuration from VAT should be empty -| | ... | ${node} -# Disabled beacuse of bug in Honeycomb -# TODO: Enable when fixed. -#| | And VxLAN GPE configuration from Honeycomb should be -#| | ... | ${node} | ${vxlan_gpe_if5} -#| | ... | ${vxlan_gpe_disabled_base_settings} | ${vxlan_gpe_settings} -| | When Honeycomb creates VxLAN GPE interface -| | ... | ${node} | ${vxlan_gpe_if5} -| | ... | ${vxlan_gpe_base_ipv6_settings} | ${vxlan_gpe_ipv6_settings} -| | Then run keyword and continue on failure -| | ... | VxLAN GPE configuration from Honeycomb should be -| | ... | ${node} | ${vxlan_gpe_if5} -| | ... | ${vxlan_gpe_base_ipv6_settings} | ${vxlan_gpe_ipv6_settings} -| | And run keyword and continue on failure -| | ... | VxLAN GPE configuration from VAT should be -| | ... | ${node} | ${vxlan_gpe_if5} | ${vxlan_gpe_ipv6_settings} -| | And run keyword and continue on failure -| | ... | VxLAN GPE Interface indices from Honeycomb and VAT should correspond -| | ... | ${node} | ${vxlan_gpe_if5} - -| Honeycomb creates the second VxLAN GPE tunnel with ipv6 -| | [Documentation] | Check if Honeycomb API can configure another one VxLAN\ -| | ... | GPE tunnel with IPv6 addresses. -| | ... -| | Given interface configuration from Honeycomb should be empty -| | ... | ${node} | ${vxlan_gpe_if6} -| | And interface configuration from VAT should be empty -| | ... | ${node} | ${vxlan_gpe_if6} -| | When Honeycomb creates VxLAN GPE interface -| | ... | ${node} | ${vxlan_gpe_if6} -| | ... | ${vxlan_gpe_base_ipv6_settings2} | ${vxlan_gpe_ipv6_settings2} -| | Then run keyword and continue on failure -| | ... | VxLAN GPE configuration from Honeycomb should be -| | ... | ${node} | ${vxlan_gpe_if6} -| | ... | ${vxlan_gpe_base_ipv6_settings2} | ${vxlan_gpe_ipv6_settings2} -| | And run keyword and continue on failure -| | ... | VxLAN GPE configuration from VAT should be -| | ... | ${node} | ${vxlan_gpe_if6} | ${vxlan_gpe_ipv6_settings2} -| | And run keyword and continue on failure -| | ... | VxLAN GPE Interface indices from Honeycomb and VAT should correspond -| | ... | ${node} | ${vxlan_gpe_if6} diff --git a/tests/suites/honeycomb/040_tap.robot b/tests/suites/honeycomb/040_tap.robot deleted file mode 100644 index 329ca8a3c1..0000000000 --- a/tests/suites/honeycomb/040_tap.robot +++ /dev/null @@ -1,71 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Variables *** -# Interfaces to run tests on. -| ${interface}= | ${node['interfaces']['port1']['name']} -| ${tap_interface}= | tap_test -# Configuration which will be set and verified during tests. -| &{tap_settings}= | tap-name=tap_test | mac=08:00:27:c0:5d:37 -| ... | device-instance=${1} -| &{tap_settings2}= | tap-name=tap_test | mac=08:00:27:60:26:ab -| ... | device-instance=${2} - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/interfaces.robot -| Resource | resources/libraries/robot/honeycomb/tap.robot -| Force Tags | honeycomb_sanity -| Documentation | *Honeycomb TAP management test suite.* -| ... -| ... | Test suite uses the first interface of the first DUT node. - -*** Test Cases *** -| Honeycomb configures TAP interface -| | [Documentation] | Check if Honeycomb API can configure a TAP interface. -| | Given TAP configuration from Honeycomb should be empty -| | ... | ${node} | ${tap_interface} -| | And TAP configuration from VAT should be empty -| | ... | ${node} | ${tap_interface} -| | When Honeycomb creates TAP interface -| | ... | ${node} | ${tap_interface} | ${tap_settings} -| | Then TAP configuration from Honeycomb should be -| | ... | ${node} | ${tap_interface} | ${tap_settings} -| | And TAP configuration from VAT should be -| | ... | ${node} | ${tap_interface} | ${tap_settings} - -| Honeycomb modifies existing TAP interface configuration -| | [Documentation] | Check if Honeycomb API can re-configure and existing TAP\ -| | ... | interface with new settings. -| | Given TAP configuration from Honeycomb should be -| | ... | ${node} | ${tap_interface} | ${tap_settings} -| | And TAP configuration from VAT should be -| | ... | ${node} | ${tap_interface} | ${tap_settings} -| | When Honeycomb configures TAP interface -| | ... | ${node} | ${tap_interface} | ${tap_settings2} -| | Then TAP configuration from Honeycomb should be -| | ... | ${node} | ${tap_interface} | ${tap_settings2} -| | And TAP configuration from VAT should be -| | ... | ${node} | ${tap_interface} | ${tap_settings2} - -| Honeycomb removes TAP interface -| | [Documentation] | Check if Honeycomb API can remove TAP interface. -| | Given TAP configuration from Honeycomb should be -| | ... | ${node} | ${tap_interface} | ${tap_settings2} -| | And TAP configuration from VAT should be -| | ... | ${node} | ${tap_interface} | ${tap_settings2} -| | When Honeycomb removes TAP interface | ${node} | ${tap_interface} -| | Then TAP configuration from Honeycomb should be empty -| | ... | ${node} | ${tap_interface} -| | And TAP configuration from VAT should be empty -| | ... | ${node} | ${tap_interface} diff --git a/tests/suites/honeycomb/050_interface_vhost_user.robot b/tests/suites/honeycomb/050_interface_vhost_user.robot deleted file mode 100644 index 2c2a5ae91a..0000000000 --- a/tests/suites/honeycomb/050_interface_vhost_user.robot +++ /dev/null @@ -1,159 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Variables *** -| ${interface}= | ${node['interfaces']['port1']['name']} -| ${vhost_interface}= | test_vhost -| &{vhost_user_server}= | socket=soc1 | role=server -| &{vhost_user_server_edit_1}= | socket=soc12 | role=server -| &{vhost_user_server_edit_2}= | socket=soc12 | role=client -| &{vhost_user_client}= | socket=soc2 | role=client -| &{vhost_user_client_edit_1}= | socket=soc22 | role=client -| &{vhost_user_client_edit_2}= | socket=soc22 | role=server -| &{vhost_user_wrong}= | socket=soc2 | role=wrong - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/vhost_user.robot -| Force Tags | honeycomb_sanity -| Documentation | *Honeycomb vhost-user interface management test suite.* -| ... -| ... | This test suite tests if it is posible to create, modify and\ -| ... | delete a vhost-user interface. - -*** Test Cases *** -| Honycomb creates vhost-user interface - server -| | [Documentation] | Check if Honeycomb creates a vhost-user interface, role:\ -| | ... | server. -| | ... -| | Given vhost-user configuration from Honeycomb should be empty -| | ... | ${node} | ${vhost_interface} -| | When Honeycomb creates vhost-user interface -| | ... | ${node} | ${vhost_interface} | ${vhost_user_server} -| | Then vhost-user configuration from Honeycomb should be -| | ... | ${node} | ${vhost_interface} | ${vhost_user_server} -| | And vhost-user configuration from VAT should be -| | ... | ${node} | ${vhost_user_server} - -| Honycomb modifies vhost-user interface - server -| | [Documentation] | Check if Honeycomb can modify properties of existing\ -| | ... | vhost-user interface, role: server. -| | ... -| | Given vhost-user configuration from Honeycomb should be -| | ... | ${node} | ${vhost_interface} | ${vhost_user_server} -| | When Honeycomb configures vhost-user interface -| | ... | ${node} | ${vhost_interface} | ${vhost_user_server_edit_1} -| | Then vhost-user configuration from Honeycomb should be -| | ... | ${node} | ${vhost_interface} | ${vhost_user_server_edit_1} -| | And vhost-user configuration from VAT should be -| | ... | ${node} | ${vhost_user_server_edit_1} -| | When Honeycomb configures vhost-user interface -| | ... | ${node} | ${vhost_interface} | ${vhost_user_server_edit_2} -| | Then vhost-user configuration from Honeycomb should be -| | ... | ${node} | ${vhost_interface} | ${vhost_user_server_edit_2} -| | And vhost-user configuration from VAT should be -| | ... | ${node} | ${vhost_user_server_edit_2} -| | When Honeycomb configures vhost-user interface -| | ... | ${node} | ${vhost_interface} | ${vhost_user_server} -| | Then vhost-user configuration from Honeycomb should be -| | ... | ${node} | ${vhost_interface} | ${vhost_user_server} -| | And vhost-user configuration from VAT should be -| | ... | ${node} | ${vhost_user_server} - -| Honycomb deletes vhost-user interface - server -| | [Documentation] | Check if Honeycomb can delete an existing vhost-user\ -| | ... | interface, role: server. -| | ... -| | Given vhost-user configuration from Honeycomb should be -| | ... | ${node} | ${vhost_interface} | ${vhost_user_server} -| | When Honeycomb removes vhost-user interface -| | ... | ${node} | ${vhost_interface} -| | Then vhost-user configuration from Honeycomb should be empty -| | ... | ${node} | ${vhost_interface} -| | And vhost-user configuration from VAT should be empty -| | ... | ${node} - -| Honycomb creates vhost-user interface - client -| | [Documentation] | Check if Honeycomb creates a vhost-user interface, role:\ -| | ... | client. -| | ... -| | Given vhost-user configuration from Honeycomb should be empty -| | ... | ${node} | ${vhost_interface} -| | When Honeycomb creates vhost-user interface -| | ... | ${node} | ${vhost_interface} | ${vhost_user_client} -| | Then vhost-user configuration from Honeycomb should be -| | ... | ${node} | ${vhost_interface} | ${vhost_user_client} -| | And vhost-user configuration from VAT should be -| | ... | ${node} | ${vhost_user_client} - -| Honycomb modifies vhost-user interface - client -| | [Documentation] | Check if Honeycomb can modify properties of existing\ -| | ... | vhost-user interface, role: client. -| | ... -| | Given vhost-user configuration from Honeycomb should be -| | ... | ${node} | ${vhost_interface} | ${vhost_user_client} -| | When Honeycomb configures vhost-user interface -| | ... | ${node} | ${vhost_interface} | ${vhost_user_client_edit_1} -| | Then vhost-user configuration from Honeycomb should be -| | ... | ${node} | ${vhost_interface} | ${vhost_user_client_edit_1} -| | And vhost-user configuration from VAT should be -| | ... | ${node} | ${vhost_user_client_edit_1} -| | When Honeycomb configures vhost-user interface -| | ... | ${node} | ${vhost_interface} | ${vhost_user_client_edit_2} -| | Then vhost-user configuration from Honeycomb should be -| | ... | ${node} | ${vhost_interface} | ${vhost_user_client_edit_2} -| | And vhost-user configuration from VAT should be -| | ... | ${node} | ${vhost_user_client_edit_2} -| | When Honeycomb configures vhost-user interface -| | ... | ${node} | ${vhost_interface} | ${vhost_user_client} -| | Then vhost-user configuration from Honeycomb should be -| | ... | ${node} | ${vhost_interface} | ${vhost_user_client} -| | And vhost-user configuration from VAT should be -| | ... | ${node} | ${vhost_user_client} - -| Honycomb deletes vhost-user interface - client -| | [Documentation] | Check if Honeycomb can delete an existing vhost-user\ -| | ... | interface, role: client. -| | ... -| | Given vhost-user configuration from Honeycomb should be -| | ... | ${node} | ${vhost_interface} | ${vhost_user_client} -| | When Honeycomb removes vhost-user interface -| | ... | ${node} | ${vhost_interface} -| | Then vhost-user configuration from Honeycomb should be empty -| | ... | ${node} | ${vhost_interface} -| | And vhost-user configuration from VAT should be empty -| | ... | ${node} - -| Honeycomb does not set vhost-user configuration on another interface type -| | [Documentation] | Check if Honeycomb refuses to set vhost-user\ -| | ... | configuration for interface which is not v3po:vhost-user type. -| | ... -| | When Honeycomb fails setting vhost-user on different interface type -| | ... | ${node} | ${interface} | ${vhost_user_server} -| | Then vhost-user configuration from Honeycomb should be empty -| | ... | ${node} | ${interface} -| | And vhost-user configuration from VAT should be empty -| | ... | ${node} - -| Honeycomb does not set invalid vhost-user configuration -| | [Documentation] | Check if Honeycomb refuses to set invalid parameters to\ -| | ... | vhost-user interface. -| | ... -| | Given vhost-user configuration from Honeycomb should be empty -| | ... | ${node} | ${vhost_interface} -| | When Honeycomb fails setting invalid vhost-user configuration -| | ... | ${node} | ${vhost_interface} | ${vhost_user_wrong} -| | Then vhost-user configuration from Honeycomb should be empty -| | ... | ${node} | ${vhost_interface} -| | And vhost-user configuration from VAT should be empty -| | ... | ${node} diff --git a/tests/suites/honeycomb/060_sub_interface.robot b/tests/suites/honeycomb/060_sub_interface.robot deleted file mode 100644 index e67638ab97..0000000000 --- a/tests/suites/honeycomb/060_sub_interface.robot +++ /dev/null @@ -1,445 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/sub_interface.robot -| Resource | resources/libraries/robot/honeycomb/bridge_domain.robot -| Resource | resources/libraries/robot/honeycomb/interfaces.robot -| Variables | resources/test_data/honeycomb/sub_interfaces.py -| Suite Teardown | Honeycomb removes all bridge domains | ${node} -| Force Tags | honeycomb_sanity -| Documentation | *Honeycomb sub-interface management test suite.* -| ... -| ... | This test suite tests if it is posible to create, modify and \ -| ... | delete a sub-interface. - -*** Variables *** -# Test interface 1 and its sub-interface parameters: -| ${super_if}= | ${node['interfaces']['port1']['name']} -| ${sub_if_id}= | ${sub_if_1_settings['identifier']} -| ${sub_if_name}= | ${super_if}.${sub_if_id} - -*** Test Cases *** -| Honycomb creates sub-interface -| | [Documentation] | Check if Honeycomb creates a sub-interface. -| | ... -| | Given interface state is | ${node} | ${super_if} | down -| | And sub-interface configuration from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | And interface configuration from VAT should be empty -| | ... | ${node} | ${sub_if_name} -| | When Honeycomb creates sub-interface | ${node} | ${super_if} -| | ... | ${sub_if_1_match} | ${sub_if_1_tags} | ${sub_if_1_settings} -| | Then run keyword and continue on failure -| | ... | Sub-interface configuration from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${sub_if_1_oper} -| | And run keyword and continue on failure -| | ... | Sub-interface configuration from VAT should be -| | ... | ${node} | ${sub_if_name} | ${sub_if_1_oper} -| | And sub-interface indices from Honeycomb and VAT should correspond -| | ... | ${node} | ${super_if} | ${sub_if_id} - -| Honeycomb sets interface and sub-interface up -| | [Documentation] | Honeycomb changes the state of interface up and then \ -| | ... | changes the state of its sub-interface up, in this order. -| | ... -| | Given interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | down -| | And interface state from VAT should be -| | ... | ${node} | ${super_if} | down -| | When Honeycomb sets interface state -| | ... | ${node} | ${super_if} | up -| | Then interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | up -| | And interface state from VAT should be -| | ... | ${node} | ${super_if} | up -| | Given run keyword and continue on failure -| | ... | Sub-interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | down | down -| | And run keyword and continue on failure -| | ... | Sub-interface state from VAT should be -| | ... | ${node} | ${sub_if_name} | down | down -| | When Honeycomb sets the sub-interface up -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | Then run keyword and continue on failure -| | ... | Sub-interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | up | up -| | And sub-interface state from VAT should be -| | ... | ${node} | ${sub_if_name} | up | up - -| Honeycomb sets sub-interface down while its super-interface is up -| | [Documentation] | Honeycomb sets the sub-interface down while its \ -| | ... | super-interface is up. It must be possible. -| | ... -| | [Teardown] | Set super and sub interfaces up -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... -| | Given sub-interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | up | up -| | And sub-interface state from VAT should be -| | ... | ${node} | ${sub_if_name} | up | up -| | And interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | up -| | And interface state from VAT should be -| | ... | ${node} | ${super_if} | up -| | When Honeycomb sets the sub-interface down -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | Then sub-interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | down | down -| | And sub-interface state from VAT should be -| | ... | ${node} | ${sub_if_name} | down | down -| | And interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | up -| | And interface state from VAT should be -| | ... | ${node} | ${super_if} | up - -| Honeycomb sets interface and sub-interface down -| | [Documentation] | Honeycomb changes the state of interface down and then \ -| | ... | changes the state of its sub-interface down, in this order. -| | ... -| | [Teardown] | Set super and sub interfaces down -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... -| | Given interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | up -| | And interface state from VAT should be -| | ... | ${node} | ${super_if} | up -| | When Honeycomb sets interface state -| | ... | ${node} | ${super_if} | down -| | Then interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | down -| | And interface state from VAT should be -| | ... | ${node} | ${super_if} | down -| | Given sub-interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | up | down -| | And sub-interface state from VAT should be -| | ... | ${node} | ${sub_if_name} | up | down -| | When Honeycomb sets the sub-interface down -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | Then sub-interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | down | down -| | And sub-interface state from VAT should be -| | ... | ${node} | ${sub_if_name} | down | down - -| Honeycomb fails to set sub-interface up while its super-interface is down -| | [Documentation] | Honeycomb tries to set the sub-interface up while its \ -| | ... | super-interface is down. It must not be possible. -| | ... -| | Given interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | down -| | And interface state from VAT should be -| | ... | ${node} | ${super_if} | down -| | And sub-interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | down | down -| | And sub-interface state from VAT should be -| | ... | ${node} | ${sub_if_name} | down | down -| | When Honeycomb fails to set sub-interface up -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | Then interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | down -| | And interface state from VAT should be -| | ... | ${node} | ${super_if} | down -| | And sub-interface state from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | down | down -| | And sub-interface state from VAT should be -| | ... | ${node} | ${sub_if_name} | down | down - -| Honeycomb fails to delete sub-interface -| | [Documentation] | Check if Honeycomb can delete an existing sub-interface. -| | ... -| | [Setup] | Set super and sub interfaces down -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... -| | Given sub-interface configuration from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${sub_if_1_oper} -| | And sub-interface configuration from VAT should be -| | ... | ${node} | ${sub_if_name} | ${sub_if_1_oper} -| | When Honeycomb fails to remove all sub-interfaces -| | ... | ${node} | ${super_if} -| | Then sub-interface configuration from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${sub_if_1_oper} -| | And sub-interface configuration from VAT should be -| | ... | ${node} | ${sub_if_name} | ${sub_if_1_oper} - -| Honeycomb adds sub-interface to new bridge domain -| | [Documentation] | Check if Honeycomb adds a sub-interface to bridge domain. -| | ... -| | [Setup] | Set super and sub interfaces down -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... -| | Given sub-interface configuration from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${sub_if_1_oper} -| | And sub-interface configuration from VAT should be -| | ... | ${node} | ${sub_if_name} | ${sub_if_1_oper} -| | When Honeycomb creates L2 bridge domain -| | ... | ${node} | ${bd_name} | ${bd_settings} -| | Then bridge domain configuration from Honeycomb should be -| | ... | ${node} | ${bd_name} | ${bd_settings} -| | When Honeycomb adds sub-interface to bridge domain -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${sub_bd_settings} -| | Then sub-interface bridge domain configuration from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${sub_bd_settings} -| | And sub-interface bridge domain configuration from VAT should be -| | ... | ${node} | ${sub_if_name} | ${sub_bd_settings} -| | And sub-interface configuration from VAT should be -| | ... | ${node} | ${sub_if_name} | ${sub_if_1_oper} - -| Honeycomb enables tag-rewrite pop 1 -| | [Documentation] | Check if Honeycomb enables tag-rewrite and sets its \ -| | ... | parameters correctly. Case: pop 1. -| | ... -| | [Teardown] | Honeycomb disables tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... -| | Given rewrite tag from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | When Honeycomb configures tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_pop_1} -| | Then rewrite tag from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_pop_1_oper} -| | And rewrite tag from VAT should be -| | ... | ${node} | ${sub_if_name} | ${tag_rewrite_pop_1_VAT} - -| Honeycomb enables tag-rewrite push -| | [Documentation] | Check if Honeycomb enables tag-rewrite and sets its \ -| | ... | parameters correctly. Case: push. -| | ... -| | [Teardown] | Honeycomb disables tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... -| | Given rewrite tag from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | When Honeycomb configures tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_push} -| | Then rewrite tag from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_push_oper} -| | And rewrite tag from VAT should be -| | ... | ${node} | ${sub_if_name} | ${tag_rewrite_push_VAT} - -| Honeycomb enables tag-rewrite translate 1-2 -| | [Documentation] | Check if Honeycomb enables tag-rewrite and sets its \ -| | ... | parameters correctly. Case: translate 1-2. -| | ... -| | [Teardown] | Honeycomb disables tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... -| | Given rewrite tag from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | When Honeycomb configures tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_translate_1_2} -| | Then rewrite tag from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... | ${tag_rewrite_translate_1_2_oper} -| | And rewrite tag from VAT should be -| | ... | ${node} | ${sub_if_name} | ${tag_rewrite_translate_1_2_VAT} - -| Honeycomb disables tag-rewrite -| | [Documentation] | Check if Honeycomb disables the tag-rewrite. -| | ... -| | [Teardown] | Honeycomb disables tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... -| | When Honeycomb configures tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_pop_1} -| | Then rewrite tag from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_pop_1_oper} -| | When Honeycomb configures tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_disabled} -| | Then rewrite tag from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | And rewrite tag from VAT should be -| | ... | ${node} | ${sub_if_name} | ${tag_rewrite_disabled_VAT} - -| Honeycomb enables tag-rewrite pop 1 again -| | [Documentation] | Check if Honeycomb can enable tag-rewrite again, once it \ -| | ... | was disabled by Honeycomb. -| | ... -| | [Teardown] | Honeycomb disables tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... -| | Given rewrite tag from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | When Honeycomb configures tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_pop_1} -| | Then rewrite tag from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_pop_1_oper} -| | And rewrite tag from VAT should be -| | ... | ${node} | ${sub_if_name} | ${tag_rewrite_pop_1_VAT} - -| Honeycomb modifies the tag-rewrite -| | [Documentation] | Honeycomb sets the tag-rewrite: -| | ... | 1. pop 1, then -| | ... | 2. push, then -| | ... | 3. translate 1 - 2 -| | ... | Then Honeycomb disables the tag-rewrite. -| | ... -| | [Teardown] | Honeycomb disables tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... -| | Given rewrite tag from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | When Honeycomb configures tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_pop_1} -| | Then rewrite tag from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_pop_1_oper} -| | And rewrite tag from VAT should be -| | ... | ${node} | ${sub_if_name} | ${tag_rewrite_pop_1_VAT} -| | When Honeycomb configures tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_push} -| | Then rewrite tag from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_push_oper} -| | And rewrite tag from VAT should be -| | ... | ${node} | ${sub_if_name} | ${tag_rewrite_push_VAT} -| | When Honeycomb configures tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_translate_1_2} -| | Then rewrite tag from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... | ${tag_rewrite_translate_1_2_oper} -| | And rewrite tag from VAT should be -| | ... | ${node} | ${sub_if_name} | ${tag_rewrite_translate_1_2_VAT} -| | When Honeycomb configures tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_disabled} -| | Then rewrite tag from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | And rewrite tag from VAT should be -| | ... | ${node} | ${sub_if_name} | ${tag_rewrite_disabled_VAT} - -| Honeycomb fails to set wrong vlan-type in tag-rewrite -| | [Documentation] | Check that Honeycomb does not accept wrong values of \ -| | ... | vlan-type in tag-rewrite. -| | ... -| | Given rewrite tag from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | When Honeycomb fails to set wrong rewrite tag -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... | ${tag_rewrite_translate_1_2_wrong} -| | Then rewrite tag from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | And rewrite tag from VAT should be -| | ... | ${node} | ${sub_if_name} | ${tag_rewrite_disabled_VAT} - -| Honeycomb configures sub-interface ipv4 address -| | [Documentation] | Check if Honeycomb can configure an ipv4 address on the\ -| | ... | sub-interface. -| | ... -| | Given sub-interface ipv4 address from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | And sub-interface ipv4 address from VAT should be empty -| | ... | ${node} | ${sub_if_name} -| | When Honeycomb sets sub-interface ipv4 address -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... | ${ipv4['address']} | ${ipv4['prefix-length']} -| | Then sub-interface ipv4 address from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... | ${ipv4['address']} | ${ipv4['prefix-length']} -| | And sub-interface ipv4 address from VAT should be -| | ... | ${node} | ${sub_if_name} -| | ... | ${ipv4['address']} | ${ipv4['prefix-length']} - -| Honeycomb removes sub-interface ipv4 address -| | [Documentation] | Check if Honeycomb can remove configured ipv4 addresses\ -| | ... | from the sub-interface. -| | ... -| | Given sub-interface ipv4 address from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... | ${ipv4['address']} | ${ipv4['prefix-length']} -| | And sub-interface ipv4 address from VAT should be -| | ... | ${node} | ${sub_if_name} -| | ... | ${ipv4['address']} | ${ipv4['prefix-length']} -| | When Honeycomb removes all sub-interface ipv4 addresses -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | Then sub-interface ipv4 address from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | And sub-interface ipv4 address from VAT should be empty -| | ... | ${node} | ${sub_if_name} - -| Honeycomb modifies existing sub-interface ipv4 address -| | [Documentation] | Check if Honeycomb can modify an ipv4 address already\ -| | ... | configured on the sub-interface. -| | [Teardown] | Honeycomb removes all sub-interface ipv4 addresses -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | Given sub-interface ipv4 address from Honeycomb should be empty -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | And sub-interface ipv4 address from VAT should be empty -| | ... | ${node} | ${sub_if_name} -| | When Honeycomb sets sub-interface ipv4 address -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... | ${ipv4['address']} | ${ipv4['prefix-length']} -| | And Honeycomb sets sub-interface ipv4 address -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... | ${ipv4_2['address']} | ${ipv4_2['prefix-length']} -| | Then sub-interface ipv4 address from Honeycomb should be -| | ... | ${node} | ${super_if} | ${sub_if_id} -| | ... | ${ipv4_2['address']} | ${ipv4_2['prefix-length']} -| | And sub-interface ipv4 address from VAT should be -| | ... | ${node} | ${sub_if_name} -| | ... | ${ipv4_2['address']} | ${ipv4_2['prefix-length']} - -*** Keywords *** -| Set super and sub interfaces up -| | [Documentation] | Honeycomb sets super-interface and sub-interface up, in \ -| | ... | this order. -| | ... -| | ... | *Arguments:* -| | ... | - node - Information about a DUT node. Type: dictionary -| | ... | - super_interface - Super interface. Type: string -| | ... | - identifier - Sub-interface identifier. Type: integer or string -| | ... -| | ... | *Example:* -| | ... | \| Set super and sub interfaces up\ -| | ... | \| ${nodes['DUT1']} \| GigabitEthernet0/8/0 \| 1 \| -| | ... -| | [Arguments] | ${node} | ${super_interface} | ${identifier} -| | ... -| | Honeycomb sets interface state -| | ... | ${node} | ${super_interface} | up -| | Honeycomb sets the sub-interface up -| | ... | ${node} | ${super_interface} | ${identifier} - -| Set super and sub interfaces down -| | [Documentation] | Honeycomb sets super-interface and sub-interface down, in\ -| | ... | this order. -| | ... -| | ... | *Arguments:* -| | ... | - node - Information about a DUT node. Type: dictionary -| | ... | - super_interface - Super interface. Type: string -| | ... | - identifier - Sub-interface identifier. Type: integer or string -| | ... -| | ... | *Example:* -| | ... | \| Set super and sub interfaces down\ -| | ... | \| ${nodes['DUT1']} \| GigabitEthernet0/8/0 \| 1 \| -| | ... -| | [Arguments] | ${node} | ${super_interface} | ${identifier} -| | ... -| | Honeycomb sets interface state -| | ... | ${node} | ${super_interface} | down -| | Honeycomb sets the sub-interface down -| | ... | ${node} | ${super_interface} | ${identifier} - -| Honeycomb disables tag rewrite -| | [Documentation] | -| | ... -| | ... | *Arguments:* -| | ... | - node - Information about a DUT node. Type: dictionary -| | ... | - super_if - Super-interface. Type: string -| | ... | - identifier - Sub-interface ID. Type: integer or string -| | ... -| | ... | *Example:* -| | ... | \| Honeycomb disables tag rewrite \ -| | ... | \| ${nodes['DUT1']} \| GigabitEthernet0/8/0 \| 1 \| -| | ... -| | [Arguments] | ${node} | ${super_if} | ${sub_if_id} -| | ... -| | Honeycomb configures tag rewrite -| | ... | ${node} | ${super_if} | ${sub_if_id} | ${tag_rewrite_disabled} diff --git a/tests/suites/honeycomb/070_netconf.robot b/tests/suites/honeycomb/070_netconf.robot deleted file mode 100644 index 9925dee15f..0000000000 --- a/tests/suites/honeycomb/070_netconf.robot +++ /dev/null @@ -1,29 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/netconf.robot -| Variables | resources/test_data/honeycomb/netconf/triggers.py -| Documentation | *Netconf test suite. Contains test cases that need to bypass\ -| ... | REST API.* -| Force Tags | honeycomb_sanity - -*** Test Cases *** -| Honeycomb can create and delete interfaces -| | [Documentation] | Repeatedly create and delete an interface through Netconf\ -| | ... | and check the reply for any errors. -| | Given Netconf session is established | ${node} -| | :FOR | ${index} | IN RANGE | 20 -| | | When Error trigger is sent | ${trigger_105} -| | | Then Replies should not contain RPC errors diff --git a/tests/suites/honeycomb/071_notification.robot b/tests/suites/honeycomb/071_notification.robot deleted file mode 100644 index 117f024b21..0000000000 --- a/tests/suites/honeycomb/071_notification.robot +++ /dev/null @@ -1,56 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Variables *** -# Interfaces to run tests on. -| ${interface}= | ${node['interfaces']['port1']['name']} -| ${tap_interface}= | tap_test -| &{tap_settings}= | tap-name=tap_test | mac=08:00:27:c0:5d:37 -| ... | device-instance=${1} - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/interfaces.robot -| Resource | resources/libraries/robot/honeycomb/tap.robot -| Resource | resources/libraries/robot/honeycomb/notifications.robot -| Suite Setup | Run keywords -| ... | Honeycomb sets interface state -| ... | ${node} | ${interface} | down | AND -| ... | Honeycomb creates TAP interface -| ... | ${node} | ${tap_interface} | ${tap_settings} -| Documentation | *Honeycomb notifications test suite.* -| Force Tags | honeycomb_sanity - -*** Test Cases *** -| Honeycomb sends notification on interface state change -| | [Documentation] | Check if Honeycomb sends a state-changed notification\ -| | ... | when the state of an interface is changed. -| | Given Interface state from Honeycomb should be -| | ... | ${node} | ${interface} | down -| | And Interface state from VAT should be | ${node} | ${interface} | down -| | And Notification listener is established | ${node} -| | When Honeycomb sets interface state | ${node} | ${interface} | up -| | Then Honeycomb should send interface state notification | ${interface} | up -| | When Honeycomb sets interface state | ${node} | ${interface} | down -| | And Honeycomb should send interface state notification | ${interface} | down - -| Honeycomb sends notification on interface deletion -| | [Documentation] | Check if Honeycomb sends an interface-deleted notification -| | ... | when an interface is deleted. -| | Given TAP configuration from Honeycomb should be -| | ... | ${node} | ${tap_interface} | ${tap_settings} -| | And TAP configuration from VAT should be -| | ... | ${node} | ${tap_interface} | ${tap_settings} -| | And Notification listener is established | ${node} -| | When Honeycomb removes TAP interface | ${node} | ${tap_interface} -| | Then Honeycomb should send interface deleted notification | ${tap_interface} diff --git a/tests/suites/honeycomb/080_access_control_lists.robot b/tests/suites/honeycomb/080_access_control_lists.robot deleted file mode 100644 index 146a02edd3..0000000000 --- a/tests/suites/honeycomb/080_access_control_lists.robot +++ /dev/null @@ -1,146 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Variables*** -# Interface to run tests on. -| ${interface}= | ${node['interfaces']['port1']['name']} - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/access_control_lists.robot -| Variables | resources/test_data/honeycomb/acl.py -| Suite Teardown | Clear all ACL settings | ${node} -| Documentation | *Honeycomb access control lists test suite.* -| Force Tags | Honeycomb_sanity - -*** Test Cases *** -| Honeycomb can create ACL classify table -| | [Documentation] | Check if Honeycomb API can create an ACL table. -| | Given ACL table from Honeycomb should not exist -| | ... | ${node} | ${hc_acl_table['name']} -| | And ACL table from VAT should not exist -| | ... | ${node} | ${table_index} -| | When Honeycomb creates ACL table -| | ... | ${node} | ${hc_acl_table} -| | Then ACL table from Honeycomb should be | ${node} | ${hc_acl_table} -| | And ACL table from VAT should be -| | ... | ${node} | ${table_index} | ${vat_acl_table} - -| Honeycomb manages more than one ACL table -| | [Documentation] | Check if Honeycomb API can create another ACL table. -| | Given ACL table from Honeycomb should be | ${node} | ${hc_acl_table} -| | And ACL table from VAT should be -| | ... | ${node} | ${table_index} | ${vat_acl_table} -| | And Honeycomb creates ACL table | ${node} | ${hc_acl_table2} -| | Then ACL table from Honeycomb should be | ${node} | ${hc_acl_table} -| | And ACL table from VAT should be -| | ... | ${node} | ${table_index} | ${vat_acl_table} -| | And ACL table from Honeycomb should be | ${node} | ${hc_acl_table2} -| | And ACL table from VAT should be -| | ... | ${node} | ${table_index2} | ${vat_acl_table2} - -| Honeycomb can add ACL session to table -| | [Documentation] | Check if Honeycomb API can add an ACL session to a table. -| | Given ACL table from Honeycomb should be | ${node} | ${hc_acl_table} -| | And ACL table from VAT should be -| | ... | ${node} | ${table_index} | ${vat_acl_table} -| | When Honeycomb adds ACL session -| | ... | ${node} | ${hc_acl_table['name']} | ${hc_acl_session} -| | Then ACL session from Honeycomb should be -| | ... | ${node} | ${hc_acl_table['name']} | ${hc_acl_session} -| | And ACL session from VAT should be -| | ... | ${node} | ${table_index} | ${session_index} | ${vat_acl_session} - -| Honeycomb manages more than one ACL session on one table -| | [Documentation] | Check if Honeycomb API can add another ACL session\ -| | ... | to a table. -| | Given ACL session from Honeycomb should be -| | ... | ${node} | ${hc_acl_table['name']} | ${hc_acl_session} -| | And ACL session from VAT should be -| | ... | ${node} | ${table_index} | ${session_index} | ${vat_acl_session} -| | When Honeycomb adds ACL session -| | ... | ${node} | ${hc_acl_table['name']} | ${hc_acl_session2} -| | Then ACL session from Honeycomb should be -| | ... | ${node} | ${hc_acl_table['name']} | ${hc_acl_session} -| | And ACL session from VAT should be -| | ... | ${node} | ${table_index} | ${session_index} | ${vat_acl_session} -| | And ACL session from Honeycomb should be -| | ... | ${node} | ${hc_acl_table['name']} | ${hc_acl_session2} -| | And ACL session from VAT should be -| | ... | ${node} | ${table_index} | ${session_index2} | ${vat_acl_session2} - -| Honeycomb enables ACL on interface -| | [Documentation] | Check if Honeycomb API can enable ACL on an interface. -| | Given ACL table from Honeycomb should be | ${node} | ${hc_acl_table} -| | And ACL table from VAT should be -| | ... | ${node} | ${table_index} | ${vat_acl_table} -| | And ACL session from Honeycomb should be -| | ... | ${node} | ${hc_acl_table['name']} | ${hc_acl_session} -| | And ACL session from VAT should be -| | ... | ${node} | ${table_index} | ${session_index} | ${vat_acl_session} -| | When Honeycomb enables ACL on interface -| | ... | ${node} | ${interface} | ${hc_acl_table['name']} -| | Then Interface ACL settings from Honeycomb should be -| | ... | ${node} | ${interface} | ${hc_acl_table['name']} -| | And Interface ACL settings from VAT should be -| | ... | ${node} | ${interface} | ${table_index} - -| Honeycomb disables ACL on interface -| | [Documentation] | Check if Honeycomb API can disable ACL on an interface. -| | Given Interface ACL settings from Honeycomb should be -| | ... | ${node} | ${interface} | ${hc_acl_table['name']} -| | And Interface ACL settings from VAT should be -| | ... | ${node} | ${interface} | ${table_index} -| | When Honeycomb disables ACL on interface | ${node} | ${interface} -| | Then Interface ACL settings from Honeycomb should be empty -| | ... | ${node} | ${interface} -| | And Interface ACL settings from VAT should be empty -| | ... | ${node} | ${interface} - -| Honeycomb can remove ACL session -| | [Documentation] | Check if Honeycomb API can remove an ACL session. -| | Given ACL session from Honeycomb should be -| | ... | ${node} | ${hc_acl_table['name']} | ${hc_acl_session} -| | And ACL session from VAT should be -| | ... | ${node} | ${table_index} | ${session_index} | ${vat_acl_session} -| | And ACL session from Honeycomb should be -| | ... | ${node} | ${hc_acl_table['name']} | ${hc_acl_session2} -| | And ACL session from VAT should be -| | ... | ${node} | ${table_index} | ${session_index2} | ${vat_acl_session2} -| | When Honeycomb removes ACL session -| | ... | ${node} | ${hc_acl_table['name']} | ${hc_acl_session2['match']} -| | Then ACL session from Honeycomb should be -| | ... | ${node} | ${hc_acl_table['name']} | ${hc_acl_session} -| | And ACL session from VAT should be -| | ... | ${node} | ${table_index} | ${session_index} | ${vat_acl_session} -| | And ACL session from Honeycomb should not exist -| | ... | ${node} | ${hc_acl_table['name']} | ${hc_acl_session2['match']} -| | And ACL session from VAT should not exist -| | ... | ${node} | ${table_index} | ${session_index2} - -| Honeycomb can remove ACL table -| | [Documentation] | Check if Honeycomb API can delete an ACL table. -| | Given ACL table from Honeycomb should be | ${node} | ${hc_acl_table} -| | And ACL table from VAT should be -| | ... | ${node} | ${table_index} | ${vat_acl_table} -| | And ACL table from Honeycomb should be | ${node} | ${hc_acl_table2} -| | And ACL table from VAT should be -| | ... | ${node} | ${table_index2} | ${vat_acl_table2} -| | When Honeycomb removes ACL table | ${node} | ${hc_acl_table2['name']} -| | Then ACL table from Honeycomb should be | ${node} | ${hc_acl_table} -| | And ACL table from VAT should be -| | ... | ${node} | ${table_index} | ${vat_acl_table} -| | And ACL table from Honeycomb should not exist -| | ... | ${node} | ${hc_acl_table2['name']} -| | And ACL table from VAT should not exist -| | ... | ${node} | ${table_index2} diff --git a/tests/suites/honeycomb/900_persistence.robot b/tests/suites/honeycomb/900_persistence.robot deleted file mode 100644 index e3f68ccc33..0000000000 --- a/tests/suites/honeycomb/900_persistence.robot +++ /dev/null @@ -1,76 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Variables*** -# Interface to run tests on. -| ${interface}= | ${node['interfaces']['port1']['name']} - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/persistence.robot -| Suite Setup | Restart Honeycomb and VPP and clear persisted configuration -| ... | ${node} -| Force Tags | honeycomb_persistence -| Documentation | *Honeycomb configuration persistence test suite.* - -*** Test Cases *** -| Honeycomb persists configuration through restart of both Honeycomb and VPP -| | [Documentation] | Checks if Honeycomb maintains configuration after both\ -| | ... | Honeycomb and VPP are restarted. -| | Given Honeycomb configures every setting | ${node} | ${interface} -| | And Honeycomb and VPP should verify every setting | ${node} | ${interface} -| | When Honeycomb and VPP are restarted | ${node} -| | Then Honeycomb and VPP should verify every setting | ${node} | ${interface} -| | And Honeycomb should show no rogue interfaces | ${node} - -| Honeycomb persists configuration through restart of Honeycomb -| | [Documentation] | Checks if Honeycomb maintains configuration after it\ -| | ... | is restarted. -| | Given Honeycomb and VPP should verify every setting | ${node} | ${interface} -| | When Honeycomb is restarted | ${node} -| | Then Honeycomb and VPP should verify every setting | ${node} | ${interface} -| | And Honeycomb should show no rogue interfaces | ${node} - -| Honeycomb persists configuration through restart of VPP -| | [Documentation] | Checks if Honeycomb updates VPP settings after VPP is\ -| | ... | restarted. -| | Given Honeycomb and VPP should verify every setting | ${node} | ${interface} -| | When VPP is restarted | ${node} -| | Then Honeycomb and VPP should verify every setting | ${node} | ${interface} -| | And Honeycomb should show no rogue interfaces | ${node} - -| Honeycomb reverts to defaults if persistence files are invalid -| | [Documentation] | Checks if Honeycomb reverts to default configuration when\ -| | ... | persistence files are damaged or invalid. -| | [Teardown] | Run keyword if test failed -| | ... | Restart both systems and clear persisted configuration | ${node} -| | Given Honeycomb and VPP should not have default configuration | ${node} -| | When Persistence file is damaged during restart | ${node} -| | Then Honeycomb and VPP should have default configuration | ${node} - -*** Keywords *** -| Restart Honeycomb and VPP and clear persisted configuration -| | [Documentation] | Restarts Honeycomb and VPP with default configuration. -| | ... -| | ... | *Arguments:* -| | ... | - node - information about a DUT node. Type: dictionary -| | ... -| | ... | *Example:* -| | ... -| | ... | Restart both systems and clear persisted configuration \ -| | ... | \| ${nodes['DUT1']} \| -| | [Arguments] | ${node} -| | Stop Honeycomb service on DUTs | ${node} -| | Clear persisted Honeycomb configuration | ${node} -| | Setup DUT | ${node} -| | Setup Honeycomb service on DUTs | ${node}
\ No newline at end of file diff --git a/tests/suites/honeycomb/__init__.robot b/tests/suites/honeycomb/__init__.robot deleted file mode 100644 index d38852a090..0000000000 --- a/tests/suites/honeycomb/__init__.robot +++ /dev/null @@ -1,26 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Variables*** -# Honeycomb node to run tests on. -| ${node}= | ${nodes['DUT1']} - -*** Settings *** -| Library | resources.libraries.python.honeycomb.HcPersistence -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/honeycomb/honeycomb.robot -| Suite Setup | Run keywords | Setup all DUTs before test | AND -| ... | Clear persisted Honeycomb configuration | ${node} | AND -| ... | Setup Honeycomb service on DUTs | ${node} | AND -| ... | Set Global Variable | ${node} -| Suite Teardown | Stop Honeycomb service on DUTs | ${node} diff --git a/tests/suites/iacl/ipv4_iacl_untagged.robot b/tests/suites/iacl/ipv4_iacl_untagged.robot deleted file mode 100644 index d840f38538..0000000000 --- a/tests/suites/iacl/ipv4_iacl_untagged.robot +++ /dev/null @@ -1,529 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/counters.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/ipv4.robot -| Resource | resources/libraries/robot/l2_xconnect.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Resource | resources/libraries/robot/traffic.robot -| Library | resources.libraries.python.Classify.Classify -| Library | resources.libraries.python.Trace - -| Force Tags | HW_ENV | VM_ENV | 3_NODE_SINGLE_LINK_TOPO -| Suite Setup | Run Keywords | Setup all TGs before traffic script -| ... | AND | Update All Interface Data On All Nodes | ${nodes} -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Show packet trace on all DUTs | ${nodes} -| ... | AND | Vpp Show Errors | ${nodes['DUT1']} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *IPv4 routing with ingress ACL test cases* -| ... -| ... | Encapsulations: Eth-IPv4 on links TG-DUT1, TG-DUT2, DUT1-DUT2. IPv4 -| ... | ingress ACL (iACL) tests use 3-node topology TG - DUT1 - DUT2 - TG with -| ... | one link between the nodes. DUT1 and DUT2 are configured with IPv4 -| ... | routing and static routes. DUT1 is configured with iACL on link to TG, -| ... | iACL classification and permit/deny action are configured on a per test -| ... | case basis. Test ICMPv4 Echo Request packets are sent in one direction -| ... | by TG on link to DUT1 and received on TG link to DUT2. On receive TG -| ... | verifies if packets are dropped, or if received verifies packet IPv4 -| ... | src-addr, dst-addr and MAC addresses. - -*** Variables *** -| ${dut1_to_tg_ip}= | 192.168.1.1 -| ${dut1_to_dut2_ip}= | 192.168.2.1 -| ${dut1_to_dut2_ip_GW}= | 192.168.2.2 -| ${test_dst_ip}= | 32.0.0.1 -| ${test_src_ip}= | 16.0.0.1 -| ${non_drop_dst_ip}= | 33.0.0.1 -| ${non_drop_src_ip}= | 15.0.0.1 -| ${prefix_length}= | 24 -| ${ip_version}= | ip4 -| ${l2_table}= | l2 - -*** Test Cases *** -| TC01: DUT with iACL IPv4 src-addr drops matching pkts -| | [Documentation] -| | ... | On DUT1 add source IPv4 address to classify table with 'deny'.\ -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send Packet And Check Headers | ${tg_node} -| | ... | ${non_drop_src_ip} | ${test_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table L3 | ${dut1_node} -| | ... | ${ip_version} | src -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${ip_version} | src | ${test_src_ip} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send packet from Port to Port should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${non_drop_src_ip} | ${test_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} - -| TC02: DUT with iACL IPv4 dst-addr drops matching pkts -| | [Documentation] -| | ... | On DUT1 add destination IPv4 address to classify table with 'deny'.\ -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${non_drop_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send Packet And Check Headers | ${tg_node} -| | ... | ${test_src_ip} | ${non_drop_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table L3 | ${dut1_node} -| | ... | ${ip_version} | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${ip_version} | dst | ${test_dst_ip} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send packet from Port to Port should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${test_src_ip} | ${non_drop_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} - -| TC03: DUT with iACL IPv4 src-addr and dst-addr drops matching pkts -| | [Documentation] -| | ... | On DUT1 add source and destination IPv4 addresses to classify table\ -| | ... | with 'deny'. Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${non_drop_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send Packet And Check Headers | ${tg_node} -| | ... | ${non_drop_src_ip} | ${non_drop_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | ${table_index_1} | ${skip_n_1} | ${match_n_1}= -| | ... | When Vpp Creates Classify Table L3 | ${dut1_node} -| | ... | ${ip_version} | src -| | ${table_index_2} | ${skip_n_2} | ${match_n_2}= -| | ... | And Vpp Creates Classify Table L3 | ${dut1_node} | ${ip_version} | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1_node} | deny | ${table_index_1} | ${skip_n_1} | ${match_n_2} -| | ... | ${ip_version} | src | ${test_src_ip} -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1_node} | deny | ${table_index_2} | ${skip_n_2} | ${match_n_2} -| | ... | ${ip_version} | dst | ${test_dst_ip} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index_1} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index_2} -| | Then Send packet from Port to Port should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${non_drop_src_ip} | ${non_drop_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} - -| TC04: DUT with iACL IPv4 protocol set to TCP drops matching pkts -| | [Documentation] -| | ... | On DUT1 add protocol mask and TCP protocol (0x06) to classify table\ -| | ... | with 'deny'. Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex -| | ... | ${dut1_node} | 0000000000000000000000000000000000000000000000FF -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | 000000000000000000000000000000000000000000000006 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 - -| TC05: DUT with iACL IPv4 protocol set to UDP drops matching pkts -| | [Documentation] -| | ... | On DUT1 add protocol mask and UDP protocol (0x11) to classify table\ -| | ... | with 'deny'. Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex -| | ... | ${dut1_node} | 0000000000000000000000000000000000000000000000FF -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | 000000000000000000000000000000000000000000000011 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 - -| TC06: DUT with iACL IPv4 TCP src-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add TCP source ports to classify table with 'deny'.\ -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 110 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | TCP | source -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 80 | 0 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 110 | 20 - -| TC07: DUT with iACL IPv4 TCP dst-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add TCP destination ports to classify table with 'deny'.\ -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 20 | 110 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 20 | 80 -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | TCP | destination -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 0 | 80 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 20 | 80 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 20 | 110 - -| TC08: DUT with iACL IPv4 TCP src-ports and dst-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add TCP source and destination ports to classify table\ -| | ... | with 'deny'. Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 110 | 25 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | TCP -| | ... | source + destination -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 80 | 20 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 110 | 25 - -| TC09: DUT with iACL IPv4 UDP src-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add UDP source ports to classify table with 'deny'.\ -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 110 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | UDP | source -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 80 | 0 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 110 | 20 - -| TC10: DUT with iACL IPv4 UDP dst-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add TCP destination ports to classify table with 'deny'.\ -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 20 | 110 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 20 | 80 -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | UDP | destination -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 0 | 80 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 20 | 80 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 20 | 110 - -| TC11: DUT with iACL IPv4 UDP src-ports and dst-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add UDP source and destination ports to classify table\ -| | ... | with 'deny'. Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 110 | 25 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | UDP -| | ... | source + destination -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 80 | 20 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 110 | 25 diff --git a/tests/suites/iacl/ipv6_iacl_untagged.robot b/tests/suites/iacl/ipv6_iacl_untagged.robot deleted file mode 100644 index db814b221b..0000000000 --- a/tests/suites/iacl/ipv6_iacl_untagged.robot +++ /dev/null @@ -1,583 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/counters.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/ipv6.robot -| Resource | resources/libraries/robot/l2_xconnect.robot -| Resource | resources/libraries/robot/traffic.robot -| Library | resources.libraries.python.Classify.Classify -| Library | resources.libraries.python.Trace - -| Force Tags | HW_ENV | VM_ENV | 3_NODE_SINGLE_LINK_TOPO -| Suite Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| ... | AND | Update All Interface Data On All Nodes | ${nodes} -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Show packet trace on all DUTs | ${nodes} -| ... | AND | Vpp Show Errors | ${nodes['DUT1']} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *IPv6 routing with ingress ACL test cases* -| ... -| ... | Encapsulations: Eth-IPv6 on links TG-DUT1, TG-DUT2, DUT1-DUT2. IPv6 -| ... | ingress ACL (iACL) tests use 3-node topology TG - DUT1 - DUT2 - TG with -| ... | one link between the nodes. DUT1 and DUT2 are configured with IPv6 -| ... | routing and static routes. DUT1 is configured with iACL on link to TG, -| ... | iACL classification and permit/deny action are configured on a per test -| ... | case basis. Test ICMPv6 Echo Request packets are sent in one direction -| ... | by TG on link to DUT1 and received on TG link to DUT2. On receive TG -| ... | verifies if packets are dropped, or if received verifies packet IPv6 -| ... | src-addr, dst-addr and MAC addresses. - -*** Variables *** -| ${dut1_to_tg_ip}= | 3ffe:62::1 -| ${dut1_to_dut2_ip}= | 3ffe:63::1 -| ${dut1_to_dut2_ip_GW}= | 3ffe:63::2 -| ${dut2_to_dut1_ip}= | 3ffe:72::1 -| ${dut2_to_tg_ip}= | 3ffe:73::1 -| ${test_dst_ip}= | 3ffe:64::1 -| ${test_src_ip}= | 3ffe:61::1 -| ${non_drop_dst_ip}= | 3ffe:54::1 -| ${non_drop_src_ip}= | 3ffe:51::1 -| ${prefix_length}= | 64 -| ${ip_version}= | ip6 -| ${l2_table}= | l2 - -*** Test Cases *** -| TC01: DUT with iACL IPv6 src-addr drops matching pkts -| | [Documentation] -| | ... | On DUT1 add source IPv6 address to classify table with 'deny'.\ -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Ip Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | Then Send Packet And Check Headers | ${tg_node} -| | ... | ${non_drop_src_ip} | ${test_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table L3 | ${dut1_node} -| | ... | ${ip_version} | src -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${ip_version} | src | ${test_src_ip} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send packet from Port to Port should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${non_drop_src_ip} | ${test_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} - -| TC02: DUT with iACL IPv6 dst-addr drops matching pkts -| | [Documentation] -| | ... | On DUT1 add destination IPv6 address to classify table with 'deny'.\ -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Ip Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${non_drop_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | Then Send Packet And Check Headers | ${tg_node} -| | ... | ${test_src_ip} | ${non_drop_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table L3 | ${dut1_node} -| | ... | ${ip_version} | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${ip_version} | dst | ${test_dst_ip} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send packet from Port to Port should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${test_src_ip} | ${non_drop_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} - -| TC03: DUT with iACL IPv6 src-addr and dst-addr drops matching pkts -| | [Documentation] -| | ... | On DUT1 add source and destination IPv6 addresses to classify table\ -| | ... | with 'deny'. Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Ip Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${non_drop_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | Then Send Packet And Check Headers | ${tg_node} -| | ... | ${non_drop_src_ip} | ${non_drop_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | ${table_index_1} | ${skip_n_1} | ${match_n_1}= -| | ... | When Vpp Creates Classify Table L3 | ${dut1_node} -| | ... | ${ip_version} | src -| | ${table_index_2} | ${skip_n_2} | ${match_n_2}= -| | ... | And Vpp Creates Classify Table L3 | ${dut1_node} | ${ip_version} | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1_node} | deny | ${table_index_1} | ${skip_n_1} | ${match_n_2} -| | ... | ${ip_version} | src | ${test_src_ip} -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1_node} | deny | ${table_index_2} | ${skip_n_2} | ${match_n_2} -| | ... | ${ip_version} | dst | ${test_dst_ip} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index_1} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index_2} -| | Then Send packet from Port to Port should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${non_drop_src_ip} | ${non_drop_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} - -| TC04: DUT with iACL IPv6 protocol set to TCP drops matching pkts -| | [Documentation] -| | ... | On DUT1 add protocol mask and TCP protocol (0x06) to classify table\ -| | ... | with 'deny'. Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Ip Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex -| | ... | ${dut1_node} | 0000000000000000000000000000000000000000FF -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | 000000000000000000000000000000000000000006 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 - -| TC05: DUT with iACL IPv6 protocol set to UDP drops matching pkts -| | [Documentation] -| | ... | On DUT1 add protocol mask and UDP protocol (0x11) to classify table\ -| | ... | with 'deny'. Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Ip Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex -| | ... | ${dut1_node} | 0000000000000000000000000000000000000000FF -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | 000000000000000000000000000000000000000011 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 - -| TC06: DUT with iACL IPv6 TCP src-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add TCP source ports to classify table with 'deny'.\ -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Ip Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 110 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | TCP | source -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 80 | 0 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 110 | 20 - -| TC07: DUT with iACL IPv6 TCP dst-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add TCP destination ports to classify table with 'deny'.\ -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Ip Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 20 | 110 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 20 | 80 -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | TCP | destination -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 0 | 80 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 20 | 80 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 20 | 110 - -| TC08: DUT with iACL IPv6 TCP src-ports and dst-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add TCP source and destination ports to classify table\ -| | ... | with 'deny'. Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Ip Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 110 | 25 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | TCP -| | ... | source + destination -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 80 | 20 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | TCP | 110 | 25 - -| TC09: DUT with iACL IPv6 UDP src-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add UDP source ports to classify table with 'deny'.\ -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Ip Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 110 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | UDP | source -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 80 | 0 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 110 | 20 - -| TC10: DUT with iACL IPv6 UDP dst-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add TCP destination ports to classify table with 'deny'.\ -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Ip Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 20 | 110 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 20 | 80 -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | UDP | destination -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 0 | 80 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 20 | 80 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 20 | 110 - -| TC11: DUT with iACL IPv6 UDP src-ports and dst-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add UDP source and destination ports to classify table\ -| | ... | with 'deny'. Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Ip Neighbor -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 110 | 25 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | UDP -| | ... | source + destination -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 80 | 20 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${ip_version} | ${table_index} -| | Then Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 110 | 25 - -| TC12: DUT with iACL MAC src-addr and iACL IPv6 UDP src-ports and dst-ports drops matching pkts -| | [Documentation] -| | ... | On DUT1 add source MAC address to classify (L2) table and add UDP\ -| | ... | source and destination ports to classify (hex) table with 'deny'. -| | ... | Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_tg} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | And Vpp All Ra Suppress Link Layer | ${nodes} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 110 | 25 -| | And Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table L2 | ${dut1_node} | src -| | And Vpp Configures Classify Session L2 -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | src | ${tg_to_dut1_mac} -| | ${hex_mask}= | Compute Classify Hex Mask | ${ip_version} | UDP -| | ... | source + destination -| | ${hex_value}= | Compute Classify Hex Value | ${hex_mask} | 80 | 20 -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex | ${dut1_node} | ${hex_mask} -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | ${hex_value} -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${l2_table} | ${table_index} -| | Then Send TCP or UDP packet | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 110 | 25 -| | And Send TCP or UDP packet should failed | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} | ${tg_to_dut1_mac} -| | ... | ${tg_to_dut2} | ${dut1_to_tg_mac} | UDP | 80 | 20 diff --git a/tests/suites/iacl/l2_iacl_untagged.robot b/tests/suites/iacl/l2_iacl_untagged.robot deleted file mode 100644 index 071ce1b34c..0000000000 --- a/tests/suites/iacl/l2_iacl_untagged.robot +++ /dev/null @@ -1,150 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/counters.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/l2_xconnect.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Library | resources.libraries.python.Classify.Classify -| Library | resources.libraries.python.Trace - -| Force Tags | HW_ENV | VM_ENV | 3_NODE_SINGLE_LINK_TOPO -| ... | 3_NODE_DOUBLE_LINK_TOPO -| Suite Setup | Run Keywords | Setup all TGs before traffic script -| ... | AND | Update All Interface Data On All Nodes | ${nodes} -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Show packet trace on all DUTs | ${nodes} -| ... | AND | Vpp Show Errors | ${nodes['DUT1']} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *Ingress ACL test cases* -| ... -| ... | *[Top] Network Topologies:* TG - DUT1 - DUT2 - TG -| ... | with one link between the nodes. -| ... | *[Cfg] DUT configuration:* DUT2 is configured with L2 Cross connect. -| ... | DUT1 is configured with iACL classification on link to TG, -| ... | *[Ver] TG verification:* Test ICMPv4 Echo Request packets are sent -| ... | in one direction by TG on link to DUT1 and received on TG link -| ... | to DUT2. On receive TG verifies if packets are dropped. - -*** Variables *** -| ${l2_table}= | l2 - -*** Test Cases *** -| TC01: DUT with iACL MAC src-addr drops matching pkts -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. -| | ... | [Cfg] On DUT1 add source MAC address to classify table with 'deny'. -| | ... | [Ver] Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_tg} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table L2 | ${dut1_node} | src -| | And Vpp Configures Classify Session L2 -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | src | ${tg_to_dut1_mac} -| | And Vpp Enable Input ACL Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${l2_table} | ${table_index} -| | Then Send and receive ICMP Packet should fail -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} - -| TC02: DUT with iACL MAC dst-addr drops matching pkts -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. -| | ... | [Cfg] On DUT1 add destination MAC address to classify -| | ... | table with 'deny'. -| | ... | [Ver] Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_tg} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table L2 | ${dut1_node} | dst -| | And Vpp Configures Classify Session L2 -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | dst | ${tg_to_dut2_mac} -| | And Vpp Enable Input ACL Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${l2_table} | ${table_index} -| | Then Send and receive ICMP Packet should fail -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} - -| TC03: DUT with iACL MAC src-addr and dst-addr drops matching pkts -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. -| | ... | [Cfg] On DUT1 add source and destination MAC address to classify -| | ... | table with 'deny'. -| | ... | [Ver] Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_tg} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} -| | ${table_index_1} | ${skip_n_1} | ${match_n_1}= -| | ... | When Vpp Creates Classify Table L2 | ${dut1_node} | src -| | And Vpp Configures Classify Session L2 -| | ... | ${dut1_node} | deny | ${table_index_1} | ${skip_n_1} | ${match_n_1} -| | ... | src | ${tg_to_dut1_mac} -| | ${table_index_2} | ${skip_n_2} | ${match_n_2}= -| | ... | When Vpp Creates Classify Table L2 | ${dut1_node} | dst -| | And Vpp Configures Classify Session L2 -| | ... | ${dut1_node} | deny | ${table_index_2} | ${skip_n_2} | ${match_n_2} -| | ... | dst | ${tg_to_dut1_mac} -| | And Vpp Enable Input ACL Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${l2_table} | ${table_index_1} -| | And Vpp Enable Input ACL Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${l2_table} | ${table_index_2} -| | Then Send and receive ICMP Packet should fail -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} - -| TC04: DUT with iACL EtherType drops matching pkts -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. -| | ... | [Cfg] On DUT1 add EtherType IPv4(0x0800) to classify table with 'deny'. -| | ... | [Ver] Make TG verify matching packets are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_tg} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} -| | ${table_index} | ${skip_n} | ${match_n}= -| | ... | When Vpp Creates Classify Table Hex -| | ... | ${dut1_node} | 000000000000000000000000ffff -| | And Vpp Configures Classify Session Hex -| | ... | ${dut1_node} | deny | ${table_index} | ${skip_n} | ${match_n} -| | ... | 0000000000000000000000000800 -| | And Vpp Enable Input ACL Interface -| | ... | ${dut1_node} | ${dut1_to_tg} | ${l2_table} | ${table_index} -| | Then Send and receive ICMP Packet should fail -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} diff --git a/tests/suites/ipv4/ipv4_arp_untagged.robot b/tests/suites/ipv4/ipv4_arp_untagged.robot deleted file mode 100644 index 5bec624262..0000000000 --- a/tests/suites/ipv4/ipv4_arp_untagged.robot +++ /dev/null @@ -1,86 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/counters.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/ipv4.robot -| Resource | resources/libraries/robot/l2_xconnect.robot -| Resource | resources/libraries/robot/traffic.robot -| Library | resources.libraries.python.Trace - -| Force Tags | HW_ENV | VM_ENV | 3_NODE_SINGLE_LINK_TOPO -| Suite Setup | Run Keywords | Setup all TGs before traffic script -| ... | AND | Update All Interface Data On All Nodes | ${nodes} -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Show packet trace on all DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *IPv4 ARP test cases* -| ... -| ... | RFC826 ARP: Eth-IPv4 and Eth-ARP on links TG-DUT1, TG-DUT2, DUT1-DUT2: -| ... | IPv4 ARP tests use 3-node topology TG - DUT1 - DUT2 - TG with one link -| ... | between the nodes. DUT1 and DUT2 are configured with IPv4 routing and -| ... | static routes. DUT ARP functionality is tested by making TG send ICMPv4 -| ... | Echo Requests towards its other interface via DUT1 and DUT2. - -*** Variables *** -| ${dut1_to_tg_ip}= | 192.168.1.1 -| ${dut1_to_dut2_ip}= | 192.168.2.1 -| ${dut1_to_dut2_ip_GW}= | 192.168.2.2 -| ${test_dst_ip}= | 32.0.0.1 -| ${test_src_ip}= | 16.0.0.1 -| ${prefix_length}= | 24 - -*** Test Cases *** -| TC01: DUT sends ARP Request for unresolved locally connected IPv4 address -| | [Documentation] -| | ... | Make TG send test packet destined to IPv4 address of its other\ -| | ... | interface connected to DUT2. Make TG verify DUT2 sends ARP -| | ... | Request for locally connected TG IPv4 address. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | When Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | Then Send Packet And Check ARP Request | ${tg_node} -| | ... | ${test_src_ip} | ${dut1_to_dut2_ip_GW} | ${tg_to_dut1} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} | ${dut1_to_dut2_mac} -| | ... | ${dut1_to_dut2_ip} | ${dut1_to_dut2_ip_GW} - -| TC02: DUT sends ARP Request for route next hop IPv4 address -| | [Documentation] | -| | ... | Make TG send test packet destined to IPv4 address matching\ -| | ... | static route on DUT2. Make TG verify DUT2 sends ARP Request for -| | ... | next hop of the static route. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | When Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} | resolve_attempts=${NONE} -| | Then Send Packet And Check ARP Request | ${tg_node} -| | ... | ${test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut2} | ${dut1_to_dut2_mac} -| | ... | ${dut1_to_dut2_ip} | ${dut1_to_dut2_ip_GW} diff --git a/tests/suites/ipv4/ipv4_proxy_arp_untagged.robot b/tests/suites/ipv4/ipv4_proxy_arp_untagged.robot deleted file mode 100644 index 716a84b900..0000000000 --- a/tests/suites/ipv4/ipv4_proxy_arp_untagged.robot +++ /dev/null @@ -1,158 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/ipv4.robot -| Resource | resources/libraries/robot/traffic.robot -| Library | resources.libraries.python.Trace -| Library | resources.libraries.python.ProxyArp -| Force Tags | HW_ENV | VM_ENV | 3_NODE_SINGLE_LINK_TOPO -| Suite Setup | Run Keywords | Setup all TGs before traffic script -| ... | AND | Update All Interface Data On All Nodes | ${nodes} -| Test Setup | Setup all DUTs before test -| Test Teardown | Show packet trace on all DUTs | ${nodes} -| Documentation | *RFC1027 Proxy ARP test cases* -| ... -| ... | *[Top] Network topologies:* TG-DUT1 2-node topology with -| ... | single link between nodes. -| ... | *[Cfg] DUT configuration:* DUT1 is configured with Proxy ARP -| ... | *[Ver] TG verification:* Test ARP Request packet is sent -| ... | from TG on link to DUT1; on receive TG verifies ARP reply packet -| ... | for correctness and their IPv4 src-addr, dst-addr and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* RFC1027. - -*** Variables *** -| ${tg_to_dut1_ip}= | 10.0.0.100 -| ${dut1_to_tg_ip}= | 10.0.0.1 -| ${prefix_length}= | 24 -| ${lo_ip4_addr}= | 192.168.1.2 -| ${hi_ip4_addr}= | 192.168.1.10 -| ${pass_test_ip}= | 192.168.1.5 -| ${pass_test_lo_ip}= | 192.168.1.2 -| ${pass_test_hi_ip}= | 192.168.1.10 -| ${fail_test_lo_ip}= | 192.168.1.1 -| ${fail_test_hi_ip}= | 192.168.1.11 - -*** Test Cases *** -| TC01: DUT sends ARP reply on behalf of another machine from the IP range -| | [Documentation] -| | ... | [Top] TG-DUT1. -| | ... | [Ref] RFC1027. -| | ... | [Cfg] On DUT1 configure interface IPv4 address and proxy ARP -| | ... | for IP range. -| | ... | [Ver] Make TG send ARP request to DUT1 interface, -| | ... | verify if DUT1 sends correct ARP reply on behalf of machine which -| | ... | IP is in range. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${dut1_to_tg_name}= | Get interface name | ${dut1_node} | ${dut1_to_tg} -| | ${tg_to_dut1_name}= | Get interface name | ${tg_node} | ${tg_to_dut1} -| | When Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Add Proxy ARP | ${dut1_node} | ${lo_ip4_addr} | ${hi_ip4_addr} -| | And Vpp Proxy ARP Interface Enable | ${dut1_node} | ${dut1_to_tg_name} -| | Then Send ARP Request | ${tg_node} | ${tg_to_dut1_name} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut1_ip} | ${pass_test_ip} - -| TC02: DUT sends ARP reply on behalf of another machine from beginning of the IP range -| | [Documentation] -| | ... | [Top] TG-DUT1. -| | ... | [Ref] RFC1027. -| | ... | [Cfg] On DUT1 configure interface IPv4 address and proxy ARP -| | ... | for IP range. -| | ... | [Ver] Make TG send ARP request to DUT1 interface, -| | ... | verify if DUT1 sends correct ARP reply on behalf of machine which -| | ... | IP is from beginning of the IP range. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${dut1_to_tg_name}= | Get interface name | ${dut1_node} | ${dut1_to_tg} -| | ${tg_to_dut1_name}= | Get interface name | ${tg_node} | ${tg_to_dut1} -| | When Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Add Proxy ARP | ${dut1_node} | ${lo_ip4_addr} | ${hi_ip4_addr} -| | And Vpp Proxy ARP Interface Enable | ${dut1_node} | ${dut1_to_tg_name} -| | Then Send ARP Request | ${tg_node} | ${tg_to_dut1_name} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut1_ip} | ${pass_test_lo_ip} - -| TC03: DUT sends ARP reply on behalf of another machine from end of the IP range -| | [Documentation] -| | ... | [Top] TG-DUT1. -| | ... | [Ref] RFC1027. -| | ... | [Cfg] On DUT1 configure interface IPv4 address and proxy ARP -| | ... | for IP range. -| | ... | [Ver] Make TG send ARP request to DUT1 interface, -| | ... | verify if DUT1 sends correct ARP reply on behalf of machine which -| | ... | IP is from end of the IP range. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${dut1_to_tg_name}= | Get interface name | ${dut1_node} | ${dut1_to_tg} -| | ${tg_to_dut1_name}= | Get interface name | ${tg_node} | ${tg_to_dut1} -| | When Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Add Proxy ARP | ${dut1_node} | ${lo_ip4_addr} | ${hi_ip4_addr} -| | And Vpp Proxy ARP Interface Enable | ${dut1_node} | ${dut1_to_tg_name} -| | Then Send ARP Request | ${tg_node} | ${tg_to_dut1_name} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut1_ip} | ${pass_test_hi_ip} - -| TC04: DUT does not send ARP reply on behalf of another machine from below of the IP range -| | [Documentation] -| | ... | [Top] TG-DUT1. -| | ... | [Ref] RFC1027. -| | ... | [Cfg] On DUT1 configure interface IPv4 address and proxy ARP -| | ... | for IP range. -| | ... | [Ver] Make TG send ARP request to DUT1 interface, -| | ... | verify if DUT1 does not send ARP reply on behalf of machine which -| | ... | IP is from below of the IP range. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${dut1_to_tg_name}= | Get interface name | ${dut1_node} | ${dut1_to_tg} -| | ${tg_to_dut1_name}= | Get interface name | ${tg_node} | ${tg_to_dut1} -| | When Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Add Proxy ARP | ${dut1_node} | ${lo_ip4_addr} | ${hi_ip4_addr} -| | And Vpp Proxy ARP Interface Enable | ${dut1_node} | ${dut1_to_tg_name} -| | Then Send ARP Request should failed | ${tg_node} | ${tg_to_dut1_name} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut1_ip} | ${fail_test_lo_ip} - -| TC05: DUT does not send ARP reply on behalf of another machine from above of the IP range -| | [Documentation] -| | ... | [Top] TG-DUT1. -| | ... | [Ref] RFC1027. -| | ... | [Cfg] On DUT1 configure interface IPv4 address and proxy ARP -| | ... | for IP range. -| | ... | [Ver] Make TG send ARP request to DUT1 interface, -| | ... | verify if DUT1 does not send ARP reply on behalf of machine which -| | ... | IP is from above of the IP range. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${dut1_to_tg_name}= | Get interface name | ${dut1_node} | ${dut1_to_tg} -| | ${tg_to_dut1_name}= | Get interface name | ${tg_node} | ${tg_to_dut1} -| | When Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Vpp Add Proxy ARP | ${dut1_node} | ${lo_ip4_addr} | ${hi_ip4_addr} -| | And Vpp Proxy ARP Interface Enable | ${dut1_node} | ${dut1_to_tg_name} -| | Then Send ARP Request should failed | ${tg_node} | ${tg_to_dut1_name} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut1_ip} | ${fail_test_hi_ip} diff --git a/tests/suites/ipv4/ipv4_untagged.robot b/tests/suites/ipv4/ipv4_untagged.robot deleted file mode 100644 index 3b6716d858..0000000000 --- a/tests/suites/ipv4/ipv4_untagged.robot +++ /dev/null @@ -1,144 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Library | resources.libraries.python.NodePath -| Library | resources.libraries.python.Trace -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/ipv4.robot -| Force Tags | HW_ENV -| Suite Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| ... | AND | Update All Interface Data On All Nodes | ${nodes} -| ... | AND | Setup DUT nodes for IPv4 testing -| Test Setup | Clear interface counters on all vpp nodes in topology | ${nodes} -| Test Teardown | Run Keyword If Test Failed | Show packet trace on all DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *IPv4 routing test cases* -| ... -| ... | RFC791 IPv4, RFC826 ARP, RFC792 ICMPv4. Encapsulations: Eth-IPv4-ICMPv4 -| ... | on links TG-DUT1, TG-DUT2, DUT1-DUT2. IPv4 routing tests use circular -| ... | 3-node topology TG - DUT1 - DUT2 - TG with one link between the nodes. -| ... | DUT1 and DUT2 are configured with IPv4 routing and static routes. Test -| ... | ICMPv4 Echo Request packets are sent in both directions by TG on links -| ... | to DUT1 and DUT2 and received on TG links on the other side of circular -| ... | topology. On receive TG verifies packets IPv4 src-addr, dst-addr and MAC -| ... | addresses. - -*** Test Cases *** - -| TC01: DUT replies to ICMPv4 Echo Req to its ingress interface -| | [Documentation] -| | ... | Make TG send ICMPv4 Echo Req to DUT ingress interface. Make TG\ -| | ... | verify ICMP Echo Reply is correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Append Nodes | ${nodes['TG']} | ${nodes['DUT1']} -| | Compute Path -| | ${src_port} | ${src_node}= | First Interface -| | ${dst_port} | ${dst_node}= | Last Interface -| | ${hops}= | Set Variable | ${0} -| | Node "${src_node}" interface "${src_port}" can route to node "${dst_node}" interface "${dst_port}" ${hops} hops away using IPv4 - -| TC02: DUT routes IPv4 to its egress interface -| | [Documentation] -| | ... | Make TG send ICMPv4 Echo Req towards DUT1 egress interface\ -| | ... | connected to DUT2. Make TG verify ICMPv4 Echo Reply is correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Append Nodes | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} -| | Compute Path -| | ${src_port} | ${src_node}= | First Interface -| | ${dst_port} | ${dst_node}= | Last Egress Interface -| | ${hops}= | Set Variable | ${0} -| | Node "${src_node}" interface "${src_port}" can route to node "${dst_node}" interface "${dst_port}" ${hops} hops away using IPv4 - -| TC03: DUT1 routes IPv4 to DUT2 ingress interface -| | [Documentation] -| | ... | Make TG send ICMPv4 Echo Req towards DUT2 ingress interface\ -| | ... | connected to DUT1. Make TG verify ICMPv4 Echo Reply is correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Append Nodes | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} -| | Compute Path -| | ${src_port} | ${src_node}= | First Interface -| | ${dst_port} | ${dst_node}= | Last Interface -| | ${hops}= | Set Variable | ${1} -| | Node "${src_node}" interface "${src_port}" can route to node "${dst_node}" interface "${dst_port}" ${hops} hops away using IPv4 - -| TC04: DUT1 routes IPv4 to DUT2 egress interface -| | [Documentation] -| | ... | Make TG send ICMPv4 Echo Req towards DUT2 egress interface\ -| | ... | connected to TG. Make TG verify ICMPv4 Echo Reply is correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Append Nodes | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | Compute Path -| | ${src_port} | ${src_node}= | First Interface -| | ${dst_port} | ${dst_node}= | Last Egress Interface -| | ${hops}= | Set Variable | ${1} -| | Node "${src_node}" interface "${src_port}" can route to node "${dst_node}" interface "${dst_port}" ${hops} hops away using IPv4 - -| TC05: DUT1 and DUT2 route IPv4 between TG interfaces -| | [Documentation] -| | ... | Make TG send ICMPv4 Echo Req between its interfaces across DUT1\ -| | ... | and DUT2. Make TG verify ICMPv4 Echo Replies are correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Append Nodes | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | Compute Path -| | ${src_port} | ${src_node}= | First Interface -| | ${dst_port} | ${dst_node}= | Last Interface -| | ${hops}= | Set Variable | ${2} -| | Node "${src_node}" interface "${src_port}" can route to node "${dst_node}" interface "${dst_port}" ${hops} hops away using IPv4 -| | ${port} | ${node}= | Next Interface -| | ${port} | ${node}= | Next Interface -| | ${exp_counter_val}= | Set Variable | ${1} -| | Vpp dump stats table | ${node} -| | Check ipv4 interface counter | ${node} | ${port} | ${exp_counter_val} -| | ${port} | ${node}= | Next Interface -| | Check ipv4 interface counter | ${node} | ${port} | ${exp_counter_val} -| | ${port} | ${node}= | Next Interface -| | Vpp dump stats table | ${node} -| | Check ipv4 interface counter | ${node} | ${port} | ${exp_counter_val} -| | ${port} | ${node}= | Next Interface -| | Check ipv4 interface counter | ${node} | ${port} | ${exp_counter_val} - -| TC06: DUT replies to ICMPv4 Echo Reqs with size 64B-to-1500B-incr-1B -| | [Documentation] -| | ... | Make TG send ICMPv4 Echo Reqs to DUT ingress interface,\ -| | ... | incrementating frame size from 64B to 1500B with increment step -| | ... | of 1Byte. Make TG verify ICMP Echo Replies are correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Ipv4 icmp echo sweep | ${nodes['TG']} | ${nodes['DUT1']} | 0 | 1452 | 1 - -| TC07: DUT replies to ICMPv4 Echo Reqs with size 1500B-to-9000B-incr-10B -| | [Documentation] -| | ... | Make TG send ICMPv4 Echo Reqs to DUT ingress interface,\ -| | ... | incrementating frame size from 1500B to 9000B with increment -| | ... | step of 10Bytes. Make TG verify ICMPv4 Echo Replies are correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO -| | [Setup] | Setup MTU on TG based on MTU on DUT | ${nodes['TG']} | ${nodes['DUT1']} -| | [Teardown] | Set default Ethernet MTU on all interfaces on node | ${nodes['TG']} -| | Append Nodes | ${nodes['TG']} | ${nodes['DUT1']} -| | Compute Path -| | ${dut_port} | ${dut_node}= | Last Interface -| | ${mtu}= | Get Interface MTU | ${dut_node} | ${dut_port} -| | # ICMP payload size is frame size minus size of Ehternet header, FCS, -| | # IPv4 header and ICMP header -| | ${end_size}= | Evaluate | ${mtu} - 14 - 4 - 20 - 8 -| | Run Keyword If | ${mtu} > 1518 -| | ... | Ipv4 icmp echo sweep | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | 1452 | ${end_size} | 10 - -| TC08: DUT replies to ARP request -| | [Documentation] -| | ... | Make TG send ARP Request to DUT and verify ARP Reply is correct.\ -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Send ARP request and validate response | ${nodes['TG']} | ${nodes['DUT1']} diff --git a/tests/suites/ipv6/ipv6_ra.robot b/tests/suites/ipv6/ipv6_ra.robot deleted file mode 100644 index cf6d09ef8e..0000000000 --- a/tests/suites/ipv6/ipv6_ra.robot +++ /dev/null @@ -1,56 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/counters.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/ipv6.robot -| Resource | resources/libraries/robot/l2_xconnect.robot -| Resource | resources/libraries/robot/traffic.robot -| Library | resources.libraries.python.Classify.Classify -| Library | resources.libraries.python.Trace - -| Force Tags | HW_ENV | VM_ENV | 3_NODE_SINGLE_LINK_TOPO -| Suite Setup | Run Keywords | Setup all TGs before traffic script -| ... | AND | Update All Interface Data On All Nodes | ${nodes} -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Show packet trace on all DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *IPv6 Router Advertisement test cases* -| ... -| ... | RFC4861 Neighbor Discovery. Encapsulations: Eth-IPv6-RA on links -| ... | TG-DUT1. IPv6 Router Advertisement tests use 3-node topology TG - DUT1 - -| ... | DUT2 - TG with one link between the nodes. DUT1 and DUT2 are configured -| ... | with IPv6 routing and static routes. TG verifies received RA packets. - - -*** Variables *** -| ${dut1_to_tg_ip}= | 3ffe:62::1 -| ${prefix_length}= | 64 - -*** Test Cases *** -| TC01: DUT transmits RA on IPv6 enabled interface -| | [Documentation] -| | ... | On DUT1 configure IPv6 interface on the link to TG. Make TG wait\ -| | ... | for IPv6 Router Advertisement packet to be sent out by DUT1 and -| | ... | verify the received RA packet is correct. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vpp Set If Ipv6 Addr | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | When Vpp RA Send After Interval | ${dut1_node} | ${dut1_to_tg} -| | Then Receive And Check Router Advertisement Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${dut1_to_tg_mac} diff --git a/tests/suites/ipv6/ipv6_untagged.robot b/tests/suites/ipv6/ipv6_untagged.robot deleted file mode 100644 index 8557182a5f..0000000000 --- a/tests/suites/ipv6/ipv6_untagged.robot +++ /dev/null @@ -1,114 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Library | resources.libraries.python.Trace -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/ipv6.robot -| Resource | resources/libraries/robot/counters.robot -| Resource | resources/libraries/robot/default.robot -| Variables | resources/libraries/python/IPv6NodesAddr.py | ${nodes} -| Force Tags | HW_ENV -| Suite Setup | Run Keywords | Setup ipv6 to all dut in topology | ${nodes} | ${nodes_ipv6_addr} -| ... | AND | Vpp nodes ra suppress link layer | ${nodes} -| ... | AND | Vpp nodes setup ipv6 routing | ${nodes} | ${nodes_ipv6_addr} -| ... | AND | Setup all TGs before traffic script -| Test Setup | Clear interface counters on all vpp nodes in topology | ${nodes} -| Test Teardown | Run Keyword If Test Failed | Show packet trace on all DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *IPv6 routing test cases* -| ... -| ... | RFC2460 IPv6, RFC4443 ICMPv6, RFC4861 Neighbor Discovery. -| ... | Encapsulations: Eth-IPv6-ICMPv6 on links TG-DUT1, TG-DUT2, DUT1-DUT2; -| ... | Eth-IPv6-NS/NA on links TG-DUT. IPv6 routing tests use circular 3-node -| ... | topology TG - DUT1 - DUT2 - TG with one link between the nodes. DUT1 and -| ... | DUT2 are configured with IPv6 routing and static routes. Test ICMPv6 -| ... | Echo Request packets are sent in both directions by TG on links to DUT1 -| ... | and DUT2 and received on TG links on the other side of circular -| ... | topology. On receive TG verifies packets IPv6 src-addr, dst-addr and MAC -| ... | addresses. - -*** Test Cases *** -| TC01: DUT replies to ICMPv6 Echo Req to its ingress interface -| | [Documentation] -| | ... | Make TG send ICMPv6 Echo Req to DUT ingress interface. Make TG\ -| | ... | verify ICMPv6 Echo Reply is correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Ipv6 icmp echo | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes_ipv6_addr} - -| TC02: DUT replies to ICMPv6 Echo Req pkt with size 64B-to-1500B-incr-1B -| | [Documentation] -| | ... | Make TG send ICMPv6 Echo Reqs to DUT ingress interface,\ -| | ... | incrementating frame size from 64B to 1500B with increment step -| | ... | of 1Byte. Make TG verify ICMP Echo Replies are correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Ipv6 icmp echo sweep | ${nodes['TG']} | ${nodes['DUT1']} | 0 | 1452 | 1 | ${nodes_ipv6_addr} - -| TC03: DUT replies to ICMPv6 Echo Req pkt with size 1500B-to-9000B-incr-10B -| | [Documentation] -| | ... | Make TG send ICMPv6 Echo Reqs to DUT ingress interface,\ -| | ... | incrementating frame size from 1500B to 9000B with increment -| | ... | step of 10Bytes. Make TG verify ICMPv6 Echo Replies are correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO -| | [Setup] | Setup MTU on TG based on MTU on DUT | ${nodes['TG']} | ${nodes['DUT1']} -| | [Teardown] | Set default Ethernet MTU on all interfaces on node | ${nodes['TG']} -| | Append Nodes | ${nodes['TG']} | ${nodes['DUT1']} -| | Compute Path -| | ${dut_port} | ${dut_node}= | Last Interface -| | ${mtu}= | Get Interface MTU | ${dut_node} | ${dut_port} -| | # ICMPv6 payload size is frame size minus size of Ehternet header, FCS, -| | # IPv6 header and ICMPv6 header -| | ${end_size}= | Evaluate | ${mtu} - 14 - 4 - 40 - 8 -| | Run Keyword If | ${mtu} > 1518 -| | ... | Ipv6 icmp echo sweep | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | 1452 | ${end_size} | 10 | ${nodes_ipv6_addr} - -| TC04: DUT routes to its egress interface -| | [Documentation] -| | ... | Make TG send ICMPv6 Echo Req towards DUT1 egress interface\ -| | ... | connected to DUT2. Make TG verify ICMPv6 Echo Reply is correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Ipv6 tg to dut1 egress | ${nodes['TG']} | ${nodes['DUT1']} | -| | ... | ${nodes['DUT2']} | ${nodes_ipv6_addr} - -| TC05: DUT1 routes to DUT2 ingress interface -| | [Documentation] -| | ... | Make TG send ICMPv6 Echo Req towards DUT2 ingress interface\ -| | ... | connected to DUT1. Make TG verify ICMPv6 Echo Reply is correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Ipv6 tg to dut2 via dut1 | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes_ipv6_addr} - -| TC06: DUT1 routes to DUT2 egress interface -| | [Documentation] -| | ... | Make TG send ICMPv6 Echo Req towards DUT2 egress interface\ -| | ... | connected to TG. Make TG verify ICMPv6 Echo Reply is correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Ipv6 tg to dut2 egress via dut1 | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes_ipv6_addr} - -| TC07: DUT1 and DUT2 route between TG interfaces -| | [Documentation] -| | ... | Make TG send ICMPv6 Echo Req between its interfaces across DUT1\ -| | ... | and DUT2. Make TG verify ICMPv6 Echo Replies are correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Ipv6 tg to tg routed | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} -| | ... | ${nodes_ipv6_addr} - -| TC08: DUT replies to IPv6 Neighbor Solicitation -| | [Documentation] -| | ... | On DUT configure interface IPv6 address in the main routing\ -| | ... | domain. Make TG send Neighbor Solicitation message on the link -| | ... | to DUT and verify DUT Neighbor Advertisement reply is correct. -| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV -| | Ipv6 neighbor solicitation | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes_ipv6_addr} diff --git a/tests/suites/l2_xconnect/l2_xconnect_untagged.robot b/tests/suites/l2_xconnect/l2_xconnect_untagged.robot deleted file mode 100644 index 05da05308d..0000000000 --- a/tests/suites/l2_xconnect/l2_xconnect_untagged.robot +++ /dev/null @@ -1,137 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/l2_xconnect.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/bridge_domain.robot -| Resource | resources/libraries/robot/qemu.robot -| Library | resources.libraries.python.Trace -| Library | resources.libraries.python.NodePath -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | HW_ENV | VM_ENV -| Test Setup | Setup all DUTs before test -| Suite Setup | Setup all TGs before traffic script -| Documentation | *L2 cross-connect test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology with -| ... | single links between nodes; TG=DUT1=DUT2=TG 3-node circular topology -| ... | with double parallel links and TG=DUT=VM 3-node topology with VM and -| ... | double parallel links. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4-ICMPv4 for L2 switching of IPv4; -| ... | Eth-IPv6-ICMPv6 for L2 switching of IPv6 use. Both apply to all links. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 -| ... | cross-connect (L2XC) switching. -| ... | *[Ver] TG verification:* Test ICMPv4 (or ICMPv6) Echo Request packets are -| ... | sent in both directions by TG on links to DUT1 and DUT2; on receive TG -| ... | verifies packets for correctness and their IPv4 (IPv6) src-addr, -| ... | dst-addr and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* - -*** Variables *** -| ${sock1}= | /tmp/sock1 -| ${sock2}= | /tmp/sock2 - -*** Test Cases *** -| TC01: DUT1 and DUT2 with L2XC switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 and \ -| | ... | DUT2 configure L2 cross-connect (L2XC), each with one interface -| | ... | to TG and one Ethernet interface towards the other DUT. [Ver] -| | ... | Make TG send ICMPv4 Echo Req in both directions between two of -| | ... | its interfaces to be switched by DUT1 and DUT2; verify all -| | ... | packets are received. [Ref] -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut1_node} | ${dut1_to_tg} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | When All Vpp Interfaces Ready Wait | ${nodes} -| | Then Send and receive ICMPv4 bidirectionally -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} -| | [Teardown] | Run Keyword | Show vpp trace dump on all DUTs - -| TC02: DUT1 and DUT2 with L2XC switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv6-ICMPv6. [Cfg] On DUT1 and \ -| | ... | DUT2 configure L2 cross-connect (L2XC), each with one interface -| | ... | to TG and one Ethernet interface towards the other DUT. [Ver] -| | ... | Make TG send ICMPv6 Echo Req in both directions between two of -| | ... | its interfaces to be switched by DUT1 and DUT2; verify all -| | ... | packets are received. [Ref] -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And L2 setup xconnect on DUT -| | ... | ${dut1_node} | ${dut1_to_tg} | ${dut1_to_dut2} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | When All Vpp Interfaces Ready Wait | ${nodes} -| | Then Send and receive ICMPv6 bidirectionally -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} -| | [Teardown] | Run Keyword | Show vpp trace dump on all DUTs - -| TC03: DUT with two L2XCs switches ICMPv4 between TG and local VM links -| | [Documentation] -| | ... | [Top] TG=DUT=VM. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT configure \ -| | ... | two L2 cross-connects (L2XC), each with one untagged interface -| | ... | to TG and untagged i/f to local VM over vhost-user. [Ver] Make -| | ... | TG send ICMPv4 Echo Reqs in both directions between two of its -| | ... | i/fs to be switched by DUT to and from VM; verify all packets -| | ... | are received. [Ref] -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO | VPP_VM_ENV -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | When VPP Vhost interfaces for L2BD forwarding are setup | ${dut_node} -| | ... | ${sock1} -| | ... | ${sock2} -| | And L2 Setup Xconnect on DUT | ${dut_node} | ${dut_to_tg_if1} | ${vhost_if1} -| | And L2 Setup Xconnect on DUT | ${dut_node} | ${dut_to_tg_if2} | ${vhost_if2} -| | And VM for Vhost L2BD forwarding is setup | ${dut_node} | ${sock1} -| | ... | ${sock2} -| | Then Send and receive ICMPv4 bidirectionally | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tg_to_dut_if2} -| | [Teardown] | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| | ... | AND | Stop and Clear QEMU | ${dut_node} | ${vm_node} -| | ... | AND | Show vpp trace dump on all DUTs - -| TC04: DUT with two L2XCs switches ICMPv6 between TG and local VM links -| | [Documentation] -| | ... | [Top] TG=DUT=VM. [Enc] Eth-IPv6-ICMPv6. [Cfg] On DUT configure \ -| | ... | two L2 cross-connects (L2XC), each with one untagged i/f to TG -| | ... | and untagged i/f to local VM over vhost-user. [Ver] Make TG send -| | ... | ICMPv6 Echo Reqs in both directions between two of its i/fs to -| | ... | be switched by DUT to and from VM; verify all packets are -| | ... | received. [Ref] -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO | VPP_VM_ENV -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | When VPP Vhost interfaces for L2BD forwarding are setup | ${dut_node} -| | ... | ${sock1} -| | ... | ${sock2} -| | And L2 Setup Xconnect on DUT | ${dut_node} | ${dut_to_tg_if1} | ${vhost_if1} -| | And L2 Setup Xconnect on DUT | ${dut_node} | ${dut_to_tg_if2} | ${vhost_if2} -| | And VM for Vhost L2BD forwarding is setup | ${dut_node} | ${sock1} -| | ... | ${sock2} -| | Then Send and receive ICMPv6 bidirectionally | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tg_to_dut_if2} -| | [Teardown] | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| | ... | AND | Stop and Clear QEMU | ${dut_node} | ${vm_node} -| | ... | AND | Show vpp trace dump on all DUTs - diff --git a/tests/suites/lisp/lisp_api_untagged.robot b/tests/suites/lisp/lisp_api_untagged.robot deleted file mode 100644 index f92a92d435..0000000000 --- a/tests/suites/lisp/lisp_api_untagged.robot +++ /dev/null @@ -1,119 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Library | resources.libraries.python.topology.Topology -| Library | resources.libraries.python.NodePath -| Library | resources.libraries.python.Trace -| Library | resources.libraries.python.LispUtil -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/lisp/lisp_api.robot -# import additional Lisp settings from resource file -| Variables | resources/test_data/lisp/api/lisp_api_resources.py -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | 3_NODE_DOUBLE_LINK_TOPO -| ... | VM_ENV | HW_ENV -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| ... | AND | Update All Interface Data On All Nodes | ${nodes} -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *LISP API test cases* -| ... -| ... | *[Top] Network Topologies:* DUT1 1-node topology. -| ... | *[Enc] Packet Encapsulations:* None. -| ... | *[Cfg] DUT configuration:* DUT1 gets configured with all LISP -| ... | parameters. -| ... | *[Ver] Verification:* DUT1 operational data gets verified following -| ... | configuration. -| ... | *[Ref] Applicable standard specifications:* RFC6830. - -*** Variables *** -| ${locator_set_num}= | 3 - -*** Test Cases *** - -| TC01: DUT can enable and disable LISP -| | [Documentation] -| | ... | [Top] DUT1. [Enc] None. [Cfg1] Test LISP enable/disable API; On \ -| | ... | DUT1 enable LISP. [Ver1] Check DUT1 if LISP is enabled. [Cfg2] -| | ... | Then disable LISP. [Ver2] Check DUT1 if LISP is disabled. [Ref] -| | ... | RFC6830. -| | [Tags] | EXPECTED_FAILING -| | When Enable lisp | ${nodes['DUT1']} -| | Then Check if lisp is enabled | ${nodes['DUT1']} | ${lisp_status} -| | When Disable lisp | ${nodes['DUT1']} -| | Then Check if lisp is disabled | ${nodes['DUT1']} | ${lisp_status} - -| TC02: DUT can add and delete locator_set -| | [Documentation] -| | ... | [Top] DUT1. [Enc] None. [Cfg1] Test LISP locator_set API; on \ -| | ... | DUT1 configure locator_set and locator. [Ver1] Check DUT1 -| | ... | configured locator_set and locator are correct. [Cfg2] Then -| | ... | remove locator_set and locator. [Ver2] check DUT1 locator_set -| | ... | and locator are removed. [Ref] RFC6830. -| | [Tags] | EXPECTED_FAILING -| | Given Lisp locator_set data is prepared -| | ... | ${nodes['DUT1']} | ${locator_set_num} -| | And Enable lisp | ${nodes['DUT1']} -| | When Lisp locator_set data is set | ${nodes['DUT1']} -| | Then Lisp locator_set is set correctly | ${nodes['DUT1']} -| | When Delete all lisp locator_set from VPP | ${nodes['DUT1']} -| | Then Lisp locator_set should be unset | ${nodes['DUT1']} - -| TC03: DUT can add, reset and delete locator_set -| | [Documentation] -| | ... | [Top] DUT1. [Enc] None. [Cfg1] Test LISP locator_set API; on \ -| | ... | DUT1 configure locator_set and locator. [Ver1] Check DUT1 -| | ... | locator_set and locator are correct. [Cfg2] Then reset -| | ... | locator_set and set it again. [Ver2] Check DUT1 locator_set and -| | ... | locator are correct. [Cfg3] Then remove locator_set and locator. -| | ... | [Ver3] Check DUT1 all locator_set and locators are removed. -| | ... | [Ref] RFC6830. -| | [Tags] | EXPECTED_FAILING -| | Given Lisp locator_set data use for test reset locator_set are prepared -| | ... | ${nodes['DUT1']} | ${locator_set_num} -| | And Enable lisp | ${nodes['DUT1']} -| | When Lisp locator_set data is set | ${nodes['DUT1']} -| | Then Lisp locator_set is set correctly | ${nodes['DUT1']} -| | When Delete all lisp locator_set from VPP | ${nodes['DUT1']} -| | Then Lisp locator_set should be unset | ${nodes['DUT1']} - -| TC04: DUT can add and delete eid address -| | [Documentation] -| | ... | [Top] DUT1. [Enc] None. [Cfg1] Test LISP eid API; on DUT1 \ -| | ... | configure LISP eid IP address. [Ver1] Check DUT1 configured data -| | ... | is correct. [Cfg2] Remove configured data. [Ver2] Check DUT1 all -| | ... | eid IP addresses are removed. [Ref] RFC6830. -| | [Tags] | EXPECTED_FAILING -| | Given Enable lisp | ${nodes['DUT1']} -| | When Lisp eid address is set | ${nodes['DUT1']} | ${eid_table} -| | Then Lisp eid address is set correctly to eid table | ${nodes['DUT1']} -| | ... | ${eid_table} -| | When Delete all lisp eid address from VPP | ${nodes['DUT1']} | ${eid_table} -| | Then Lisp eid table should be empty | ${nodes['DUT1']} - -| TC05: DUT can add and delete LISP map resolver address -| | [Documentation] -| | ... | [Top] DUT1. [Enc] None. [Cfg1] Test LISP map resolver address \ -| | ... | API; on DUT1 configure LISP map resolver address. [Ver1] Check -| | ... | DUT1 configured data is correct. [Cfg2] Remove configured data. -| | ... | [Ver2] Check DUT1 all map resolver addresses are removed. [Ref] -| | ... | RFC6830. -| | Given Enable lisp | ${nodes['DUT1']} -| | When Lisp map resolver address is set | ${nodes['DUT1']} | ${map_resolver} -| | Then Lisp map resolver address is set correctly | ${nodes['DUT1']} -| | ... | ${map_resolver} -| | When Delete all lisp map resolver address from VPP | ${nodes['DUT1']} -| | ... | ${map_resolver} -| | Then Lip map resolver address should be empty | ${nodes['DUT1']} diff --git a/tests/suites/lisp/lisp_dataplane_untagged.robot b/tests/suites/lisp/lisp_dataplane_untagged.robot deleted file mode 100644 index 0808d366c6..0000000000 --- a/tests/suites/lisp/lisp_dataplane_untagged.robot +++ /dev/null @@ -1,277 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/ipv4.robot -| Resource | resources/libraries/robot/traffic.robot -| Resource | resources/libraries/robot/lisp/lisp_static_mapping.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Library | resources.libraries.python.IPUtil -| Library | resources.libraries.python.Trace -| Library | resources.libraries.python.IPv4Util.IPv4Util -# import additional Lisp settings from resource file -| Variables | resources/test_data/lisp/static_mapping/lisp_static_mapping.py -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | 3_NODE_DOUBLE_LINK_TOPO -| ... | VM_ENV | HW_ENV -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| ... | AND | Update All Interface Data On All Nodes | ${nodes} -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *LISP static remote mapping test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4-LISP-IPv4-ICMPv4 on DUT1-DUT2, -| ... | Eth-IPv4-ICMPv4 on TG-DUTn for IPv4 routing over LISPoIPv4 tunnel; -| ... | Eth-IPv6-LISP-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUTn for -| ... | IPv6 routing over LISPoIPv6 tunnel; Eth-IPv6-LISP-IPv4-ICMPv4 on -| ... | DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn for IPv4 routing over LISPoIPv6 -| ... | tunnel; Eth-IPv4-LISP-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on -| ... | TG-DUTn for IPv6 routing over LISPoIPv4 tunnel. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with IPv4 (IPv6) -| ... | routing and static routes. LISPoIPv4 (oIPv6) tunnel is configured -| ... | between DUT1 and DUT2. -| ... | *[Ver] TG verification:* Test ICMPv4 (or ICMPv6) Echo Request packets -| ... | are sent in both directions by TG on links to DUT1 and DUT2; on receive -| ... | TG verifies packets for correctness and their IPv4 (IPv6) src-addr, -| ... | dst-addr and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* RFC6830. - -*** Test Cases *** -| TC01: DUT1 and DUT2 route IPv4 bidirectionally over LISPoIPv4 tunnel -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-LISP-IPv4-ICMPv4 on \ -| | ... | DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 -| | ... | configure IPv4 LISP remote static mappings. [Ver] Make TG send -| | ... | ICMPv4 Echo Req between its interfaces across both DUTs and LISP -| | ... | tunnel between them; verify IPv4 headers on received packets are -| | ... | correct. [Ref] RFC6830. -| | [Tags] | EXPECTED_FAILING -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And IP addresses are set on interfaces -| | ... | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${dut1_to_dut2_ip4} | ${prefix4} -| | ... | ${dut1_node} | ${dut1_to_tg} -| | ... | ${dut1_to_tg_ip4} | ${prefix4} -| | ... | ${dut2_node} | ${dut2_to_dut1} -| | ... | ${dut2_to_dut1_ip4} | ${prefix4} -| | ... | ${dut2_node} | ${dut2_to_tg} -| | ... | ${dut2_to_tg_ip4} | ${prefix4} -| | And VPP IP Probe | ${dut1_node} | ${dut1_to_dut2} | ${dut2_to_dut1_ip4} -| | And VPP IP Probe | ${dut2_node} | ${dut2_to_dut1} | ${dut1_to_dut2_ip4} -| | And Add Arp On Dut | ${dut2_node} | ${dut2_to_tg} | ${tg2_ip4} -| | ... | ${tg_to_dut2_mac} -| | And Add Arp On Dut | ${dut1_node} | ${dut1_to_tg} | ${tg1_ip4} -| | ... | ${tg_to_dut1_mac} -| | When Set up Lisp topology -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${NONE} -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${NONE} -| | ... | ${duts_locator_set} | ${dut1_ip4_eid} | ${dut2_ip4_eid} -| | ... | ${dut1_ip4_static_mapping} | ${dut2_ip4_static_mapping} -| | Then Send Packet And Check Headers -| | ... | ${tg_node} | ${tg1_ip4} | ${tg2_ip4} -| | ... | ${tg_to_dut1} | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut2} | ${dut2_to_tg_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers -| | ... | ${tg_node} | ${tg2_ip4} | ${tg1_ip4} -| | ... | ${tg_to_dut2} | ${tg_to_dut2_mac} | ${dut2_to_tg_mac} -| | ... | ${tg_to_dut1} | ${dut1_to_tg_mac} | ${tg_to_dut1_mac} - -| TC02: DUT1 and DUT2 route IPv6 bidirectionally over LISPoIPv6 tunnel -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv6-LISP-IPv6-ICMPv6 on \ -| | ... | DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUTn. [Cfg] On DUT1 and DUT2 -| | ... | configure IPv6 LISP remote static mappings. [Ver] Make TG send -| | ... | ICMPv6 Echo Req between its interfaces across both DUTs and LISP -| | ... | tunnel between them; verify IPv4 headers on received packets are -| | ... | correct. [Ref] RFC6830. -| | [Tags] | EXPECTED_FAILING -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And IP addresses are set on interfaces -| | ... | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${dut1_to_dut2_ip6} | ${prefix6} -| | ... | ${dut1_node} | ${dut1_to_tg} -| | ... | ${dut1_to_tg_ip6} | ${prefix6} -| | ... | ${dut2_node} | ${dut2_to_dut1} -| | ... | ${dut2_to_dut1_ip6} | ${prefix6} -| | ... | ${dut2_node} | ${dut2_to_tg} -| | ... | ${dut2_to_tg_ip6} | ${prefix6} -| | And VPP IP Probe | ${dut1_node} | ${dut1_to_dut2} | ${dut2_to_dut1_ip6} -| | And VPP IP Probe | ${dut2_node} | ${dut2_to_dut1} | ${dut1_to_dut2_ip6} -| | And Add Arp On Dut | ${dut2_node} | ${dut2_to_tg} | ${tg2_ip6} -| | ... | ${tg_to_dut2_mac} -| | And Add Arp On Dut | ${dut1_node} | ${dut1_to_tg} | ${tg1_ip6} -| | ... | ${tg_to_dut1_mac} -| | When Set up Lisp topology -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${NONE} -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${NONE} -| | ... | ${duts_locator_set} | ${dut1_ip6_eid} | ${dut2_ip6_eid} -| | ... | ${dut1_ip6_static_mapping} | ${dut2_ip6_static_mapping} -| | Then Send Packet And Check Headers -| | ... | ${tg_node} | ${tg1_ip6} | ${tg2_ip6} -| | ... | ${tg_to_dut1} | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut2} | ${dut2_to_tg_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers -| | ... | ${tg_node} | ${tg2_ip6} | ${tg1_ip6} -| | ... | ${tg_to_dut2} | ${tg_to_dut2_mac} | ${dut2_to_tg_mac} -| | ... | ${tg_to_dut1} | ${dut1_to_tg_mac} | ${tg_to_dut1_mac} - -| TC03: DUT1 and DUT2 route IPv4 bidirectionally over LISPoIPv6 tunnel -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv6-LISP-IPv4-ICMPv4 on \ -| | ... | DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 -| | ... | configure IPv6 LISP remote static mappings. [Ver] Make TG send -| | ... | ICMPv4 Echo Req between its interfaces across both DUTs and LISP -| | ... | tunnel between them; verify IPv4 headers on received packets are -| | ... | correct. [Ref] RFC6830. -| | [Tags] | EXPECTED_FAILING -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And IP addresses are set on interfaces -| | ... | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${dut1_to_dut2_ip4o6} | ${dut_prefix4o6} -| | ... | ${dut1_node} | ${dut1_to_tg} -| | ... | ${dut1_to_tg_ip4o6} | ${tg_prefix4o6} -| | ... | ${dut2_node} | ${dut2_to_dut1} -| | ... | ${dut2_to_dut1_ip4o6} | ${dut_prefix4o6} -| | ... | ${dut2_node} | ${dut2_to_tg} -| | ... | ${dut2_to_tg_ip4o6} | ${tg_prefix4o6} -| | And VPP IP Probe | ${dut1_node} | ${dut1_to_dut2} | ${dut2_to_dut1_ip4o6} -| | And VPP IP Probe | ${dut2_node} | ${dut2_to_dut1} | ${dut1_to_dut2_ip4o6} -| | And Add Arp On Dut | ${dut2_node} | ${dut2_to_tg} | ${tg2_ip4o6} -| | ... | ${tg_to_dut2_mac} -| | And Add Arp On Dut | ${dut1_node} | ${dut1_to_tg} | ${tg1_ip4o6} -| | ... | ${tg_to_dut1_mac} -| | When Set up Lisp topology -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${NONE} -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${NONE} -| | ... | ${duts_locator_set} | ${dut1_ip4o6_eid} | ${dut2_ip4o6_eid} -| | ... | ${dut1_ip4o6_static_mapping} | ${dut2_ip4o6_static_mapping} -| | Then Send Packet And Check Headers -| | ... | ${tg_node} | ${tg1_ip4o6} | ${tg2_ip4o6} -| | ... | ${tg_to_dut1} | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut2} | ${dut2_to_tg_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers -| | ... | ${tg_node} | ${tg2_ip4o6} | ${tg1_ip4o6} -| | ... | ${tg_to_dut2} | ${tg_to_dut2_mac} | ${dut2_to_tg_mac} -| | ... | ${tg_to_dut1} | ${dut1_to_tg_mac} | ${tg_to_dut1_mac} - -| TC04: DUT1 and DUT2 route IPv6 bidirectionally over LISPoIPv4 tunnel -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-LISP-IPv6-ICMPv6 on \ -| | ... | DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUTn. [Cfg] On DUT1 and DUT2 -| | ... | configure IPv4 LISP remote static mappings. [Ver] Make TG send -| | ... | ICMPv6 Echo Req between its interfaces across both DUTs and LISP -| | ... | tunnel between them; verify IPv4 headers on received packets are -| | ... | correct. [Ref] RFC6830. -| | [Tags] | EXPECTED_FAILING -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And IP addresses are set on interfaces -| | ... | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${dut1_to_dut2_ip6o4} | ${dut_prefix6o4} -| | ... | ${dut1_node} | ${dut1_to_tg} -| | ... | ${dut1_to_tg_ip6o4} | ${tg_prefix6o4} -| | ... | ${dut2_node} | ${dut2_to_dut1} -| | ... | ${dut2_to_dut1_ip6o4} | ${dut_prefix6o4} -| | ... | ${dut2_node} | ${dut2_to_tg} -| | ... | ${dut2_to_tg_ip6o4} | ${tg_prefix6o4} -| | And VPP IP Probe | ${dut1_node} | ${dut1_to_dut2} | ${dut2_to_dut1_ip6o4} -| | And VPP IP Probe | ${dut2_node} | ${dut2_to_dut1} | ${dut1_to_dut2_ip6o4} -| | And Add Arp On Dut | ${dut2_node} | ${dut2_to_tg} | ${tg2_ip6o4} -| | ... | ${tg_to_dut2_mac} -| | And Add Arp On Dut | ${dut1_node} | ${dut1_to_tg} | ${tg1_ip6o4} -| | ... | ${tg_to_dut1_mac} -| | When Set up Lisp topology -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${NONE} -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${NONE} -| | ... | ${duts_locator_set} | ${dut1_ip6o4_eid} | ${dut2_ip6o4_eid} -| | ... | ${dut1_ip6o4_static_mapping} | ${dut2_ip6o4_static_mapping} -| | Then Send Packet And Check Headers -| | ... | ${tg_node} | ${tg1_ip6o4} | ${tg2_ip6o4} -| | ... | ${tg_to_dut1} | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut2} | ${dut2_to_tg_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers -| | ... | ${tg_node} | ${tg2_ip6o4} | ${tg1_ip6o4} -| | ... | ${tg_to_dut2} | ${tg_to_dut2_mac} | ${dut2_to_tg_mac} -| | ... | ${tg_to_dut1} | ${dut1_to_tg_mac} | ${tg_to_dut1_mac} - -| TC05: DUT1 and DUT2 route IPv4 over LISPoIPv4 tunnel after disable-enable -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-LISP-IPv4-ICMPv4 on \ -| | ... | DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg1] On DUT1 and DUT2 -| | ... | configure IPv4 LISP remote static mappings. [Ver1] Make TG send -| | ... | ICMPv4 Echo Req between its interfaces across both DUTs and LISP -| | ... | tunnel between them; verify IPv4 headers on received packets are -| | ... | correct. [Cfg2] Disable LISP. [Ver2] verify packets are not -| | ... | received via LISP tunnel. [Cfg3] Re-enable LISP. [Ver3] verify -| | ... | packets are received again via LISP tunnel. [Ref] RFC6830. -| | [Tags] | EXPECTED_FAILING -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And IP addresses are set on interfaces -| | ... | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${dut1_to_dut2_ip4} | ${prefix4} -| | ... | ${dut1_node} | ${dut1_to_tg} -| | ... | ${dut1_to_tg_ip4} | ${prefix4} -| | ... | ${dut2_node} | ${dut2_to_dut1} -| | ... | ${dut2_to_dut1_ip4} | ${prefix4} -| | ... | ${dut2_node} | ${dut2_to_tg} -| | ... | ${dut2_to_tg_ip4} | ${prefix4} -| | And VPP IP Probe | ${dut1_node} | ${dut1_to_dut2} | ${dut2_to_dut1_ip4} -| | And VPP IP Probe | ${dut2_node} | ${dut2_to_dut1} | ${dut1_to_dut2_ip4} -| | And Add Arp On Dut | ${dut2_node} | ${dut2_to_tg} | ${tg2_ip4} -| | ... | ${tg_to_dut2_mac} -| | And Add Arp On Dut | ${dut1_node} | ${dut1_to_tg} | ${tg1_ip4} -| | ... | ${tg_to_dut1_mac} -| | When Set up Lisp topology -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${NONE} -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${NONE} -| | ... | ${duts_locator_set} | ${dut1_ip4_eid} | ${dut2_ip4_eid} -| | ... | ${dut1_ip4_static_mapping} | ${dut2_ip4_static_mapping} -| | Then Send Packet And Check Headers -| | ... | ${tg_node} | ${tg1_ip4} | ${tg2_ip4} -| | ... | ${tg_to_dut1} | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut2} | ${dut2_to_tg_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers -| | ... | ${tg_node} | ${tg2_ip4} | ${tg1_ip4} -| | ... | ${tg_to_dut2} | ${tg_to_dut2_mac} | ${dut2_to_tg_mac} -| | ... | ${tg_to_dut1} | ${dut1_to_tg_mac} | ${tg_to_dut1_mac} -| | When Disable Lisp | ${dut1_node} -| | Then Send packet from Port to Port should failed -| | ... | ${tg_node} | ${tg1_ip4} | ${tg2_ip4} -| | ... | ${tg_to_dut1} | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut2} | ${dut2_to_tg_mac} | ${tg_to_dut2_mac} -| | And Send packet from Port to Port should failed -| | ... | ${tg_node} | ${tg2_ip4} | ${tg1_ip4} -| | ... | ${tg_to_dut2} | ${tg_to_dut2_mac} | ${dut2_to_tg_mac} -| | ... | ${tg_to_dut1} | ${dut1_to_tg_mac} | ${tg_to_dut1_mac} -| | When Enable Lisp | ${dut1_node} -| | Then Wait Until Keyword Succeeds | 2x | 5s | Send Packet And Check Headers -| | ... | ${tg_node} | ${tg1_ip4} | ${tg2_ip4} -| | ... | ${tg_to_dut1} | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} -| | ... | ${tg_to_dut2} | ${dut2_to_tg_mac} | ${tg_to_dut2_mac} -| | And Wait Until Keyword Succeeds | 2x | 5s | Send Packet And Check Headers -| | ... | ${tg_node} | ${tg2_ip4} | ${tg1_ip4} -| | ... | ${tg_to_dut2} | ${tg_to_dut2_mac} | ${dut2_to_tg_mac} -| | ... | ${tg_to_dut1} | ${dut1_to_tg_mac} | ${tg_to_dut1_mac} diff --git a/tests/suites/performance/Long_Bridge_Domain_Intel-X520-DA2.robot b/tests/suites/performance/Long_Bridge_Domain_Intel-X520-DA2.robot deleted file mode 100644 index 00f301e51b..0000000000 --- a/tests/suites/performance/Long_Bridge_Domain_Intel-X520-DA2.robot +++ /dev/null @@ -1,455 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Library | resources.libraries.python.NodePath -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_LONG -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L2 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *RFC2544: Pkt throughput L2BD test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for L2 switching of IPv4. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 bridge- -| ... | domain and MAC learning enabled. DUT1 and DUT2 tested with 2p10GE NIC -| ... | X520 Niantic by Intel. -| ... | *[Ver] TG verification:* TG finds and reports throughput NDR (Non Drop -| ... | Rate) with zero packet loss tolerance or throughput PDR (Partial Drop -| ... | Rate) with non-zero packet loss tolerance (LT) expressed in percentage -| ... | of packets transmitted. NDR and PDR are discovered for different -| ... | Ethernet L2 frame sizes using either binary search or linear search -| ... | algorithms with configured starting rate and final step that determines -| ... | throughput measurement resolution. Test packets are generated by TG on -| ... | links to DUTs. TG traffic profile contains two L3 flow-groups -| ... | (flow-group per direction, 253 flows per flow-group) with all packets -| ... | containing Ethernet header, IPv4 header with IP protocol=61 and static -| ... | payload. MAC addresses are matching MAC addresses of the TG node -| ... | interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: 64B NDR binary search - DUT L2BD - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC02: 64B PDR binary search - DUT L2BD - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC03: 1518B NDR binary search - DUT L2BD - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC04: 1518B PDR binary search - DUT L2BD - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC05: 9000B NDR binary search - DUT L2BD - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC06: 9000B PDR binary search - DUT L2BD - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC07: 64B NDR binary search - DUT L2BD - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC08: 64B PDR binary search - DUT L2BD - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC09: 1518B NDR binary search - DUT L2BD - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC10: 1518B PDR binary search - DUT L2BD - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC11: 9000B NDR binary search - DUT L2BD - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC12: 9000B PDR binary search - DUT L2BD - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC13: 64B NDR binary search - DUT L2BD - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC14: 64B PDR binary search - DUT L2BD - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC15: 1518B NDR binary search - DUT L2BD - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC16: 1518B PDR binary search - DUT L2BD - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC17: 9000B NDR binary search - DUT L2BD - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC18: 9000B PDR binary search - DUT L2BD - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-bridge -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - diff --git a/tests/suites/performance/Long_IPv4_Cop_Intel-X520-DA2.robot b/tests/suites/performance/Long_IPv4_Cop_Intel-X520-DA2.robot deleted file mode 100644 index 802ec7b76d..0000000000 --- a/tests/suites/performance/Long_IPv4_Cop_Intel-X520-DA2.robot +++ /dev/null @@ -1,584 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Library | resources.libraries.python.Cop -| Library | resources.libraries.python.IPv4Setup.Dut | ${nodes['DUT1']} | WITH NAME | dut1_v4 -| Library | resources.libraries.python.IPv4Setup.Dut | ${nodes['DUT2']} | WITH NAME | dut2_v4 -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_LONG -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L3 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *RFC2544: Pkt throughput IPv4 whitelist test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for IPv4 routing. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with IPv4 -| ... | routing, two static IPv4 /24 routes and IPv4 COP security whitelist -| ... | ingress /24 filter entries applied on links TG - DUT1 and DUT2 - TG. -| ... | DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* TG finds and reports throughput NDR (Non Drop -| ... | Rate) with zero packet loss tolerance or throughput PDR (Partial Drop -| ... | Rate) with non-zero packet loss tolerance (LT) expressed in percentage -| ... | of packets transmitted. NDR and PDR are discovered for different -| ... | Ethernet L2 frame sizes using either binary search or linear search -| ... | algorithms with configured starting rate and final step that determines -| ... | throughput measurement resolution. Test packets are generated by TG on -| ... | links to DUTs. TG traffic profile contains two L3 flow-groups -| ... | (flow-group per direction, 253 flows per flow-group) with all packets -| ... | containing Ethernet header, IPv4 header with IP protocol=61 and static -| ... | payload. MAC addresses are matching MAC addresses of the TG node -| ... | interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: 64B NDR binary search - DUT IPv4 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 64 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC02: 64B PDR binary search - DUT IPv4 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 64 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC03: 1518B NDR binary search - DUT IPv4 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC04: 1518B PDR binary search - DUT IPv4 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC05: 9000B NDR binary search - DUT IPv4 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC06: 9000B PDR binary search - DUT IPv4 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC07: 64B NDR binary search - DUT IPv4 whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 64 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC08: 64B PDR binary search - DUT IPv4 whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 64 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC09: 1518B NDR binary search - DUT IPv4 whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC10: 1518B PDR binary search - DUT IPv4 whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC11: 9000B NDR binary search - DUT IPv4 whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC12: 9000B PDR binary search - DUT IPv4 whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC13: 64B NDR binary search - DUT IPv4 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR -| | ... | for 64 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC14: 64B PDR binary search - DUT IPv4 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR -| | ... | for 64 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC15: 1518B NDR binary search - DUT IPv4 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC16: 1518B PDR binary search - DUT IPv4 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC17: 9000B NDR binary search - DUT IPv4 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC18: 9000B PDR binary search - DUT IPv4 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - diff --git a/tests/suites/performance/Long_IPv4_Intel-X520-DA2.robot b/tests/suites/performance/Long_IPv4_Intel-X520-DA2.robot deleted file mode 100644 index 749ee138a0..0000000000 --- a/tests/suites/performance/Long_IPv4_Intel-X520-DA2.robot +++ /dev/null @@ -1,458 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Library | resources.libraries.python.topology.Topology -| Library | resources.libraries.python.NodePath -| Library | resources.libraries.python.InterfaceUtil -| Library | resources.libraries.python.IPv4Setup.Dut | ${nodes['DUT1']} | WITH NAME | dut1_v4 -| Library | resources.libraries.python.IPv4Setup.Dut | ${nodes['DUT2']} | WITH NAME | dut2_v4 -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_LONG -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L3 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *RFC2544: Pkt throughput IPv4 routing test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for IPv4 routing. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with IPv4 -| ... | routing and two static IPv4 /24 route entries. DUT1 and DUT2 tested with -| ... | 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* TG finds and reports throughput NDR (Non Drop -| ... | Rate) with zero packet loss tolerance or throughput PDR (Partial Drop -| ... | Rate) with non-zero packet loss tolerance (LT) expressed in percentage -| ... | of packets transmitted. NDR and PDR are discovered for different -| ... | Ethernet L2 frame sizes using either binary search or linear search -| ... | algorithms with configured starting rate and final step that determines -| ... | throughput measurement resolution. Test packets are generated by TG on -| ... | links to DUTs. TG traffic profile contains two L3 flow-groups -| ... | (flow-group per direction, 253 flows per flow-group) with all packets -| ... | containing Ethernet header, IPv4 header with IP protocol=61 and static -| ... | payload. MAC addresses are matching MAC addresses of the TG node -| ... | interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: 64B NDR binary search - DUT IPv4 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC02: 64B PDR binary search - DUT IPv4 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC03: 1518B NDR binary search - DUT IPv4 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC04: 1518B PDR binary search - DUT IPv4 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC05: 9000B NDR binary search - DUT IPv4 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC06: 9000B PDR binary search - DUT IPv4 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC07: 64B NDR binary search - DUT IPv4 - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC08: 64B PDR binary search - DUT IPv4 - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC09: 1518B NDR binary search - DUT IPv4 - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC10: 1518B PDR binary search - DUT IPv4 - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC11: 9000B NDR binary search - DUT IPv4 - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC12: 9000B PDR binary search - DUT IPv4 - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC13: 64B NDR binary search - DUT IPv4 - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC14: 64B PDR binary search - DUT IPv4 - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC15: 1518B NDR binary search - DUT IPv4 - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC16: 1518B PDR binary search - DUT IPv4 - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC17: 9000B NDR binary search - DUT IPv4 - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC18: 9000B PDR binary search - DUT IPv4 - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} diff --git a/tests/suites/performance/Long_IPv4_iAcl_Intel-X520-DA2.robot b/tests/suites/performance/Long_IPv4_iAcl_Intel-X520-DA2.robot deleted file mode 100644 index acf624514b..0000000000 --- a/tests/suites/performance/Long_IPv4_iAcl_Intel-X520-DA2.robot +++ /dev/null @@ -1,727 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Library | resources.libraries.python.Classify.Classify -| Library | resources.libraries.python.IPv4Setup.Dut | ${nodes['DUT1']} | WITH NAME | dut1_v4 -| Library | resources.libraries.python.IPv4Setup.Dut | ${nodes['DUT2']} | WITH NAME | dut2_v4 -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_LONG -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L3 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *RFC2544: Pkt throughput IPv4 iAcl whitelist test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for IPv4 routing. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with IPv4 -| ... | routing, two static IPv4 /24 routes and IPv4 iAcl security whitelist -| ... | ingress /24 filter entries applied on links TG - DUT1 and DUT2 - TG. -| ... | DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* TG finds and reports throughput NDR (Non Drop -| ... | Rate) with zero packet loss tolerance or throughput PDR (Partial Drop -| ... | Rate) with non-zero packet loss tolerance (LT) expressed in percentage -| ... | of packets transmitted. NDR and PDR are discovered for different -| ... | Ethernet L2 frame sizes using either binary search or linear search -| ... | algorithms with configured starting rate and final step that determines -| ... | throughput measurement resolution. Test packets are generated by TG on -| ... | links to DUTs. TG traffic profile contains two L3 flow-groups -| ... | (flow-group per direction, 253 flows per flow-group) with all packets -| ... | containing Ethernet header, IPv4 header with IP protocol=61 and -| ... | generated payload. MAC addresses are matching MAC addresses of the TG -| ... | node interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: 64B NDR binary search - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 64 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC02: 64B PDR binary search - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 64 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC03: 1518B NDR binary search - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC04: 1518B PDR binary search - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC05: 9000B NDR binary search - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC06: 9000B PDR binary search - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC07: 64B NDR binary search - DUT IPv4 iAcl whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 64 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC08: 64B PDR binary search - DUT IPv4 iAcl whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 64 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC09: 1518B NDR binary search - DUT IPv4 iAcl whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC10: 1518B PDR binary search - DUT IPv4 iAcl whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC11: 9000B NDR binary search - DUT IPv4 iAcl whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC12: 9000B PDR binary search - DUT IPv4 iAcl whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC13: 64B NDR binary search - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR -| | ... | for 64 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC14: 64B PDR binary search - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR -| | ... | for 64 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC15: 1518B NDR binary search - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC16: 1518B PDR binary search - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC17: 9000B NDR binary search - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC18: 9000B PDR binary search - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv4 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} diff --git a/tests/suites/performance/Long_IPv6_Cop_Intel-X520-DA2.robot b/tests/suites/performance/Long_IPv6_Cop_Intel-X520-DA2.robot deleted file mode 100644 index 8f80e738b3..0000000000 --- a/tests/suites/performance/Long_IPv6_Cop_Intel-X520-DA2.robot +++ /dev/null @@ -1,581 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Library | resources.libraries.python.Cop -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_LONG -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L3 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *RFC2544: Pkt throughput IPv6 whitelist test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv6 for IPv6 routing. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with IPv6 -| ... | routing, two static IPv6 /64 routes and IPv6 COP security whitelist -| ... | ingress /64 filter entries applied on links TG - DUT1 and DUT2 - TG. -| ... | DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* TG finds and reports throughput NDR (Non Drop -| ... | Rate) with zero packet loss tolerance or throughput PDR (Partial Drop -| ... | Rate) with non-zero packet loss tolerance (LT) expressed in percentage -| ... | of packets transmitted. NDR and PDR are discovered for different -| ... | Ethernet L2 frame sizes using either binary search or linear search -| ... | algorithms with configured starting rate and final step that determines -| ... | throughput measurement resolution. Test packets are generated by TG on -| ... | links to DUTs. TG traffic profile contains two L3 flow-groups -| ... | (flow-group per direction, 253 flows per flow-group) with all packets -| ... | containing Ethernet header, IPv6 header and static -| ... | payload. MAC addresses are matching MAC addresses of the TG node -| ... | interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: 78B NDR binary search - DUT IPv6 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 78 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 78 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_78B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC02: 78B PDR binary search - DUT IPv6 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 78 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 78 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_78B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC03: 1518B NDR binary search - DUT IPv6 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC04: 1518B PDR binary search - DUT IPv6 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC05: 9000B NDR binary search - DUT IPv6 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC06: 9000B PDR binary search - DUT IPv6 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC07: 78B NDR binary search - DUT IPv6 whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 78 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 78 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_78B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC08: 78B PDR binary search - DUT IPv6 whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 78 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 78 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_78B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC09: 1518B NDR binary search - DUT IPv6 whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC10: 1518B PDR binary search - DUT IPv6 whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC11: 9000B NDR binary search - DUT IPv6 whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC12: 9000B PDR binary search - DUT IPv6 whitelist - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC13: 78B NDR binary search - DUT IPv6 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR -| | ... | for 78 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 78 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_78B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC14: 78B PDR binary search - DUT IPv6 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR -| | ... | for 78 Byte frames using binary search start at 10GE linerate, -| | ... | step 100kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 78 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_78B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC15: 1518B NDR binary search - DUT IPv6 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC16: 1518B PDR binary search - DUT IPv6 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR -| | ... | for 1518 Byte frames using binary search start at 10GE linerate, -| | ... | step 10kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC17: 9000B NDR binary search - DUT IPv6 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC18: 9000B PDR binary search - DUT IPv6 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR -| | ... | for 9000 Byte frames using binary search start at 10GE linerate, -| | ... | step 5kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} diff --git a/tests/suites/performance/Long_IPv6_Intel-X520-DA2.robot b/tests/suites/performance/Long_IPv6_Intel-X520-DA2.robot deleted file mode 100644 index 5664ce4b36..0000000000 --- a/tests/suites/performance/Long_IPv6_Intel-X520-DA2.robot +++ /dev/null @@ -1,452 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_LONG -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L3 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *RFC2544: Pkt throughput IPv6 routing test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv6 for IPv6 routing. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with IPv6 -| ... | routing and two static IPv6 /64 route entries. DUT1 and DUT2 tested with -| ... | 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* TG finds and reports throughput NDR (Non Drop -| ... | Rate) with zero packet loss tolerance or throughput PDR (Partial Drop -| ... | Rate) with non-zero packet loss tolerance (LT) expressed in percentage -| ... | of packets transmitted. NDR and PDR are discovered for different -| ... | Ethernet L2 frame sizes using either binary search or linear search -| ... | algorithms with configured starting rate and final step that determines -| ... | throughput measurement resolution. Test packets are generated by TG on -| ... | links to DUTs. TG traffic profile contains two L3 flow-groups -| ... | (flow-group per direction, 253 flows per flow-group) with all packets -| ... | containing Ethernet header, IPv6 header and static payload. -| ... | MAC addresses are matching MAC addresses of the TG node interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: 78B NDR binary search - DUT IPv6 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 78 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_78B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC02: 78B PDR binary search - DUT IPv6 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 78 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_78B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC03: 1518B NDR binary search - DUT IPv6 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC04: 1518B PDR binary search - DUT IPv6 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC05: 9000B NDR binary search - DUT IPv6 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC06: 9000B PDR binary search - DUT IPv6 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC07: 78B NDR binary search - DUT IPv6 - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 78 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_78B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC08: 78B PDR binary search - DUT IPv6 - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 78 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_78B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC09: 1518B NDR binary search - DUT IPv6 - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC10: 1518B PDR binary search - DUT IPv6 - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC11: 9000B NDR binary search - DUT IPv6 - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC12: 9000B PDR binary search - DUT IPv6 - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC13: 78B NDR binary search - DUT IPv6 - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 78 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 78 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_78B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC14: 78B PDR binary search - DUT IPv6 - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 78 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 78 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_78B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC15: 1518B NDR binary search - DUT IPv6 - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC16: 1518B PDR binary search - DUT IPv6 - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC17: 9000B NDR binary search - DUT IPv6 - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC18: 9000B PDR binary search - DUT IPv6 - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-IPv6 -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} diff --git a/tests/suites/performance/Long_Xconnect_Dot1ad_Intel-X520-DA2.robot b/tests/suites/performance/Long_Xconnect_Dot1ad_Intel-X520-DA2.robot deleted file mode 100644 index 09d93983fe..0000000000 --- a/tests/suites/performance/Long_Xconnect_Dot1ad_Intel-X520-DA2.robot +++ /dev/null @@ -1,624 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Resource | resources/libraries/robot/tagging.robot -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_LONG -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L2 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *RFC2544: Pkt throughput L2XC with 802.1ad test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for L2 xconnect. -| ... | 802.1ad tagging is applied on link between DUT1 and DUT2 with inner 4B -| ... | vlan tag (id=100) and outer 4B vlan tag (id=200). -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 cross- -| ... | connect. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* TG finds and reports throughput NDR (Non Drop -| ... | Rate) with zero packet loss tolerance or throughput PDR (Partial Drop -| ... | Rate) with non-zero packet loss tolerance (LT) expressed in percentage -| ... | of packets transmitted. NDR and PDR are discovered for different -| ... | Ethernet L2 frame sizes using either binary search or linear search -| ... | algorithms with configured starting rate and final step that determines -| ... | throughput measurement resolution. Test packets are generated by TG on -| ... | links to DUTs. TG traffic profile contains two L3 flow-groups -| ... | (flow-group per direction, 253 flows per flow-group) with all packets -| ... | containing Ethernet header, IPv4 header with IP protocol=61 and -| ... | generated payload. MAC addresses are matching MAC addresses of the TG -| ... | node interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Variables *** -| ${subid}= | 10 -| ${outer_vlan_id}= | 100 -| ${inner_vlan_id}= | 200 -| ${type_subif}= | two_tags -| ${tag_rewrite}= | pop-2 - -*** Test Cases *** -| TC01: 64B NDR binary search - DUT L2XC with 802.1ad - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_72B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC02: 64B PDR binary search - DUT L2XC with 802.1ad - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_72B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC03: 1514B NDR binary search - DUT L2XC with 802.1ad - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 1514 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1514 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1522B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC04: 1514B PDR binary search - DUT L2XC with 802.1ad - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1514 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 1514 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1522B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC05: 9000B NDR binary search - DUT L2XC with 802.1ad - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9008B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC06: 9000B PDR binary search - DUT L2XC with 802.1ad - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9008B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC07: 64B NDR binary search - DUT L2XC with 802.1ad - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_72B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC08: 64B PDR binary search - DUT L2XC with 802.1ad - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_72B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC09: 1514B NDR binary search - DUT L2XC with 802.1ad - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 1514 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1514 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1522B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC10: 1514B PDR binary search - DUT L2XC with 802.1ad - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1514 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1514 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1522B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC11: 9000B NDR binary search - DUT L2XC with 802.1ad - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9008B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC12: 9000B PDR binary search - DUT L2XC with 802.1ad - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9008B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC13: 64B NDR binary search - DUT L2XC with 802.1ad - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_72B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC14: 64B PDR binary search - DUT L2XC with 802.1ad - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_72B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC15: 1514B NDR binary search - DUT L2XC with 802.1ad - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 1514 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1514 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1522B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC16: 1514B PDR binary search - DUT L2XC with 802.1ad - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 1514 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1514 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1522B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC17: 9000B NDR binary search - DUT L2XC with 802.1ad - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9008B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC18: 9000B PDR binary search - DUT L2XC with 802.1ad - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9008B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} diff --git a/tests/suites/performance/Long_Xconnect_Dot1q_Intel-X520-DA2.robot b/tests/suites/performance/Long_Xconnect_Dot1q_Intel-X520-DA2.robot deleted file mode 100644 index 86716f460d..0000000000 --- a/tests/suites/performance/Long_Xconnect_Dot1q_Intel-X520-DA2.robot +++ /dev/null @@ -1,602 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Resource | resources/libraries/robot/tagging.robot -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_LONG -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L2 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *RFC2544: Pkt throughput L2XC with 802.1q test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for L2 cross connect. 802.1q -| ... | tagging is applied on link between DUT1 and DUT2. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 cross- -| ... | connect. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* TG finds and reports throughput NDR (Non Drop -| ... | Rate) with zero packet loss tolerance or throughput PDR (Partial Drop -| ... | Rate) with non-zero packet loss tolerance (LT) expressed in percentage -| ... | of packets transmitted. NDR and PDR are discovered for different -| ... | Ethernet L2 frame sizes using either binary search or linear search -| ... | algorithms with configured starting rate and final step that determines -| ... | throughput measurement resolution. Test packets are generated by TG on -| ... | links to DUTs. TG traffic profile contains two L3 flow-groups -| ... | (flow-group per direction, 253 flows per flow-group) with all packets -| ... | containing Ethernet header, IPv4 header with IP protocol=61 and static -| ... | payload. MAC addresses are matching MAC addresses of the TG node -| ... | interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Variables *** -| ${subid}= | 10 -| ${tag_rewrite}= | pop-1 - -*** Test Cases *** -| TC01: 64B NDR binary search - DUT L2XC with 802.1q - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_68B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC02: 64B PDR binary search - DUT L2XC with 802.1q - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_68B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC03: 1518B NDR binary search - DUT L2XC with 802.1q - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1522B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC04: 1518B PDR binary search - DUT L2XC with 802.1q - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1522B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC05: 9000B NDR binary search - DUT L2XC with 802.1q - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9004B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC06: 9000B PDR binary search - DUT L2XC with 802.1q - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9004B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC07: 64B NDR binary search - DUT L2XC with 802.1q - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_68B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC08: 64B PDR binary search - DUT L2XC with 802.1q - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_68B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC09: 1518B NDR binary search - DUT L2XC with 802.1q - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1522B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC10: 1518B PDR binary search - DUT L2XC with 802.1q - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1522B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC11: 9000B NDR binary search - DUT L2XC with 802.1q - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9004B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC12: 9000B PDR binary search - DUT L2XC with 802.1q - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9004B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC13: 64B NDR binary search - DUT L2XC with 802.1q - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_68B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC14: 64B PDR binary search - DUT L2XC with 802.1q - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_68B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC15: 1518B NDR binary search - DUT L2XC with 802.1q - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1522B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC16: 1518B PDR binary search - DUT L2XC with 802.1q - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1522B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC17: 9000B NDR binary search - DUT L2XC with 802.1q - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9004B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC18: 9000B PDR binary search - DUT L2XC with 802.1q - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9004B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} diff --git a/tests/suites/performance/Long_Xconnect_Intel-X520-DA2.robot b/tests/suites/performance/Long_Xconnect_Intel-X520-DA2.robot deleted file mode 100644 index 01f692db9e..0000000000 --- a/tests/suites/performance/Long_Xconnect_Intel-X520-DA2.robot +++ /dev/null @@ -1,454 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Library | resources.libraries.python.InterfaceUtil -| Library | resources.libraries.python.NodePath -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_LONG -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L2 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *RFC2544: Pkt throughput L2XC test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for L2 cross connect. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 cross- -| ... | connect. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* TG finds and reports throughput NDR (Non Drop -| ... | Rate) with zero packet loss tolerance or throughput PDR (Partial Drop -| ... | Rate) with non-zero packet loss tolerance (LT) expressed in percentage -| ... | of packets transmitted. NDR and PDR are discovered for different -| ... | Ethernet L2 frame sizes using either binary search or linear search -| ... | algorithms with configured starting rate and final step that determines -| ... | throughput measurement resolution. Test packets are generated by TG on -| ... | links to DUTs. TG traffic profile contains two L3 flow-groups -| ... | (flow-group per direction, 253 flows per flow-group) with all packets -| ... | containing Ethernet header, IPv4 header with IP protocol=61 and static -| ... | payload. MAC addresses are matching MAC addresses of the TG node -| ... | interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: 64B NDR binary search - DUT L2XC - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC02: 64B PDR binary search - DUT L2XC - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC03: 1518B NDR binary search - DUT L2XC - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC04: 1518B PDR binary search - DUT L2XC - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC05: 9000B NDR binary search - DUT L2XC - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC06: 9000B PDR binary search - DUT L2XC - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | PDR -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC07: 64B NDR binary search - DUT L2XC - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC08: 64B PDR binary search - DUT L2XC - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC09: 1518B NDR binary search - DUT L2XC - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC10: 1518B PDR binary search - DUT L2XC - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC11: 9000B NDR binary search - DUT L2XC - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC12: 9000B PDR binary search - DUT L2XC - 2threads 2cores 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC13: 64B NDR binary search - DUT L2XC - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC14: 64B PDR binary search - DUT L2XC - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 100kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR -| | ${framesize}= | Set Variable | 64 -| | ${min_rate}= | Set Variable | 100000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_64B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC15: 1518B NDR binary search - DUT L2XC - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC16: 1518B PDR binary search - DUT L2XC - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 1518 -| | ${min_rate}= | Set Variable | 10000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_1518B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} - -| TC17: 9000B NDR binary search - DUT L2XC - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find NDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} - -| TC18: 9000B PDR binary search - DUT L2XC - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 5kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | PDR | SKIP_PATCH -| | ${framesize}= | Set Variable | 9000 -| | ${min_rate}= | Set Variable | 5000 -| | ${max_rate}= | Set Variable | ${10Ge_linerate_pps_9000B} -| | ${binary_min}= | Set Variable | ${min_rate} -| | ${binary_max}= | Set Variable | ${max_rate} -| | ${threshold}= | Set Variable | ${min_rate} -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Find PDR using binary search and pps | ${framesize} | ${binary_min} -| | ... | ${binary_max} | 3-node-xconnect -| | ... | ${min_rate} | ${max_rate} -| | ... | ${threshold} -| | ... | ${glob_loss_acceptance} -| | ... | ${glob_loss_acceptance_type} diff --git a/tests/suites/performance/Short_Bridge_Domain_Intel-X520-DA2.robot b/tests/suites/performance/Short_Bridge_Domain_Intel-X520-DA2.robot deleted file mode 100644 index c6ddbaba28..0000000000 --- a/tests/suites/performance/Short_Bridge_Domain_Intel-X520-DA2.robot +++ /dev/null @@ -1,194 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Library | resources.libraries.python.NodePath -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_SHORT -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L2 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *Reference NDR throughput L2BD verify test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for L2 switching of IPv4. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 bridge- -| ... | domain and MAC learning enabled. DUT1 and DUT2 tested with 2p10GE NIC -| ... | X520 Niantic by Intel. -| ... | *[Ver] TG verification:* In short performance tests, TG verifies -| ... | DUTs' throughput at ref-NDR (reference Non Drop Rate) with zero packet -| ... | loss tolerance. Ref-NDR value is periodically updated acording to -| ... | formula: ref-NDR = 0.9x NDR, where NDR is found in RFC2544 long -| ... | performance tests for the same DUT configuration. Test packets are -| ... | generated by TG on links to DUTs. TG traffic profile contains two L3 -| ... | flow-groups (flow-group per direction, 253 flows per flow-group) with -| ... | all packets containing Ethernet header, IPv4 header with IP protocol=61 -| ... | and generated payload. MAC addresses are matching MAC addresses of the -| ... | TG node interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: Verify 64B ref-NDR at 2x 3.2Mpps - DUT L2BD - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 3.2mpps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-bridge - -| TC02: Verify 1518B ref-NDR at 2x 812.74kpps - DUT L2BD - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-bridge - -| TC03: Verify 9000B ref-NDR at 2x 138.58kpps - DUT L2BD - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-bridge - -| TC04: Verify 64B ref-NDR at 2x 6.9Mpps - DUT L2BD - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 6.9mpps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-bridge - -| TC05: Verify 1518B ref-NDR at 2x 812.74kpps - DUT L2BD - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-bridge - -| TC06: Verify 9000B ref-NDR at 2x 138.58kpps - DUT L2BD - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-bridge - -| TC07: Verify 64B ref-NDR at 2x 7.4Mpps - DUT L2BD - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 7.4mpps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-bridge - -| TC08: Verify 1518B ref-NDR at 2x 812.74kpps - DUT L2BD - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-bridge - -| TC09: Verify 9000B ref-NDR at 2x 138.58kpps - DUT L2BD - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2BD config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 bridge domain initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-bridge diff --git a/tests/suites/performance/Short_IPv4_Cop_Intel-X520-DA2.robot b/tests/suites/performance/Short_IPv4_Cop_Intel-X520-DA2.robot deleted file mode 100644 index 1a6e15acaf..0000000000 --- a/tests/suites/performance/Short_IPv4_Cop_Intel-X520-DA2.robot +++ /dev/null @@ -1,251 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Library | resources.libraries.python.Cop -| Library | resources.libraries.python.IPv4Setup.Dut | ${nodes['DUT1']} | WITH NAME | dut1_v4 -| Library | resources.libraries.python.IPv4Setup.Dut | ${nodes['DUT2']} | WITH NAME | dut2_v4 -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_SHORT -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L3 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *Reference NDR throughput IPv4 whitelist verify test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for IPv4 routing. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with IPv4 -| ... | routing, two static IPv4 /24 routes and IPv4 COP security whitelist -| ... | ingress /24 filter entries applied on links TG - DUT1 and DUT2 - TG. -| ... | DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* In short performance tests, TG verifies -| ... | DUTs' throughput at ref-NDR (reference Non Drop Rate) with zero packet -| ... | loss tolerance. Ref-NDR value is periodically updated acording to -| ... | formula: ref-NDR = 0.9x NDR, where NDR is found in RFC2544 long -| ... | performance tests for the same DUT configuration. Test packets are -| ... | generated by TG on links to DUTs. TG traffic profile contains two L3 -| ... | flow-groups (flow-group per direction, 253 flows per flow-group) with -| ... | all packets containing Ethernet header, IPv4 header with IP protocol=61 -| ... | and generated payload. MAC addresses are matching MAC addresses of the -| ... | TG node interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: Verify 64B ref-NDR at 2x 3.5Mpps - DUT IPv4 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 64 Byte frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 3.5mpps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC02: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv4 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 1518 Byte frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC03: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv4 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 9000 Byte frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC04: Verify 64B ref-NDR at 2x 6.6Mpps - DUT IPv4 whitelist - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 64 Byte frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 6.6mpps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC05: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv4 whitelist - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 1518 Byte frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC06: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv4 whitelist - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 9000 Byte frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC07: Verify 64B ref-NDR at 2x 10.0Mpps - DUT IPv4 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 thread, 4 phy core, 2 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 64 Byte frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 10.0mpps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC08: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv4 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 thread, 4 phy core, 2 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 1518 Byte frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC09: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv4 whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 thread, 4 phy core, 2 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 9000 Byte frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 10.10.10.0 | 24 | 1 | local -| | And Add fib table | ${dut2} | 20.20.20.0 | 24 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip4 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip4 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 diff --git a/tests/suites/performance/Short_IPv4_Intel-X520-DA2.robot b/tests/suites/performance/Short_IPv4_Intel-X520-DA2.robot deleted file mode 100644 index 9e60561656..0000000000 --- a/tests/suites/performance/Short_IPv4_Intel-X520-DA2.robot +++ /dev/null @@ -1,198 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Library | resources.libraries.python.topology.Topology -| Library | resources.libraries.python.NodePath -| Library | resources.libraries.python.InterfaceUtil -| Library | resources.libraries.python.IPv4Setup.Dut | ${nodes['DUT1']} | WITH NAME | dut1_v4 -| Library | resources.libraries.python.IPv4Setup.Dut | ${nodes['DUT2']} | WITH NAME | dut2_v4 -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_SHORT -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L3 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *Reference NDR throughput IPv4 routing verify test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for IPv4 routing. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with IPv4 -| ... | routing and two static IPv4 /24 route entries. DUT1 and DUT2 tested with -| ... | 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* In short performance tests, TG verifies -| ... | DUTs' throughput at ref-NDR (reference Non Drop Rate) with zero packet -| ... | loss tolerance. Ref-NDR value is periodically updated acording to -| ... | formula: ref-NDR = 0.9x NDR, where NDR is found in RFC2544 long -| ... | performance tests for the same DUT configuration. Test packets are -| ... | generated by TG on links to DUTs. TG traffic profile contains two L3 -| ... | flow-groups (flow-group per direction, 253 flows per flow-group) with -| ... | all packets containing Ethernet header, IPv4 header with IP protocol=61 -| ... | and generated payload. MAC addresses are matching MAC addresses of the -| ... | TG node interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: Verify 64B ref-NDR at 2x 3.5Mpps - DUT IPv4 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 3.5mpps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC02: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv4 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC03: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv4 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC04: Verify 64B ref-NDR at 2x 7.5Mpps - DUT IPv4 - 2threads, 2cores, 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 7.5mpps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC05: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv4 - 2threads, 2cores, 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC06: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv4 - 2threads, 2cores, 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC07: Verify 64B ref-NDR at 2x 10.0Mpps - DUT IPv4 - 4threads, 4cores, 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 10.0mpps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC08: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv4 - 4threads, 4cores, 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC09: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv4 - 4threads, 4cores, 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 diff --git a/tests/suites/performance/Short_IPv4_iAcl_Intel-X520-DA2.robot b/tests/suites/performance/Short_IPv4_iAcl_Intel-X520-DA2.robot deleted file mode 100644 index ea4a0871d1..0000000000 --- a/tests/suites/performance/Short_IPv4_iAcl_Intel-X520-DA2.robot +++ /dev/null @@ -1,323 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Library | resources.libraries.python.Classify.Classify -| Library | resources.libraries.python.IPv4Setup.Dut | ${nodes['DUT1']} | WITH NAME | dut1_v4 -| Library | resources.libraries.python.IPv4Setup.Dut | ${nodes['DUT2']} | WITH NAME | dut2_v4 -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_SHORT -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L3 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *Reference NDR throughput IPv4 whitelist verify test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for IPv4 routing. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with IPv4 -| ... | routing, two static IPv4 /24 routes and IPv4 iAcl security whitelist -| ... | ingress /24 filter entries applied on links TG - DUT1 and DUT2 - TG. -| ... | DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* In short performance tests, TG verifies -| ... | DUTs' throughput at ref-NDR (reference Non Drop Rate) with zero packet -| ... | loss tolerance. Ref-NDR value is periodically updated acording to -| ... | formula: ref-NDR = 0.9x NDR, where NDR is found in RFC2544 long -| ... | performance tests for the same DUT configuration. Test packets are -| ... | generated by TG on links to DUTs. TG traffic profile contains two L3 -| ... | flow-groups (flow-group per direction, 253 flows per flow-group) with -| ... | all packets containing Ethernet header, IPv4 header with IP protocol=61 -| ... | and generated payload. MAC addresses are matching MAC addresses of the -| ... | TG node interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: Verify 64B ref-NDR at 2x 3.1Mpps - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 64 Byte frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 3.1mpps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC02: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 1518 Byte frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC03: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 9000 Byte frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC04: Verify 64B ref-NDR at 2x 5.8Mpps - DUT IPv4 iAcl whitelist - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 64 Byte frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 5.8mpps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC05: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv4 iAcl whitelist - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 1518 Byte frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC06: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv4 iAcl whitelist - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 9000 Byte frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC07: Verify 64B ref-NDR at 2x 7.8Mpps - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 thread, 4 phy core, 2 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 64 Byte frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 7.8mpps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC08: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 thread, 4 phy core, 2 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 1518 Byte frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 - -| TC09: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv4 routing and whitelist filters config with \ -| | ... | 4 thread, 4 phy core, 2 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 9000 Byte frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv4 forwarding initialized in a 3-node circular topology -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut1} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut1} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 20.20.20.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut1} | ${dut1_if1} | ip4 | ${table_idx} -| | ${table_idx} | ${skip_n} | ${match_n}= | And Vpp Creates Classify Table L3 -| | ... | ${dut2} | ip4 | dst -| | And Vpp Configures Classify Session L3 -| | ... | ${dut2} | permit | ${table_idx} | ${skip_n} | ${match_n} -| | ... | ip4 | dst | 10.10.10.2 -| | And Vpp Enable Input Acl Interface -| | ... | ${dut2} | ${dut2_if2} | ip4 | ${table_idx} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv4 diff --git a/tests/suites/performance/Short_IPv6_Cop_Intel-X520-DA2.robot b/tests/suites/performance/Short_IPv6_Cop_Intel-X520-DA2.robot deleted file mode 100644 index 5ef42c5a86..0000000000 --- a/tests/suites/performance/Short_IPv6_Cop_Intel-X520-DA2.robot +++ /dev/null @@ -1,249 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Library | resources.libraries.python.Cop -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_SHORT -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L3 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *Reference NDR throughput IPv6 whitelist verify test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv6 for IPv6 routing. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with IPv6 -| ... | routing, two static IPv6 /64 routes and IPv6 COP security whitelist -| ... | ingress /24 filter entries applied on links TG - DUT1 and DUT2 - TG. -| ... | DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* In short performance tests, TG verifies -| ... | DUTs' throughput at ref-NDR (reference Non Drop Rate) with zero packet -| ... | loss tolerance. Ref-NDR value is periodically updated acording to -| ... | formula: ref-NDR = 0.9x NDR, where NDR is found in RFC2544 long -| ... | performance tests for the same DUT configuration. Test packets are -| ... | generated by TG on links to DUTs. TG traffic profile contains two L3 -| ... | flow-groups (flow-group per direction, 253 flows per flow-group) with -| ... | all packets containing Ethernet header, IPv6 header and generated -| ... | payload. MAC addresses are matching MAC addresses of the TG node -| ... | interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: Verify 78B ref-NDR at 2x 2.8Mpps - DUT IPv6 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 78 Byte frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 78 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 2.8mpps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC02: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv6 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 1518 Byte frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC03: Verify 9000B ref-NDR at 2x 138.580kpps - DUT IPv6 whitelist - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 9000 Byte frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC04: Verify 78B ref-NDR at 2x 4.9Mpps - DUT IPv6 whitelist - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 78 Byte frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 78 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 4.9mpps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC05: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv6 whitelist - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 1518 Byte frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC06: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv6 whitelist - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 9000 Byte frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC07: Verify 78B ref-NDR at 2x 10.1Mpps - DUT IPv6 whitelist - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 4 thread, 4 phy core, 2 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 78 Byte frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 78 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 10.1mpps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC08: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv6 whitelist - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 4 thread, 4 phy core, 2 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 1518 Byte frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC09: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv6 whitelist - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing and whitelist filters config with \ -| | ... | 4 thread, 4 phy core, 2 receive queue per NIC port. [Ver] Verify -| | ... | ref-NDR for 9000 Byte frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | When IPv6 forwarding initialized in a 3-node circular topology -| | And Add fib table | ${dut1} | 2001:1:: | 64 | 1 | local -| | And Add fib table | ${dut2} | 2001:2:: | 64 | 1 | local -| | And COP Add whitelist Entry | ${dut1} | ${dut1_if1} | ip6 | 1 -| | And COP Add whitelist Entry | ${dut2} | ${dut2_if2} | ip6 | 1 -| | And COP interface enable or disable | ${dut1} | ${dut1_if1} | enable -| | And COP interface enable or disable | ${dut2} | ${dut2_if2} | enable -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 diff --git a/tests/suites/performance/Short_IPv6_Intel-X520-DA2.robot b/tests/suites/performance/Short_IPv6_Intel-X520-DA2.robot deleted file mode 100644 index cf163a9e44..0000000000 --- a/tests/suites/performance/Short_IPv6_Intel-X520-DA2.robot +++ /dev/null @@ -1,194 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_SHORT -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L3 | Intel-X520-DA2 - -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *Reference NDR throughput IPv6 routing verify test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv6 for IPv6 routing. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with IPv6 -| ... | routing and two static IPv6 /64 route entries. DUT1 and DUT2 tested with -| ... | 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* In short performance tests, TG verifies -| ... | DUTs' throughput at ref-NDR (reference Non Drop Rate) with zero packet -| ... | loss tolerance. Ref-NDR value is periodically updated acording to -| ... | formula: ref-NDR = 0.9x NDR, where NDR is found in RFC2544 long -| ... | performance tests for the same DUT configuration. Test packets are -| ... | generated by TG on links to DUTs. TG traffic profile contains two L3 -| ... | flow-groups (flow-group per direction, 253 flows per flow-group) with -| ... | all packets containing Ethernet header, IPv6 header and generated -| ... | payload. MAC addresses are matching MAC addresses of the TG node -| ... | interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: Verify 78B ref-NDR at 2x 2.9Mpps - DUT IPv6 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 78 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 78 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 2.9mpps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC02: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv6 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC03: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv6 - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC04: Verify 78B ref-NDR at 2x 5.9Mpps - DUT IPv6 - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 78 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 78 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 5.9mpps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC05: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv6 - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC06: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv6 - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC07: Verify 78B ref-NDR at 2x 7.3Mpps - DUT IPv6 - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 78 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 78 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 7.3mpps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC08: Verify 1518B ref-NDR at 2x 812.74kpps - DUT IPv6 - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 - -| TC09: Verify 9000B ref-NDR at 2x 138.58kpps - DUT IPv6 - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And IPv6 forwarding initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-IPv6 diff --git a/tests/suites/performance/Short_Xconnect_Dot1ad_Intel-X520-DA2.robot b/tests/suites/performance/Short_Xconnect_Dot1ad_Intel-X520-DA2.robot deleted file mode 100644 index 5779dc54f4..0000000000 --- a/tests/suites/performance/Short_Xconnect_Dot1ad_Intel-X520-DA2.robot +++ /dev/null @@ -1,283 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Resource | resources/libraries/robot/tagging.robot -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_SHORT -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L2 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *Reference NDR throughput L2XC with 802.1ad verify test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for L2 xconnect. -| ... | 802.1ad tagging is applied on link between DUT1 and DUT2 with inner 4B -| ... | vlan tag (id=100) and outer 4B vlan tag (id=200). -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 cross- -| ... | connect. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* In short performance tests, TG verifies -| ... | DUTs' throughput at ref-NDR (reference Non Drop Rate) with zero packet -| ... | loss tolerance. Ref-NDR value is periodically updated acording to -| ... | formula: ref-NDR = 0.9x NDR, where NDR is found in RFC2544 long -| ... | performance tests for the same DUT configuration. Test packets are -| ... | generated by TG on links to DUTs. TG traffic profile contains two L3 -| ... | flow-groups (flow-group per direction, 253 flows per flow-group) with -| ... | all packets containing Ethernet header, IPv4 header with IP protocol=61 -| ... | and generated payload. MAC addresses are matching MAC addresses of the -| ... | TG node interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Variables *** -| ${subid}= | 10 -| ${outer_vlan_id}= | 100 -| ${inner_vlan_id}= | 200 -| ${type_subif}= | two_tags -| ${tag_rewrite}= | pop-2 - -*** Test Cases *** -| TC01: Verify 64B ref-NDR at 2x 2.9Mpps - DUT L2XC with 802.1ad - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 2.9mpps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC02: Verify 1514B ref-NDR at 2x 810.635kpps - DUT L2XC with 802.1ad - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 1514 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 1514 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 810635pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC03: Verify 9000B ref-NDR at 2x 138.458kpps - DUT L2XC with 802.1ad - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138458pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC04: Verify 64B ref-NDR at 2x 7Mpps - DUT L2XC with 802.1ad - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 thread, 2 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 7.0mpps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC05: Verify 1514B ref-NDR at 2x 810.635kpps - DUT L2XC with 802.1ad - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 thread, 2 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 1514 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1514 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 810635pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC06: Verify 9000B ref-NDR at 2x 138.458kpps - DUT L2XC with 802.1ad - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 2 thread, 2 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138458pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC07: Verify 64B ref-NDR at 2x 8Mpps - DUT L2XC with 802.1ad - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 thread, 4 phy core, \ -| | ... | 2 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 8.0mpps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC08: Verify 1514B ref-NDR at 2x 810.635kpps - DUT L2XC with 802.1ad - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 thread, 4 phy core, \ -| | ... | 2 receive queue per NIC port. [Ver] Find PDR for 1514 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1514 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 810635pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC09: Verify 9000B ref-NDR at 2x 138.458kpps - DUT L2XC with 802.1ad - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC switching config with 4 thread, 4 phy core, \ -| | ... | 2 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames -| | ... | using binary search start at 10GE linerate, step 10kpps, LT=0.5%. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138458pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect diff --git a/tests/suites/performance/Short_Xconnect_Dot1q_Intel-X520-DA2.robot b/tests/suites/performance/Short_Xconnect_Dot1q_Intel-X520-DA2.robot deleted file mode 100644 index b2eb1ad9a5..0000000000 --- a/tests/suites/performance/Short_Xconnect_Dot1q_Intel-X520-DA2.robot +++ /dev/null @@ -1,270 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Resource | resources/libraries/robot/tagging.robot -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_SHORT -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L2 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *Reference NDR throughput L2XC with 802.1q verify test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for L2 cross connect. 802.1q -| ... | tagging is applied on link between DUT1 and DUT2. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 cross- -| ... | connect. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* In short performance tests, TG verifies -| ... | DUTs' throughput at ref-NDR (reference Non Drop Rate) with zero packet -| ... | loss tolerance. Ref-NDR value is periodically updated acording to -| ... | formula: ref-NDR = 0.9x NDR, where NDR is found in RFC2544 long -| ... | performance tests for the same DUT configuration. Test packets are -| ... | generated by TG on links to DUTs. TG traffic profile contains two L3 -| ... | flow-groups (flow-group per direction, 253 flows per flow-group) with -| ... | all packets containing Ethernet header, IPv4 header with IP protocol=61 -| ... | and generated payload. MAC addresses are matching MAC addresses of the -| ... | TG node interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Variables *** -| ${subid}= | 10 -| ${tag_rewrite}= | pop-1 - -*** Test Cases *** -| TC01: Verify 64B ref-NDR at 2x 2.9Mpps - DUT 802.1q - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 2.9mpps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC02: Verify 1518B ref-NDR at 2x 720kpps - DUT 802.1q - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 720000pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC03: Verify 9000B ref-NDR at 2x 120kpps - DUT 802.1q - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 120000pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC04: Verify 64B ref-NDR at 2x 7Mpps - DUT 802.1q - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 7.0mpps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC05: Verify 1518B ref-NDR at 2x 720kpps - DUT 802.1q - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 720000pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC06: Verify 9000B ref-NDR at 2x 120kpps - DUT 802.1q - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 120000pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC07: Verify 64B ref-NDR at 2x 11Mpps - DUT 802.1q - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 11.0mpps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC08: Verify 1518B ref-NDR at 2x 720kpps - DUT 802.1q - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 720000pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC09: Verify 9000B ref-NDR at 2x 120kpps - DUT 802.1q - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 120000pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And VPP interfaces in path are up in a 3-node circular topology -| | When VLAN dot1q subinterfaces initialized on 3-node topology -| | ... | ${dut1} | ${dut1_if2} | ${dut2} | ${dut2_if1} | ${subid} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1} | ${subif_index_1} | ${dut2} | ${subif_index_2} -| | ... | ${tag_rewrite} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1} | ${dut1_if1} | ${subif_index_1} -| | ... | ${dut2} | ${dut2_if2} | ${subif_index_2} -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect diff --git a/tests/suites/performance/Short_Xconnect_Intel-X520-DA2.robot b/tests/suites/performance/Short_Xconnect_Intel-X520-DA2.robot deleted file mode 100644 index 56df7a4ead..0000000000 --- a/tests/suites/performance/Short_Xconnect_Intel-X520-DA2.robot +++ /dev/null @@ -1,194 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/performance.robot -| Library | resources.libraries.python.InterfaceUtil -| Library | resources.libraries.python.NodePath -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | PERFTEST | HW_ENV | PERFTEST_SHORT -| ... | NIC_Intel-X520-DA2 -| Suite Setup | 3-node Performance Suite Setup with DUT's NIC model -| ... | L2 | Intel-X520-DA2 -| Suite Teardown | 3-node Performance Suite Teardown -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Remove startup configuration of VPP from all DUTs -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *Reference NDR throughput L2XC verify test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4 for L2 cross connect. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 cross- -| ... | connect. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel. -| ... | *[Ver] TG verification:* In short performance tests, TG verifies -| ... | DUTs' throughput at ref-NDR (reference Non Drop Rate) with zero packet -| ... | loss tolerance. Ref-NDR value is periodically updated acording to -| ... | formula: ref-NDR = 0.9x NDR, where NDR is found in RFC2544 long -| ... | performance tests for the same DUT configuration. Test packets are -| ... | generated by TG on links to DUTs. TG traffic profile contains two L3 -| ... | flow-groups (flow-group per direction, 253 flows per flow-group) with -| ... | all packets containing Ethernet header, IPv4 header with IP protocol=61 -| ... | and generated payload. MAC addresses are matching MAC addresses of the -| ... | TG node interfaces. -| ... | *[Ref] Applicable standard specifications:* RFC2544. - -*** Test Cases *** -| TC01: Verify 64B ref-NDR at 2x 3.6Mpps - DUT L2XC - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 3.6mpps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC02: Verify 1518B ref-NDR at 2x 812.74kpps - DUT L2XC - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC03: Verify 9000B ref-NDR at 2x 138.58kpps - DUT L2XC - 1thread 1core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 1 thread, 1 phy core, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 1_THREAD_NOHTT_RXQUEUES_1 | SINGLE_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '1' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC04: Verify 64B ref-NDR at 2x 8.3Mpps - DUT L2XC - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 8.3mpps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC05: Verify 1518B ref-NDR at 2x 812.43kpps - DUT L2XC - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC06: Verify 9000B ref-NDR at 2x 138.58kpps - DUT L2XC - 2thread 2core 1rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 2 threads, 2 phy cores, \ -| | ... | 1 receive queue per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 2_THREAD_NOHTT_RXQUEUES_1 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '2' worker threads and rxqueues '1' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC07: Verify 64B ref-NDR at 2x 9.3Mpps - DUT L2XC - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 64 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 64 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 9.3mpps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC08: Verify 1518B ref-NDR at 2x 812.74kpps - DUT L2XC - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 1518 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 1518 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 812743pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Add No Multi Seg to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect - -| TC09: Verify 9000B ref-NDR at 2x 138.58kpps - DUT L2XC - 4thread 4core 2rxq -| | [Documentation] -| | ... | [Cfg] DUT runs L2XC config with 4 threads, 4 phy cores, \ -| | ... | 2 receive queues per NIC port. [Ver] Verify ref-NDR for 9000 Byte -| | ... | frames using single trial throughput test. -| | [Tags] | 4_THREAD_NOHTT_RXQUEUES_2 | MULTI_THREAD | NDR -| | ${framesize}= | Set Variable | 9000 -| | ${duration}= | Set Variable | 10 -| | ${rate}= | Set Variable | 138580pps -| | Given Add '4' worker threads and rxqueues '2' without HTT to all DUTs -| | And Add all PCI devices to all DUTs -| | And Apply startup configuration on all VPP DUTs -| | And L2 xconnect initialized in a 3-node circular topology -| | Then Traffic should pass with no loss | ${duration} | ${rate} -| | ... | ${framesize} | 3-node-xconnect diff --git a/tests/suites/rpf/ipv4_rpf_untagged.robot b/tests/suites/rpf/ipv4_rpf_untagged.robot deleted file mode 100644 index c91436a1f1..0000000000 --- a/tests/suites/rpf/ipv4_rpf_untagged.robot +++ /dev/null @@ -1,139 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/counters.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/ipv4.robot -| Resource | resources/libraries/robot/l2_xconnect.robot -| Resource | resources/libraries/robot/traffic.robot -| Library | resources.libraries.python.Trace - -| Force Tags | HW_ENV | VM_ENV | 3_NODE_SINGLE_LINK_TOPO -| Suite Setup | Run Keywords | Setup all TGs before traffic script -| ... | AND | Update All Interface Data On All Nodes | ${nodes} -| Test Setup | Setup all DUTs before test -| Test Teardown | Run Keywords | Show packet trace on all DUTs | ${nodes} -| ... | AND | Vpp Show Errors | ${nodes['DUT1']} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *Source RPF check on IPv4 test cases* -| ... -| ... | *[Top] Network Topologies:* TG - DUT1 - DUT2 - TG -| ... | with one link between the nodes. -| ... | *[Cfg] DUT configuration:* DUT2 is configured with L2 Cross connect. -| ... | DUT1 is configured with IP source check on link to TG, -| ... | *[Ver] TG verification:*Test ICMP Echo Request packets are sent -| ... | in one direction by TG on link to DUT1 and received on TG link -| ... | to DUT2. On receive TG verifies if packets which source address -| ... | is not in routes are dropped. - -*** Variables *** -| ${dut1_to_tg_ip}= | 192.168.1.1 -| ${dut1_to_tg_ip_GW}= | 192.168.1.2 -| ${dut1_to_dut2_ip}= | 192.168.2.1 -| ${dut1_to_dut2_ip_GW}= | 192.168.2.2 -| ${test_dst_ip}= | 32.0.0.1 -| ${pass_test_src_ip}= | 16.0.0.1 -| ${drop_test_src_ip}= | 24.0.0.1 -| ${prefix_length}= | 24 - -*** Test Cases *** -| TC01: VPP source RPF check on IPv4 src-addr -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG -| | ... | [Cfg] On DUT1 setup IP source check. -| | ... | [Ver] Make TG verify matching packets which source address -| | ... | is not in routes are dropped. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} | resolve_attempts=${NONE} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_tg} | ${dut1_to_tg_ip_GW} -| | ... | ${tg_to_dut1_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${pass_test_src_ip} | ${prefix_length} -| | ... | ${dut1_to_tg_ip_GW} | ${dut1_to_tg} | resolve_attempts=${NONE} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | Then Send Packet And Check Headers | ${tg_node} -| | ... | ${pass_test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${drop_test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | ${dut1_to_tg_name}= | Get Interface Name | ${dut1_node} | ${dut1_to_tg} -| | When VPP IP Source Check Setup | ${dut1_node} | ${dut1_to_tg_name} -| | Then Send Packet And Check Headers | ${tg_node} -| | ... | ${pass_test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${dut1_to_tg_ip_GW} | ${test_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} -| | And Send packet from Port to Port should failed | ${tg_node} -| | ... | ${drop_test_src_ip} | ${test_dst_ip} | ${tg_to_dut1} -| | ... | ${tg_to_dut1_mac} | ${dut1_to_tg_mac} | ${tg_to_dut2} -| | ... | ${dut1_to_dut2_mac} | ${tg_to_dut2_mac} - -| TC02: VPP pass traffic on non-enabled RPF interface -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG -| | ... | [Cfg] On DUT1 setup IP source check. -| | ... | [Ver] Make TG verify matching packets on non-enabled RPF interface -| | ... | are passed. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1_to_tg_ip} | ${prefix_length} -| | And Set Interface Address | ${dut1_node} -| | ... | ${dut1_to_dut2} | ${dut1_to_dut2_ip} | ${prefix_length} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut1_to_dut2_ip_GW} -| | ... | ${tg_to_dut2_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${test_dst_ip} | ${prefix_length} -| | ... | ${dut1_to_dut2_ip_GW} | ${dut1_to_dut2} | resolve_attempts=${NONE} -| | And Add Arp On Dut -| | ... | ${dut1_node} | ${dut1_to_tg} | ${dut1_to_tg_ip_GW} -| | ... | ${tg_to_dut1_mac} -| | And Vpp Route Add -| | ... | ${dut1_node} | ${pass_test_src_ip} | ${prefix_length} -| | ... | ${dut1_to_tg_ip_GW} | ${dut1_to_tg} | resolve_attempts=${NONE} -| | And L2 setup xconnect on DUT -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${dut2_to_tg} -| | ${dut1_to_tg_name}= | Get Interface Name | ${dut1_node} | ${dut1_to_tg} -| | When VPP IP Source Check Setup | ${dut1_node} | ${dut1_to_tg_name} -| | Then Send Packet And Check Headers | ${tg_node} -| | ... | ${test_dst_ip} | ${pass_test_src_ip} | ${tg_to_dut2} -| | ... | ${tg_to_dut2_mac} | ${dut1_to_dut2_mac} | ${tg_to_dut1} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut1_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${test_dst_ip} | ${dut1_to_tg_ip_GW} | ${tg_to_dut2} -| | ... | ${tg_to_dut2_mac} | ${dut1_to_dut2_mac} | ${tg_to_dut1} -| | ... | ${dut1_to_tg_mac} | ${tg_to_dut1_mac} diff --git a/tests/suites/softwire/lightweight_4over6.robot b/tests/suites/softwire/lightweight_4over6.robot deleted file mode 100644 index 68eea42d8e..0000000000 --- a/tests/suites/softwire/lightweight_4over6.robot +++ /dev/null @@ -1,200 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/ipv4.robot -| Resource | resources/libraries/robot/ipv6.robot -| Resource | resources/libraries/robot/map.robot -| Library | resources.libraries.python.Trace -| Force Tags | HW_ENV | VM_ENV | 3_NODE_DOUBLE_LINK_TOPO -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| Test Teardown | Show Packet Trace on All DUTs | ${nodes} -| Documentation | *Lightweight 4 over 6 test cases* -| ... -| ... | LW4o6 is a subset of MAP-E, with per-subscriber rules. It uses the -| ... | same tunneling mechanism and configuration as MAP-E. It does not use -| ... | embedded address bits. -| ... -| ... | *[Top] Network Topologies:* TG=DUT1 2-node topology with two links -| ... | between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4-UDP on TG_if1-DUT, -| ... | Eth-IPv6-IPv4-UDP on TG_if2_DUT. -| ... | *[Cfg] DUT configuration:* DUT1 is configured as lwAFTR. -| ... | *[Ver] TG verification:* Test UDP ICMP Echo Request in IPv4 are -| ... | sent to lwAFTR and are verified by TG for correctness their -| ... | encapsulation in IPv6 src-addr, dst-addr and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* RFC7596 RFC7597. - -*** Variables *** -| ${dut_ip4}= | 10.0.0.1 -| ${dut_ip6}= | 2001:0::1 -| ${ipv4_prefix_len}= | 24 -| ${ipv6_prefix_len}= | 64 - -| ${lw_ipv4_pfx}= | 20.0.0.1/32 -| ${lw_ipv6_pfx}= | 2001:1::/64 -| ${lw_ipv6_src}= | 2001:1::1 -| ${lw_psid_length}= | ${8} -| ${lw_psid_offset}= | ${6} -| ${lw_rule_psid}= | ${52} -| ${lw_rule_ipv6_dst}= | 2001:1::2 -| ${lw_rule_2_psid}= | ${22} -| ${lw_rule_2_ipv6_dst}= | 2001:1::3 -| ${test_ipv4_inside}= | 20.0.0.1 -| ${test_ipv4_outside}= | 10.0.0.100 -# test_port depends on psid, length, offset -| ${test_port}= | ${1232} -| ${test_icmp_id}= | ${1232} -| ${test_2_port}= | ${6232} - -*** Test Cases *** -| TC01: Encapsulate IPv4 into IPv6. IPv6 dst depends on IPv4 and UDP destination -| | [Documentation] -| | ... | [Top] TG=DUT1. -| | ... | [Enc] Eth-IPv4-UDP on TG_if1-DUT, Eth-IPv6-IPv4-UDP on TG_if2_DUT. -| | ... | [Cfg] On DUT1 configure Map domain and Map rule. -| | ... | [Ver] Make TG send non-encapsulated UDP to DUT; verify TG received -| | ... | IPv4oIPv6 encapsulated packet is correct. -| | ... | [Ref] RFC7596 RFC7597 -| | ... -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | And IP addresses are set on interfaces -| | ... | ${dut_node} | ${dut_to_tg_if1} | ${dut_ip4} | ${ipv4_prefix_len} -| | ... | ${dut_node} | ${dut_to_tg_if2} | ${dut_ip6} | ${ipv6_prefix_len} -| | And Add IP Neighbor -| | ... | ${dut_node} | ${dut_to_tg_if2} | ${lw_rule_ipv6_dst} -| | ... | ${tg_to_dut_if2_mac} -| | ${domain_index}= -| | ... | When Map Add Domain -| | ... | ${dut_node} | ${lw_ipv4_pfx} | ${lw_ipv6_pfx} -| | ... | ${lw_ipv6_src} | 0 | ${lw_psid_offset} -| | ... | ${lw_psid_length} -| | And Map Add Rule -| | ... | ${dut_node} | ${domain_index} | ${lw_rule_psid} -| | ... | ${lw_rule_ipv6_dst} -| | Then Send IPv4 UDP and check headers for lightweight 4over6 -| | ... | ${tg_node} | ${tg_to_dut_if1} | ${tg_to_dut_if2} -| | ... | ${dut_to_tg_if1_mac} | ${test_ipv4_inside} | ${test_ipv4_outside} -| | ... | ${test_port} | ${tg_to_dut_if2_mac} | ${dut_to_tg_if2_mac} -| | ... | ${lw_rule_ipv6_dst} | ${lw_ipv6_src} - -TC02: Encapsulate IPv4 ICMP into IPv6. IPv6 dst depends on IPv4 addr and ICMP ID -| | [Documentation] -| | ... | [Top] TG=DUT1. -| | ... | [Enc] Eth-IPv4-ICMP(type 0 and 8) on TG_if1-DUT, Eth-IPv6-IPv4-ICMP -| | ... | on TG_if2_DUT. -| | ... | [Cfg] On DUT1 configure Map domain and Map rule. -| | ... | [Ver] Make TG send non-encapsulated ICMP to DUT; verify TG received -| | ... | IPv4oIPv6 encapsulated packet is correct. Checks IPv6 -| | ... | destination based on ICMP Identifier field. -| | ... | [Ref] RFC7596 section 8.1 -| | ... -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | And IP addresses are set on interfaces -| | ... | ${dut_node} | ${dut_to_tg_if1} | ${dut_ip4} | ${ipv4_prefix_len} -| | ... | ${dut_node} | ${dut_to_tg_if2} | ${dut_ip6} | ${ipv6_prefix_len} -| | And Add IP Neighbor -| | ... | ${dut_node} | ${dut_to_tg_if2} | ${lw_rule_ipv6_dst} -| | ... | ${tg_to_dut_if2_mac} -| | ${domain_index}= -| | ... | When Map Add Domain -| | ... | ${dut_node} | ${lw_ipv4_pfx} | ${lw_ipv6_pfx} -| | ... | ${lw_ipv6_src} | 0 | ${lw_psid_offset} -| | ... | ${lw_psid_length} -| | And Map Add Rule -| | ... | ${dut_node} | ${domain_index} | ${lw_rule_psid} -| | ... | ${lw_rule_ipv6_dst} -| | Then Send IPv4 ICMP and check headers for lightweight 4over6 -| | ... | ${tg_node} | ${tg_to_dut_if1} | ${tg_to_dut_if2} -| | ... | ${dut_to_tg_if1_mac} | ${test_ipv4_inside} | ${test_ipv4_outside} -| | ... | ${test_icmp_id} | ${tg_to_dut_if2_mac} | ${dut_to_tg_if2_mac} -| | ... | ${lw_rule_ipv6_dst} | ${lw_ipv6_src} - -TC03: Decapsulate IPv4 UDP from IPv6. -| | [Documentation] -| | ... | [Top] TG=DUT1. -| | ... | [Enc] Eth-IPv6-IPv4-UDP on TG_if2_DUT, Eth-IPv4-UDP on TG_if1-DUT. -| | ... | [Cfg] On DUT1 configure Map domain and Map rule. -| | ... | [Ver] Make TG send encapsulated UDP to DUT; verify TG received -| | ... | IPv4 non-encapsulated packet is correct. -| | ... | [Ref] RFC7596 RFC7597 -| | ... -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | And IP addresses are set on interfaces -| | ... | ${dut_node} | ${dut_to_tg_if1} | ${dut_ip4} | ${ipv4_prefix_len} -| | ... | ${dut_node} | ${dut_to_tg_if2} | ${dut_ip6} | ${ipv6_prefix_len} -| | And Add Arp on DUT -| | ... | ${dut_node} | ${dut_to_tg_if1} -| | ... | ${test_ipv4_outside} -| | ... | ${tg_to_dut_if1_mac} -| | ${domain_index}= -| | ... | When Map Add Domain -| | ... | ${dut_node} | ${lw_ipv4_pfx} | ${lw_ipv6_pfx} -| | ... | ${lw_ipv6_src} | 0 | ${lw_psid_offset} -| | ... | ${lw_psid_length} -| | And Map Add Rule -| | ... | ${dut_node} | ${domain_index} | ${lw_rule_psid} -| | ... | ${lw_rule_ipv6_dst} -| | Then Send IPv4 UDP in IPv6 and check headers for lightweight 4over6 -| | ... | ${tg_node} | ${tg_to_dut_if2} | ${tg_to_dut_if1} -| | ... | ${dut_to_tg_if2_mac} | ${tg_to_dut_if2_mac} -| | ... | ${lw_ipv6_src} | ${lw_rule_ipv6_dst} -| | ... | ${test_ipv4_outside} | ${test_ipv4_inside} | ${test_port} -| | ... | ${tg_to_dut_if1_mac} | ${dut_to_tg_if1_mac} - -TC04: Hairpinning of traffic between two lwB4 -| | [Documentation] -| | ... | [Top] DUT1-TG. -| | ... | [Enc] Eth-IPv6-IPv4-UDP on TG_if2_DUT, Eth-IPv6-IPv4-UDP on TG_if2_DUT. -| | ... | [Cfg] On DUT1 configure Map domain and two Map rules. -| | ... | [Ver] Make TG send encapsulated UDP to DUT; verify TG received -| | ... | encapsulated packet is correct. -| | ... | [Ref] RFC7596 RFC7597 -| | ... -| | Given Path for 2-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | And IP addresses are set on interfaces -| | ... | ${dut_node} | ${dut_to_tg_if1} | ${dut_ip4} | ${ipv4_prefix_len} -| | ... | ${dut_node} | ${dut_to_tg_if2} | ${dut_ip6} | ${ipv6_prefix_len} -| | And Add IP Neighbor -| | ... | ${dut_node} | ${dut_to_tg_if2} | ${lw_rule_2_ipv6_dst} -| | ... | ${tg_to_dut_if2_mac} -| | ${domain_index}= -| | ... | When Map Add Domain -| | ... | ${dut_node} | ${lw_ipv4_pfx} | ${lw_ipv6_pfx} -| | ... | ${lw_ipv6_src} | 0 | ${lw_psid_offset} -| | ... | ${lw_psid_length} -| | And Map Add Rule -| | ... | ${dut_node} | ${domain_index} | ${lw_rule_psid} -| | ... | ${lw_rule_ipv6_dst} -| | And Map Add Rule -| | ... | ${dut_node} | ${domain_index} | ${lw_rule_2_psid} -| | ... | ${lw_rule_2_ipv6_dst} -| | Then Send IPv4 UDP in IPv6 and check headers for lightweight hairpinning -| | ... | ${tg_node} | ${tg_to_dut_if2} | ${tg_to_dut_if2} -| | ... | ${dut_to_tg_if2_mac} -| | ... | ${lw_ipv6_src} | ${lw_rule_ipv6_dst} -| | ... | ${test_ipv4_inside} | ${test_ipv4_inside} -| | ... | ${test_2_port} | ${test_port} -| | ... | ${tg_to_dut_if2_mac} | ${dut_to_tg_if2_mac} -| | ... | ${lw_rule_2_ipv6_dst} | ${lw_ipv6_src} diff --git a/tests/suites/tap/tap_interface.robot b/tests/suites/tap/tap_interface.robot deleted file mode 100644 index d32a970aca..0000000000 --- a/tests/suites/tap/tap_interface.robot +++ /dev/null @@ -1,305 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/ipv4.robot -| Resource | resources/libraries/robot/ipv6.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/bridge_domain.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/traffic.robot -| Library | resources.libraries.python.Trace -| Library | resources.libraries.python.Tap -| Library | resources.libraries.python.Namespaces -| Library | resources.libraries.python.IPUtil -| Force Tags | HW_ENV | VM_ENV | 3_NODE_DOUBLE_LINK_TOPO -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| ... | AND | Clean Up Namespaces | ${nodes['DUT1']} -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Clean Up Namespaces | ${nodes['DUT1']} -| Documentation | *Tap Interface Traffic Tests* -| ... | *[Top] Network Topologies:* TG=DUT1 2-node topology with two links -| ... | between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4-ICMPv4 for L2 switching of -| ... | IPv4. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 -| ... | bridge-domain (L2BD) MAC learning enabled; Split Horizon Groups (SHG) -| ... | are set depending on test case; Namespaces (NM) -| ... | are set on DUT1 with attached linux-TAP. -| ... | *[Ver] TG verification:* Test ICMPv4 Echo Request packets -| ... | are sent by TG on link to DUT1; On receipt TG verifies packets -| ... | for correctness and their IPv4 src-addr, dst-addr, and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* - -*** Variables *** -| ${tap1_VPP_ip}= | 16.0.10.1 -| ${tap2_VPP_ip}= | 16.0.20.1 - -| ${tap1_NM_ip}= | 16.0.10.2 -| ${tap2_NM_ip}= | 16.0.20.2 -| ${tap2_NM_SHG}= | 16.0.10.3 - -| ${bid_from_TG}= | 19 -| ${bid_to_TG}= | 20 -| ${bid_NM}= | container1_br -| ${bid_TAP}= | tapBr -| ${bd_id1}= | 21 -| ${bd_id2}= | 22 -| ${shg1}= | 2 -| ${shg2}= | 3 - -| ${tap1_NM_mac}= | 02:00:00:00:00:02 -| ${tap2_NM_mac}= | 02:00:00:00:00:04 - -| ${tap_int1}= | tap_int1 -| ${tap_int2}= | tap_int2 -| ${mod_tap_name}= | tap_int1MOD - -| ${namespace1}= | nmspace1 -| ${namespace2}= | nmspace2 - -| ${tg_ip_address}= | 192.168.0.2 -| ${tg_ip_address_SHG}= | 16.0.10.20 -| ${tg_ip_address_GW}= | 192.168.0.0 - -| ${prefix}= | 24 - -*** Test Cases *** -| TC01: Tap Interface Simple BD -| | [Documentation] -| | ... | [Top] TG-DUT1-TG. -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] On DUT1 configure two -| | ... | L2BD with two if's for each L2BD with MAC learning and one L2BD -| | ... | joining two linux-TAP interfaces created by VPP located in namespace. -| | ... | [Ver] Packet sent from TG is passed through all L2BD and received -| | ... | back on TG. Then src_ip, dst_ip and MAC are checked. -| | Given Path for 2-node testing is set | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | ${int1}= | And Add Tap Interface | ${dut_node} | ${tap_int1} -| | ${int2}= | And Add Tap Interface | ${dut_node} | ${tap_int2} -| | And Set Interface State | ${dut_node} | ${int1} | up -| | And Set Interface State | ${dut_node} | ${int2} | up -| | And Bridge domain on DUT node is created | ${dut_node} -| | ... | ${bid_from_TG} | learn=${TRUE} -| | And Bridge domain on DUT node is created | ${dut_node} -| | ... | ${bid_to_TG} | learn=${TRUE} -| | And Linux Add Bridge | ${dut_node} -| | ... | ${bid_TAP} | ${tap_int1} | ${tap_int2} -| | And Interface is added to bridge domain | ${dut_node} -| | ... | ${int1} | ${bid_to_TG} | 0 -| | And Interface is added to bridge domain | ${dut_node} -| | ... | ${dut_to_tg_if1} | ${bid_to_TG} | 0 -| | And Interface is added to bridge domain | ${dut_node} -| | ... | ${int2} | ${bid_from_TG} | 0 -| | And Interface is added to bridge domain | ${dut_node} -| | ... | ${dut_to_tg_if2} | ${bid_from_TG} | 0 -| | Then Send and receive ICMP Packet | ${tg_node} -| | ... | ${tg_to_dut_if1} | ${tg_to_dut_if2} - -| TC02: Tap Interface IP Ping Without Namespace -| | [Documentation] -| | ... | [Top] TG-DUT1-TG. -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] On DUT1 configure two interface addresses with IPv4 of which -| | ... | one is TAP interface ( dut_to_tg_if and TAP ). -| | ... | and one is linux-TAP. -| | ... | [Ver] Packet sent from TG gets to the destination and ICMP-reply is -| | ... | received on TG. -| | Given Path for 2-node testing is set | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | ${int1}= | And Add Tap Interface | ${dut_node} | ${tap_int1} | -| | And Set Interface Address -| | ... | ${dut_node} | ${int1} | ${tap1_VPP_ip} | ${prefix} -| | And Set Interface State | ${dut_node} | ${int1} | up -| | And Set Linux Interface MAC | ${dut_node} | ${tap_int1} | ${tap1_NM_mac} -| | And Set Linux Interface IP | ${dut_node} -| | ... | ${tap_int1} | ${tap1_NM_ip} | ${prefix} -| | And Add Route | ${dut_node} -| | ... | ${tg_ip_address_GW} | ${prefix} | ${tap1_VPP_ip} -| | And Add Arp On Dut | ${dut_node} | ${dut_to_tg_if1} -| | ... | ${tg_ip_address} | ${tg_to_dut_if1_mac} -| | And Add Arp On Dut | ${dut_node} | ${int1} -| | ... | ${tap1_NM_ip} | ${tap1_NM_mac} -| | Then Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${dut_to_tg_if1_mac} | ${tg_to_dut_if1_mac} -| | ... | ${tap1_NM_ip} | ${tg_ip_address} - -| TC03: Tap Interface IP Ping With Namespace -| | [Documentation] -| | ... | [Top] TG-DUT1-TG. -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] On DUT1 configure two interface addresses with IPv4 of which -| | ... | one is TAP interface ( dut_to_tg_if and TAP ). -| | ... | and one is linux-TAP in namespace. -| | ... | [Ver] Packet sent from TG gets to the destination and ICMP-reply is -| | ... | received on TG. -| | Given Path for 2-node testing is set | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | ${int1}= | And Add Tap Interface | ${dut_node} | ${tap_int1} | -| | And Set Interface Address -| | ... | ${dut_node} | ${int1} | ${tap1_VPP_ip} | ${prefix} -| | And Set Interface State | ${dut_node} | ${int1} | up -| | When Create Namespace | ${dut_node} | ${namespace1} -| | And Attach Interface To Namespace | ${dut_node} -| | ... | ${namespace1} | ${tap_int1} -| | And Set Linux Interface MAC | ${dut_node} -| | ... | ${tap_int1} | ${tap1_NM_mac} | ${namespace1} -| | And Set Linux Interface IP | ${dut_node} -| | ... | ${tap_int1} | ${tap1_NM_ip} | ${prefix} | ${namespace1} -| | And Add Arp On Dut | ${dut_node} | ${dut_to_tg_if1} -| | ... | ${tg_ip_address} | ${tg_to_dut_if1_mac} -| | And Add Arp On Dut | ${dut_node} | ${int1} -| | ... | ${tap1_NM_ip} | ${tap1_NM_mac} -| | And Add Route | ${dut_node} -| | ... | ${tg_ip_address_GW} | ${prefix} | ${tap1_VPP_ip} | ${namespace1} -| | Then Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${dut_to_tg_if1_mac} | ${tg_to_dut_if1_mac} -| | ... | ${tap1_NM_ip} | ${tg_ip_address} - -| TC04: Tap Interface BD - Different Split Horizon -| | [Documentation] -| | ... | [Top] TG-DUT1-TG. -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] On DUT1 -| | ... | configure one if into L2BD with MAC learning. Add two TAP interfaces -| | ... | into this L2BD and assign them different SHG. Setup two namespaces -| | ... | and assign two linux-TAP interfaces to it respectively. -| | ... | [Ver] Packet is sent from TG to both linux-TAP interfaces and reply -| | ... | is checked. Ping from First linux-TAP to another should pass. -| | Given Path for 2-node testing is set | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | ${int1}= | And Add Tap Interface | ${dut_node} | ${tap_int1} -| | ${int2}= | And Add Tap Interface | ${dut_node} | ${tap_int2} -| | And Set Interface State | ${dut_node} | ${int1} | up -| | And Set Interface State | ${dut_node} | ${int2} | up -| | When Create Namespace | ${dut_node} | ${namespace1} -| | And Attach Interface To Namespace | ${dut_node} -| | ... | ${namespace1} | ${tap_int1} -| | And Create Namespace | ${dut_node} | ${namespace2} -| | And Attach Interface To Namespace | ${dut_node} -| | ... | ${namespace2} | ${tap_int2} -| | And Set Linux Interface IP | ${dut_node} | ${tap_int1} -| | ... | ${tap1_NM_ip} | ${prefix} | ${namespace1} -| | And Set Linux Interface IP | ${dut_node} | ${tap_int2} -| | ... | ${tap2_NM_SHG} | ${prefix} | ${namespace2} -| | And Set Linux Interface MAC | ${dut_node} -| | ... | ${tap_int1} | ${tap1_NM_mac} | ${namespace1} -| | And Set Linux Interface MAC | ${dut_node} -| | ... | ${tap_int2} | ${tap2_NM_mac} | ${namespace2} -| | And Set Linux Interface ARP | ${dut_node} | ${tap_int1} -| | ... | ${tg_ip_address_SHG} | ${tg_to_dut_if1_mac} | ${namespace1} -| | And Set Linux Interface ARP | ${dut_node} | ${tap_int2} -| | ... | ${tg_ip_address_SHG} | ${tg_to_dut_if1_mac} | ${namespace2} -| | And Bridge domain on DUT node is created | ${dut_node} -| | ... | ${bd_id1} | learn=${TRUE} -| | And Interface is added to bridge domain | ${dut_node} | ${dut_to_tg_if1} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut_node} | ${int1} -| | ... | ${bd_id1} | ${shg1} -| | And Interface is added to bridge domain | ${dut_node} | ${int2} -| | ... | ${bd_id1} | ${shg2} -| | Then Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tap1_NM_mac} | ${tg_to_dut_if1_mac} -| | ... | ${tap1_NM_ip} | ${tg_ip_address_SHG} -| | And Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tap2_NM_mac} | ${tg_to_dut_if1_mac} -| | ... | ${tap2_NM_SHG} | ${tg_ip_address_SHG} -| | And Send Ping From Node To Dst | ${dut_node} | ${tap1_NM_ip} | namespace=${namespace2} -| | And Send Ping From Node To Dst | ${dut_node} | ${tap2_NM_SHG} | namespace=${namespace1} - -| TC05: Tap Interface BD - Same Split Horizon -| | [Documentation] -| | ... | [Top] TG-DUT1-TG. -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] On DUT1 -| | ... | configure one if into L2BD with MAC learning. Add two TAP interfaces -| | ... | into this L2BD and assign them same SHG. Setup two namespaces -| | ... | and assign two linux-TAP interfaces to it respectively. -| | ... | [Ver] Packet is sent from TG to both linux-TAP interfaces and reply -| | ... | is checked. Ping from First linux-TAP to another should fail. -| | Given Path for 2-node testing is set | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | ${int1}= | And Add Tap Interface | ${dut_node} | ${tap_int1} -| | ${int2}= | And Add Tap Interface | ${dut_node} | ${tap_int2} -| | And Set Interface State | ${dut_node} | ${int1} | up -| | And Set Interface State | ${dut_node} | ${int2} | up -| | When Create Namespace | ${dut_node} | ${namespace1} -| | And Attach Interface To Namespace | ${dut_node} -| | ... | ${namespace1} | ${tap_int1} -| | And Create Namespace | ${dut_node} | ${namespace2} -| | And Attach Interface To Namespace | ${dut_node} -| | ... | ${namespace2} | ${tap_int2} -| | And Set Linux Interface IP | ${dut_node} | ${tap_int1} -| | ... | ${tap1_NM_ip} | ${prefix} | ${namespace1} -| | And Set Linux Interface IP | ${dut_node} | ${tap_int2} -| | ... | ${tap2_NM_SHG} | ${prefix} | ${namespace2} -| | And Set Linux Interface MAC | ${dut_node} -| | ... | ${tap_int1} | ${tap1_NM_mac} | ${namespace1} -| | And Set Linux Interface MAC | ${dut_node} -| | ... | ${tap_int2} | ${tap2_NM_mac} | ${namespace2} -| | And Set Linux Interface ARP | ${dut_node} | ${tap_int1} -| | ... | ${tg_ip_address_SHG} | ${tg_to_dut_if1_mac} | ${namespace1} -| | And Set Linux Interface ARP | ${dut_node} | ${tap_int2} -| | ... | ${tg_ip_address_SHG} | ${tg_to_dut_if1_mac} | ${namespace2} -| | And Bridge domain on DUT node is created | ${dut_node} -| | ... | ${bd_id1} | learn=${TRUE} -| | And Interface is added to bridge domain | ${dut_node} | ${dut_to_tg_if1} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut_node} | ${int1} -| | ... | ${bd_id1} | ${shg1} -| | And Interface is added to bridge domain | ${dut_node} | ${int2} -| | ... | ${bd_id1} | ${shg1} -| | Then Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tap1_NM_mac} | ${tg_to_dut_if1_mac} -| | ... | ${tap1_NM_ip} | ${tg_ip_address_SHG} -| | And Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut_if1} -| | ... | ${tap2_NM_mac} | ${tg_to_dut_if1_mac} -| | ... | ${tap2_NM_SHG} | ${tg_ip_address_SHG} -| | And Run Keyword And Expect Error | Ping Not Successful | Send Ping From Node To Dst -| | ... | ${dut_node} | ${tap2_NM_SHG} | namespace=${namespace1} -| | And Run Keyword And Expect Error | Ping Not Successful | Send Ping From Node To Dst -| | ... | ${dut_node} | ${tap1_NM_ip} | namespace=${namespace2} - -| TC06: Tap Interface Modify And Delete -| | [Documentation] -| | ... | [Top] TG-DUT1-TG. -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] Set two TAP interfaces. -| | ... | [Ver] Verify that TAP interface can be modified, deleted, and no other -| | ... | TAP interface is affected. -| | Given Path for 2-node testing is set | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['TG']} -| | And Interfaces in 2-node path are up -| | ${int1}= | And Add Tap Interface | ${dut_node} | ${tap_int1} -| | ${int2}= | And Add Tap Interface | ${dut_node} | ${tap_int2} -| | And Set Interface State | ${dut_node} | ${int1} | up -| | And Set Interface State | ${dut_node} | ${int2} | up -| | When Modify Tap Interface | ${dut_node} | ${int1} | ${mod_tap_name} -| | Then Check Tap Present | ${dut_node} | ${mod_tap_name} -| | When Delete Tap Interface | ${dut_node} | ${int1} -| | Then Run Keyword And Expect Error -| | ... | Tap interface :${mod_tap_name} does not exist -| | ... | Check Tap Present | ${dut_node} | ${mod_tap_name} -| | And Check Tap Present | ${dut_node} | ${tap_int2} -| | When Delete Tap Interface | ${dut_node} | ${int2} -| | Then Run Keyword And Expect Error -| | ... | ValueError: No JSON object could be decoded -| | ... | Check Tap Present | ${dut_node} | ${tap_int2} diff --git a/tests/suites/vlan/qinq_l2_xconnect.robot b/tests/suites/vlan/qinq_l2_xconnect.robot deleted file mode 100644 index 35fdcde6ca..0000000000 --- a/tests/suites/vlan/qinq_l2_xconnect.robot +++ /dev/null @@ -1,71 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/tagging.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Library | resources.libraries.python.Trace -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | HW_ENV | VM_ENV -| Test Setup | Setup all DUTs before test -| Suite Setup | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *L2 cross-connect with QinQ test cases* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology with -| ... | single links between nodes. -| ... | *[Enc] Packet encapsulations:* Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, -| ... | Eth-IPv4-ICMPv4 on TG-DUTn for L2 switching of IPv4. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 -| ... | cross-connect (L2XC) switching with 802.1ad QinQ VLAN tag push and pop. -| ... | *[Ver] TG verification:* Test ICMPv4 Echo Request packets are -| ... | sent in both directions by TG on links to DUT1 and DUT2; on receive TG -| ... | verifies packets for correctness and their IPv4 src-addr, dst-addr and -| ... | MAC addresses. -| ... | *[Ref] Applicable standard specifications:* IEEE 802.1ad. - -*** Variables *** -| ${subid}= | 10 -| ${outer_vlan_id}= | 100 -| ${inner_vlan_id}= | 200 -| ${type_subif}= | two_tags -| ${tag_rewrite_method}= | pop-2 - -*** Test Cases *** -| TC01: DUT1 and DUT2 with L2XC and two VLAN push-pop switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on \ -| | ... | DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 -| | ... | configure L2 cross-connect (L2XC), each with one interface to TG -| | ... | and one Ethernet interface towards the other DUT; each DUT -| | ... | pushes two VLAN tags on packets received from local TG, and -| | ... | popping two VLAN tags on packets transmitted to local TG. [Ver] -| | ... | Make TG send ICMPv4 Echo Req in both directions between two of -| | ... | its interfaces to be switched by DUT1 and DUT2; verify all -| | ... | packets are received. [Ref] IEEE 802.1ad. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | When VLAN subinterfaces initialized on 3-node topology -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | ${outer_vlan_id} | ${inner_vlan_id} | ${type_subif} -| | And L2 tag rewrite method setup on interfaces -| | ... | ${dut1_node} | ${subif_index_1} | ${dut2_node} | ${subif_index_2} -| | ... | ${tag_rewrite_method} -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subif_index_1} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${subif_index_2} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} diff --git a/tests/suites/vlan/vlan_tag_translate_l2_bridge_domain_ipv4.robot b/tests/suites/vlan/vlan_tag_translate_l2_bridge_domain_ipv4.robot deleted file mode 100644 index 0ff10cd328..0000000000 --- a/tests/suites/vlan/vlan_tag_translate_l2_bridge_domain_ipv4.robot +++ /dev/null @@ -1,552 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/bridge_domain.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/tagging.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Library | resources.libraries.python.Trace -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | HW_ENV | VM_ENV -| Test Setup | Setup all DUTs before test -| Suite Setup | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *L2 bridge domain with VLAN tag rewrite test cases - IPv4* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet encapsulations:* Eth-dot1q-IPv4-ICMPv4 or -| ... | Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and DUT1-DUT2, Eth-IPv4-ICMPv4 -| ... | on TG-DUT2 for L2 switching of IPv4. -| ... | *[Cfg] DUT configuration:* DUT1 is configured with bridge domain (L2BD) -| ... | switching combined with MAC learning enabled and added VLAN -| ... | sub-interface with VLAN tag rewrite translate-1-1 method -| ... | of interface towards TG and interface towards DUT2. DUT2 is configured -| ... | with L2 bridge domain (L2BD) switching between VLAN sub-interface -| ... | with VLAN tag rewrite pop-1 method of interface towards DUT1 and -| ... | interface towards TG. -| ... | *[Ver] TG verification:* Test ICMPv4 Echo Request packets are -| ... | sent from TG on link to DUT1 and received in TG on link form DUT2; -| ... | on receive TG verifies packets for correctness and their IPv4 src-addr, -| ... | dst-addr and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* IEEE 802.1q, IEEE 802.1ad. - -*** Variables *** -| ${bd_id1}= | 1 - -| ${subid}= | 10 - -| ${outer_vlan_id1}= | 110 -| ${outer_vlan_id2}= | 120 -| ${outer_vlan_wrong}= | 150 - -| ${inner_vlan_id1}= | 210 -| ${inner_vlan_id2}= | 220 -| ${inner_vlan_wrong}= | 250 - -*** Test Cases *** -| TC01: DUT1 and DUT2 with L2BD and VLAN translate-1-1 (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1 and \ -| | ... | DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | bridge domain with one interface to DUT2 and one VLAN -| | ... | sub-interface towards TG with VLAN tag rewrite translate-1-1 method; -| | ... | on DUT2 configure L2 bridge domain (L2BD) with one interface to TG -| | ... | and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | method. [Ver] Make TG send ICMPv4 Echo Req tagged with one Dot1q tag -| | ... | from one of its interfaces to another one via DUT1 and DUT2; verify -| | ... | that packet is received. [Ref] IEEE 802.1q -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-1 | tag1_id=${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | encaps=Dot1q -| | ... | vlan1=${outer_vlan_id1} - -| TC02: DUT1 and DUT2 with L2BD and VLAN translate-1-1 with wrong tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1 and \ -| | ... | DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | bridge domain (L2BD) with one interface to DUT2 and one VLAN -| | ... | sub-interface towards TG with VLAN tag rewrite translate-1-1 method -| | ... | to set tag different from tag set on VLAN sub-interface of DUT2; -| | ... | on DUT2 configure L2 bridge domain (L2BD) with one interface to TG -| | ... | and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | method. [Ver] Make TG send ICMPv4 Echo Req tagged with one Dot1q tag -| | ... | from one of its interfaces to another one via DUT1 and DUT2; verify -| | ... | that packet is not received. [Ref] IEEE 802.1q -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-1 | tag1_id=${outer_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1q | vlan1=${outer_vlan_id1} - -| TC03: DUT1 and DUT2 with L2BD and VLAN translate-1-2 (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method; on DUT2 configure L2 bridge domain (L2BD) with -| | ... | one interface to TG and one Dot1ad sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv4 Echo Req -| | ... | tagged with one Dot1q tag from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | encaps=Dot1q -| | ... | vlan1=${outer_vlan_id1} - -| TC04: DUT1 and DUT2 with L2BD and VLAN translate-1-2 with wrong inner tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method to set inner tag different from inner tag set on -| | ... | Dot1ad sub-interface of DUT2; on DUT2 configure L2 bridge domain with -| | ... | one interface to TG and one Dot1ad sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv4 Echo Req -| | ... | tagged with one Dot1q tag from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1q | vlan1=${outer_vlan_id1} - -| TC05: DUT1 and DUT2 with L2BD and VLAN translate-1-2 with wrong outer tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method to set outer tag different from outer tag set on -| | ... | Dot1ad sub-interface of DUT2; on DUT2 configure L2 bridge domain with -| | ... | one interface to TG and one Dot1ad sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv4 Echo Req -| | ... | tagged with one Dot1q tag from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1q | vlan1=${outer_vlan_id1} - -| TC06: DUT1 and DUT2 with L2BD and VLAN translate-1-2 with wrong outer and inner tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method to set outer and inner tags different from tags -| | ... | set on Dot1ad sub-interface of DUT2; on DUT2 configure L2 -| | ... | bridge domain with one interface to TG and one Dot1ad sub-interface -| | ... | towards DUT1 with VLAN tag rewrite pop-2 method. [Ver] Make TG send -| | ... | ICMPv4 Echo Req tagged with one Dot1q tag from one of its interfaces -| | ... | to another one via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1q | vlan1=${outer_vlan_id1} - -| TC07: DUT1 and DUT2 with L2BD and VLAN translate-2-1 (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1, \ -| | ... | Eth-dot1q-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to -| | ... | DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite -| | ... | translate-2-1 method; on DUT2 configure L2 bridge domain (L2BD) with -| | ... | one interface to TG and one VLAN sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv4 Echo Req -| | ... | tagged with Dot1ad tags from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-1 | tag1_id=${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | encaps=Dot1ad -| | ... | vlan1=${outer_vlan_id1} | vlan2=${inner_vlan_id1} - -| TC08: DUT1 and DUT2 with L2BD and VLAN translate-2-1 with wrong tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1, \ -| | ... | Eth-dot1q-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to -| | ... | DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite -| | ... | translate-2-1 method to set tag different from tag set on VLAN -| | ... | sub-interface of DUT2; on DUT2 configure L2 bridge domain (L2BD) with -| | ... | one interface to TG and one VLAN sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv4 Echo Req -| | ... | tagged with Dot1ad tags from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-1 | tag1_id=${outer_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1ad | vlan1=${outer_vlan_id1} -| | ... | vlan2=${inner_vlan_id1} - -| TC09: DUT1 and DUT2 with L2BD and VLAN translate-2-2 switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | bridge domain (L2BD) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method; -| | ... | on DUT2 configure L2 bridge domain (L2BD) with one interface to TG and -| | ... | one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | tagged with Dot1ad tags from one of its interfaces to another one -| | ... | method. [Ver] Make TG send ICMPv4 Echo Req via DUT1 and DUT2; verify -| | ... | that packet is received. [Ref] IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | encaps=Dot1ad -| | ... | vlan1=${outer_vlan_id1} | vlan2=${inner_vlan_id1} - -| TC10: DUT1 and DUT2 with L2BD and VLAN translate-2-2 with wrong inner tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | bridge domain (L2BD) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method to -| | ... | set inner tag different from inner tag set on Dot1ad sub-interface of -| | ... | DUT2; on DUT2 configure L2 bridge domain (L2BD) with one interface to -| | ... | TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite -| | ... | pop-1 tagged with Dot1ad tags from one of its interfaces to another -| | ... | one method. [Ver] Make TG send ICMPv4 Echo Req via DUT1 and DUT2; -| | ... | verify that packet is not received. [Ref] IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1ad | vlan1=${outer_vlan_id1} -| | ... | vlan2=${inner_vlan_id1} - -| TC11: DUT1 and DUT2 with L2BD and VLAN translate-2-2 with wrong outer tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | bridge domain (L2BD) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method to -| | ... | set outer tag different from outer tag set on Dot1ad sub-interface of -| | ... | DUT2; on DUT2 configure L2 bridge domain (L2BD) with one interface to -| | ... | TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite -| | ... | pop-1 tagged with Dot1ad tags from one of its interfaces to another -| | ... | one method. [Ver] Make TG send ICMPv4 Echo Req via DUT1 and DUT2; -| | ... | verify that packet is not received. [Ref] IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1ad | vlan1=${outer_vlan_id1} -| | ... | vlan2=${inner_vlan_id1} - -| TC12: DUT1 and DUT2 with L2BD and VLAN translate-2-2 with wrong outer and inner tags used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | bridge domain (L2BD) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method to -| | ... | set tags different from tags set on Dot1ad sub-interface of DUT2; -| | ... | on DUT2 configure L2 bridge domain (L2BD) with one interface to TG -| | ... | and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | tagged with Dot1ad tags from one of its interfaces to another one -| | ... | method. [Ver] Make TG send ICMPv4 Echo Req via DUT1 and DUT2; verify -| | ... | that packet is not received. [Ref] IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1ad | vlan1=${outer_vlan_id1} -| | ... | vlan2=${inner_vlan_id1} diff --git a/tests/suites/vlan/vlan_tag_translate_l2_bridge_domain_ipv6.robot b/tests/suites/vlan/vlan_tag_translate_l2_bridge_domain_ipv6.robot deleted file mode 100644 index e3d2d39dd5..0000000000 --- a/tests/suites/vlan/vlan_tag_translate_l2_bridge_domain_ipv6.robot +++ /dev/null @@ -1,561 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/bridge_domain.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/tagging.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Library | resources.libraries.python.Trace -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | HW_ENV | VM_ENV -| Test Setup | Setup all DUTs before test -| Suite Setup | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *L2 bridge domain with VLAN tag rewrite test cases - IPv6* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet encapsulations:* Eth-dot1q-IPv6-ICMPv6 or -| ... | Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and DUT1-DUT2, Eth-IPv6-ICMPv6 -| ... | on TG-DUT2 for L2 switching of IPv6. -| ... | *[Cfg] DUT configuration:* DUT1 is configured with bridge domain (L2BD) -| ... | switching combined with MAC learning enabled and added VLAN -| ... | sub-interface with VLAN tag rewrite translate-1-1 method -| ... | of interface towards TG and interface towards DUT2. DUT2 is configured -| ... | with L2 bridge domain (L2BD) switching between VLAN sub-interface -| ... | with VLAN tag rewrite pop-1 method of interface towards DUT1 and -| ... | interface towards TG. -| ... | *[Ver] TG verification:* Test ICMPv6 Echo Request packets are -| ... | sent from TG on link to DUT1 and received in TG on link form DUT2; -| ... | on receive TG verifies packets for correctness and their IPv6 src-addr, -| ... | dst-addr and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* IEEE 802.1q, IEEE 802.1ad. - -*** Variables *** -| ${bd_id1}= | 1 - -| ${subid}= | 10 - -| ${outer_vlan_id1}= | 110 -| ${outer_vlan_id2}= | 120 -| ${outer_vlan_wrong}= | 150 - -| ${inner_vlan_id1}= | 210 -| ${inner_vlan_id2}= | 220 -| ${inner_vlan_wrong}= | 250 - -| ${src_ip}= | 3ffe:63::1 -| ${dst_ip}= | 3ffe:63::2 - -*** Test Cases *** -| TC01: DUT1 and DUT2 with L2BD and VLAN translate-1-1 (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1 and \ -| | ... | DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | bridge domain (L2BD) with one interface to DUT2 and one VLAN -| | ... | sub-interface towards TG with VLAN tag rewrite translate-1-1 method; -| | ... | on DUT2 configure L2 bridge domain (L2BD) with one interface to TG -| | ... | and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | method. [Ver] Make TG send ICMPv6 Echo Req tagged with one Dot1q tag -| | ... | from one of its interfaces to another one via DUT1 and DUT2; verify -| | ... | that packet is received. [Ref] IEEE 802.1q -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-1 | tag1_id=${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | src_ip=${src_ip} -| | ... | dst_ip=${dst_ip} | encaps=Dot1q | vlan1=${outer_vlan_id1} - -| TC02: DUT1 and DUT2 with L2BD and VLAN translate-1-1 with wrong tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1 and \ -| | ... | DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | bridge domain (L2BD) with one interface to DUT2 and one VLAN -| | ... | sub-interface towards TG with VLAN tag rewrite translate-1-1 method -| | ... | to set tag different from tag set on VLAN sub-interface of DUT2; -| | ... | on DUT2 configure L2 bridge domain (L2BD) with one interface to TG -| | ... | and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | method. [Ver] Make TG send ICMPv6 Echo Req tagged with one Dot1q tag -| | ... | from one of its interfaces to another one via DUT1 and DUT2; verify -| | ... | that packet is not received. [Ref] IEEE 802.1q -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-1 | tag1_id=${outer_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1q -| | ... | vlan1=${outer_vlan_id1} - -| TC03: DUT1 and DUT2 with L2BD and VLAN translate-1-2 (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method; on DUT2 configure L2 bridge domain (L2BD) with -| | ... | one interface to TG and one Dot1ad sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv6 Echo Req -| | ... | tagged with one Dot1q tag from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | src_ip=${src_ip} -| | ... | dst_ip=${dst_ip} | encaps=Dot1q | vlan1=${outer_vlan_id1} - -| TC04: DUT1 and DUT2 with L2BD and VLAN translate-1-2 with wrong inner tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method to set inner tag different from inner tag set on -| | ... | Dot1ad sub-interface of DUT2; on DUT2 configure L2 bridge domain with -| | ... | one interface to TG and one Dot1ad sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv6 Echo Req -| | ... | tagged with one Dot1q tag from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1q -| | ... | vlan1=${outer_vlan_id1} - -| TC05: DUT1 and DUT2 with L2BD and VLAN translate-1-2 with wrong outer tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method to set outer tag different from outer tag set on -| | ... | Dot1ad sub-interface of DUT2; on DUT2 configure L2 bridge domain with -| | ... | one interface to TG and one Dot1ad sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv6 Echo Req -| | ... | tagged with one Dot1q tag from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1q -| | ... | vlan1=${outer_vlan_id1} - -| TC06: DUT1 and DUT2 with L2BD and VLAN translate-1-2 with wrong outer and inner tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method to set outer and inner tags different from tags -| | ... | set on Dot1ad sub-interface of DUT2; on DUT2 configure L2 -| | ... | bridge domain with one interface to TG and one Dot1ad sub-interface -| | ... | towards DUT1 with VLAN tag rewrite pop-2 method. [Ver] Make TG send -| | ... | ICMPv6 Echo Req tagged with one Dot1q tag from one of its interfaces -| | ... | to another one via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1q -| | ... | vlan1=${outer_vlan_id1} - -| TC07: DUT1 and DUT2 with L2BD and VLAN translate-2-1 (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1, \ -| | ... | Eth-dot1q-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to -| | ... | DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite -| | ... | translate-2-1 method; on DUT2 configure L2 bridge domain (L2BD) with -| | ... | one interface to TG and one VLAN sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv6 Echo Req -| | ... | tagged with Dot1ad tags from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-1 | tag1_id=${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | src_ip=${src_ip} -| | ... | dst_ip=${dst_ip} | encaps=Dot1ad | vlan1=${outer_vlan_id1} -| | ... | vlan2=${inner_vlan_id1} - -| TC08: DUT1 and DUT2 with L2BD and VLAN translate-2-1 with wrong tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1, \ -| | ... | Eth-dot1q-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to -| | ... | DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite -| | ... | translate-2-1 method to set tag different from tag set on VLAN -| | ... | sub-interface of DUT2; on DUT2 configure L2 bridge domain (L2BD) with -| | ... | one interface to TG and one VLAN sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv6 Echo Req -| | ... | tagged with Dot1ad tags from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-1 | tag1_id=${outer_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1ad -| | ... | vlan1=${outer_vlan_id1} | vlan2=${inner_vlan_id1} - -| TC09: DUT1 and DUT2 with L2BD and VLAN translate-2-2 switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | bridge domain (L2BD) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method; -| | ... | on DUT2 configure L2 bridge domain (L2BD) with one interface to TG and -| | ... | one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | tagged with Dot1ad tags from one of its interfaces to another one -| | ... | method. [Ver] Make TG send ICMPv6 Echo Req via DUT1 and DUT2; verify -| | ... | that packet is received. [Ref] IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | src_ip=${src_ip} -| | ... | dst_ip=${dst_ip} | encaps=Dot1ad | vlan1=${outer_vlan_id1} -| | ... | vlan2=${inner_vlan_id1} - -| TC10: DUT1 and DUT2 with L2BD and VLAN translate-2-2 with wrong inner tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | bridge domain (L2BD) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method to -| | ... | set inner tag different from inner tag set on Dot1ad sub-interface of -| | ... | DUT2; on DUT2 configure L2 bridge domain (L2BD) with one interface to -| | ... | TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite -| | ... | pop-1 tagged with Dot1ad tags from one of its interfaces to another -| | ... | one method. [Ver] Make TG send ICMPv6 Echo Req via DUT1 and DUT2; -| | ... | verify that packet is not received. [Ref] IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1ad -| | ... | vlan1=${outer_vlan_id1} | vlan2=${inner_vlan_id1} - -| TC11: DUT1 and DUT2 with L2BD and VLAN translate-2-2 with wrong outer tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | bridge domain (L2BD) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method to -| | ... | set outer tag different from outer tag set on Dot1ad sub-interface of -| | ... | DUT2; on DUT2 configure L2 bridge domain (L2BD) with one interface to -| | ... | TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite -| | ... | pop-1 tagged with Dot1ad tags from one of its interfaces to another -| | ... | one method. [Ver] Make TG send ICMPv6 Echo Req via DUT1 and DUT2; -| | ... | verify that packet is not received. [Ref] IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1ad -| | ... | vlan1=${outer_vlan_id1} | vlan2=${inner_vlan_id1} - -| TC12: DUT1 and DUT2 with L2BD and VLAN translate-2-2 with wrong outer and inner tags used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | bridge domain (L2BD) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method to -| | ... | set tags different from tags set on Dot1ad sub-interface of DUT2; -| | ... | on DUT2 configure L2 bridge domain (L2BD) with one interface to TG -| | ... | and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | tagged with Dot1ad tags from one of its interfaces to another one -| | ... | method. [Ver] Make TG send ICMPv6 Echo Req via DUT1 and DUT2; verify -| | ... | that packet is not received. [Ref] IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${vlan1_index} -| | ... | ${bd_id1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut2_node} | ${vlan2_index} -| | ... | ${bd_id1} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1ad -| | ... | vlan1=${outer_vlan_id1} | vlan2=${inner_vlan_id1} diff --git a/tests/suites/vlan/vlan_tag_translate_l2_xconnect_ipv4.robot b/tests/suites/vlan/vlan_tag_translate_l2_xconnect_ipv4.robot deleted file mode 100644 index f1a954f4d0..0000000000 --- a/tests/suites/vlan/vlan_tag_translate_l2_xconnect_ipv4.robot +++ /dev/null @@ -1,453 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/tagging.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Library | resources.libraries.python.Trace -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | HW_ENV | VM_ENV -| Test Setup | Setup all DUTs before test -| Suite Setup | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *L2 cross-connect with VLAN tag rewrite test cases - IPv4* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet encapsulations:* Eth-dot1q-IPv4-ICMPv4 or -| ... | Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and DUT1-DUT2, Eth-IPv4-ICMPv4 -| ... | on TG-DUT2 for L2 switching of IPv4. -| ... | *[Cfg] DUT configuration:* DUT1 is configured with L2 cross-connect -| ... | (L2XC) switching between VLAN sub-interface with VLAN tag rewrite -| ... | translate-1-1 method of interface towards TG and interface towards DUT2. -| ... | DUT2 is configured configured with L2 cross-connect (L2XC) switching -| ... | between VLAN sub-interface with VLAN tag rewrite pop-1 method -| ... | of interface towards DUT1 and interface towards TG. -| ... | *[Ver] TG verification:* Test ICMPv4 Echo Request packets are -| ... | sent from TG on link to DUT1 and received in TG on link form DUT2; -| ... | on receive TG verifies packets for correctness and their IPv4 src-addr, -| ... | dst-addr and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* IEEE 802.1q, IEEE 802.1ad. - -*** Variables *** -| ${subid}= | 10 -| ${outer_vlan_id1}= | 110 -| ${outer_vlan_id2}= | 120 -| ${outer_vlan_wrong}= | 150 -| ${inner_vlan_id1}= | 210 -| ${inner_vlan_id2}= | 220 -| ${inner_vlan_wrong}= | 250 - -*** Test Cases *** -| TC01: DUT1 and DUT2 with L2XC and VLAN translate-1-1 (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1 and \ -| | ... | DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | cross-connect (L2XC) with one interface to DUT2 and one VLAN -| | ... | sub-interface towards TG with VLAN tag rewrite translate-1-1 method; -| | ... | on DUT2 configure L2 cross-connect (L2XC) with one interface to TG -| | ... | and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | method. [Ver] Make TG send ICMPv4 Echo Req tagged with one Dot1q tag -| | ... | from one of its interfaces to another one via DUT1 and DUT2; verify -| | ... | that packet is received. [Ref] IEEE 802.1q -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-1 | tag1_id=${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | encaps=Dot1q -| | ... | vlan1=${outer_vlan_id1} - -| TC02: DUT1 and DUT2 with L2XC and VLAN translate-1-1 with wrong tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1 and \ -| | ... | DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | cross-connect (L2XC) with one VLAN tagged sub-interface to DUT2 and -| | ... | one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | (translate-1-1) on sub-interface to DUT2; on DUT2 configure L2XC with -| | ... | one interface to TG and one VLAN sub-interface towards DUT1 with VLAN -| | ... | tag pop-1. [Ver] Make TG send ICMPv4 Echo Req tagged with one dot1q -| | ... | tag from one of its interfaces to another one via DUT1 and DUT2; -| | ... | verify that packet is not received. [Ref] IEEE 802.1q -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-1 | tag1_id=${outer_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1q | vlan1=${outer_vlan_id1} - -| TC03: DUT1 and DUT2 with L2XC and VLAN translate-1-2 (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method; on DUT2 configure L2 cross-connect (L2XC) with -| | ... | one interface to TG and one Dot1ad sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv4 Echo Req -| | ... | tagged with one Dot1q tag from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | encaps=Dot1q -| | ... | vlan1=${outer_vlan_id1} - -| TC04: DUT1 and DUT2 with L2XC and VLAN translate-1-2 with wrong inner tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method to set inner tag different from inner tag set on -| | ... | Dot1ad sub-interface of DUT2; on DUT2 configure L2 cross-connect with -| | ... | one interface to TG and one Dot1ad sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv4 Echo Req -| | ... | tagged with one Dot1q tag from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1q | vlan1=${outer_vlan_id1} - -| TC05: DUT1 and DUT2 with L2XC and VLAN translate-1-2 with wrong outer tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method to set outer tag different from outer tag set on -| | ... | Dot1ad sub-interface of DUT2; on DUT2 configure L2 cross-connect with -| | ... | one interface to TG and one Dot1ad sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv4 Echo Req -| | ... | tagged with one Dot1q tag from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1q | vlan1=${outer_vlan_id1} - -| TC06: DUT1 and DUT2 with L2XC and VLAN translate-1-2 with wrong outer and inner tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method to set outer and inner tags different from tags -| | ... | set on Dot1ad sub-interface of DUT2; on DUT2 configure L2 -| | ... | cross-connect with one interface to TG and one Dot1ad sub-interface -| | ... | towards DUT1 with VLAN tag rewrite pop-2 method. [Ver] Make TG send -| | ... | ICMPv4 Echo Req tagged with one Dot1q tag from one of its interfaces -| | ... | to another one via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1q | vlan1=${outer_vlan_id1} - -| TC07: DUT1 and DUT2 with L2XC and VLAN translate-2-1 (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1, \ -| | ... | Eth-dot1q-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to -| | ... | DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite -| | ... | translate-2-1 method; on DUT2 configure L2 cross-connect (L2XC) with -| | ... | one interface to TG and one VLAN sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv4 Echo Req -| | ... | tagged with Dot1ad tags from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-1 | tag1_id=${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | encaps=Dot1ad -| | ... | vlan1=${outer_vlan_id1} | vlan2=${inner_vlan_id1} - -| TC08: DUT1 and DUT2 with L2XC and VLAN translate-2-1 with wrong tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1, \ -| | ... | Eth-dot1q-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to -| | ... | DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite -| | ... | translate-2-1 method to set tag different from tag set on VLAN -| | ... | sub-interface of DUT2; on DUT2 configure L2 cross-connect (L2XC) with -| | ... | one interface to TG and one VLAN sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv4 Echo Req -| | ... | tagged with Dot1ad tags from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-1 | tag1_id=${outer_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1ad | vlan1=${outer_vlan_id1} -| | ... | vlan2=${inner_vlan_id1} - -| TC09: DUT1 and DUT2 with L2XC and VLAN translate-2-2 switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | cross-connect (L2XC) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method; -| | ... | on DUT2 configure L2 cross-connect (L2XC) with one interface to TG and -| | ... | one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | tagged with Dot1ad tags from one of its interfaces to another one -| | ... | method. [Ver] Make TG send ICMPv4 Echo Req via DUT1 and DUT2; verify -| | ... | that packet is received. [Ref] IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | encaps=Dot1ad -| | ... | vlan1=${outer_vlan_id1} | vlan2=${inner_vlan_id1} - -| TC10: DUT1 and DUT2 with L2XC and VLAN translate-2-2 with wrong inner tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | cross-connect (L2XC) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method to -| | ... | set inner tag different from inner tag set on Dot1ad sub-interface of -| | ... | DUT2; on DUT2 configure L2 cross-connect (L2XC) with one interface to -| | ... | TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite -| | ... | pop-1 tagged with Dot1ad tags from one of its interfaces to another one -| | ... | method. [Ver] Make TG send ICMPv4 Echo Req via DUT1 and DUT2; verify -| | ... | that packet is not received. [Ref] IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1ad | vlan1=${outer_vlan_id1} -| | ... | vlan2=${inner_vlan_id1} - -| TC11: DUT1 and DUT2 with L2XC and VLAN translate-2-2 with wrong outer tag used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | cross-connect (L2XC) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method to -| | ... | set outer tag different from outer tag set on Dot1ad sub-interface of -| | ... | DUT2; on DUT2 configure L2 cross-connect (L2XC) with one interface to -| | ... | TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite -| | ... | pop-1 tagged with Dot1ad tags from one of its interfaces to another -| | ... | one method. [Ver] Make TG send ICMPv4 Echo Req via DUT1 and DUT2; -| | ... | verify that packet is not received. [Ref] IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1ad | vlan1=${outer_vlan_id1} -| | ... | vlan2=${inner_vlan_id1} - -| TC12: DUT1 and DUT2 with L2XC and VLAN translate-2-2 with wrong outer and inner tags used (DUT1) switch ICMPv4 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | cross-connect (L2XC) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method to -| | ... | set tags different from tags set on Dot1ad sub-interface of DUT2; -| | ... | on DUT2 configure L2 cross-connect (L2XC) with one interface to TG -| | ... | and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | tagged with Dot1ad tags from one of its interfaces to another one -| | ... | method. [Ver] Make TG send ICMPv4 Echo Req via DUT1 and DUT2; verify -| | ... | that packet is not received. [Ref] IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | encaps=Dot1ad | vlan1=${outer_vlan_id1} -| | ... | vlan2=${inner_vlan_id1} diff --git a/tests/suites/vlan/vlan_tag_translate_l2_xconnect_ipv6.robot b/tests/suites/vlan/vlan_tag_translate_l2_xconnect_ipv6.robot deleted file mode 100644 index 9557fb9d6b..0000000000 --- a/tests/suites/vlan/vlan_tag_translate_l2_xconnect_ipv6.robot +++ /dev/null @@ -1,473 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/tagging.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Library | resources.libraries.python.Trace -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | HW_ENV | VM_ENV -| Test Setup | Setup all DUTs before test -| Suite Setup | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *L2 cross-connect with VLAN tag rewrite test cases - IPv6* -| ... -| ... | *[Top] Network Topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet encapsulations:* Eth-dot1q-IPv6-ICMPv6 or -| ... | Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and DUT1-DUT2, Eth-IPv6-ICMPv6 -| ... | on TG-DUT2 for L2 switching of IPv6. -| ... | *[Cfg] DUT configuration:* DUT1 is configured with L2 cross-connect -| ... | (L2XC) switching between VLAN sub-interface with VLAN tag rewrite -| ... | translate-1-1 method of interface towards TG and interface towards DUT2. -| ... | DUT2 is configured configured with L2 cross-connect (L2XC) switching -| ... | between VLAN sub-interface with VLAN tag rewrite pop-1 method -| ... | of interface towards DUT1 and interface towards TG. -| ... | *[Ver] TG verification:* Test ICMPv6 Echo Request packets are -| ... | sent from TG on link to DUT1 and received in TG on link form DUT2; -| ... | on receive TG verifies packets for correctness and their IPv6 src-addr, -| ... | dst-addr and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* IEEE 802.1q, IEEE 802.1ad. - -*** Variables *** -| ${subid}= | 10 - -| ${outer_vlan_id1}= | 110 -| ${outer_vlan_id2}= | 120 -| ${outer_vlan_wrong}= | 150 - -| ${inner_vlan_id1}= | 210 -| ${inner_vlan_id2}= | 220 -| ${inner_vlan_wrong}= | 250 - -| ${src_ip}= | 3ffe:63::1 -| ${dst_ip}= | 3ffe:63::2 - -*** Test Cases *** -| TC01: DUT1 and DUT2 with L2XC and VLAN translate-1-1 (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1 and \ -| | ... | DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | cross-connect (L2XC) with one interface to DUT2 and one VLAN -| | ... | sub-interface towards TG with VLAN tag rewrite translate-1-1 method; -| | ... | on DUT2 configure L2 cross-connect (L2XC) with one interface to TG -| | ... | and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | method. [Ver] Make TG send ICMPv6 Echo Req tagegd with one Dot1q tag -| | ... | from one of its interfaces to another one via DUT1 and DUT2; verify -| | ... | that packet is received. [Ref] IEEE 802.1q -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-1 | tag1_id=${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | src_ip=${src_ip} -| | ... | dst_ip=${dst_ip} | encaps=Dot1q | vlan1=${outer_vlan_id1} - -| TC02: DUT1 and DUT2 with L2XC and VLAN translate-1-1 with wrong tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1 and \ -| | ... | DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | cross-connect (L2XC) with one interface to DUT2 and one VLAN -| | ... | sub-interface towards TG with VLAN tag rewrite translate-1-1 method -| | ... | to set tag different from tag set on VLAN sub-interface of DUT2; -| | ... | on DUT2 configure L2 cross-connect (L2XC) with one interface to TG -| | ... | and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | method. [Ver] Make TG send ICMPv6 Echo Req tagegd with one Dot1q tag -| | ... | from one of its interfaces to another one via DUT1 and DUT2; verify -| | ... | that packet is not received. [Ref] IEEE 802.1q -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-1 | tag1_id=${outer_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1q -| | ... | vlan1=${outer_vlan_id1} - -| TC03: DUT1 and DUT2 with L2XC and VLAN translate-1-2 (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method; on DUT2 configure L2 cross-connect (L2XC) with -| | ... | one interface to TG and one Dot1ad sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv6 Echo Req -| | ... | tagegd with one Dot1q tag from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | src_ip=${src_ip} -| | ... | dst_ip=${dst_ip} | encaps=Dot1q | vlan1=${outer_vlan_id1} - -| TC04: DUT1 and DUT2 with L2XC and VLAN translate-1-2 with wrong inner tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method to set inner tag different from inner tag set on -| | ... | Dot1ad sub-interface of DUT2; on DUT2 configure L2 cross-connect with -| | ... | one interface to TG and one Dot1ad sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv6 Echo Req -| | ... | tagegd with one Dot1q tag from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1q -| | ... | vlan1=${outer_vlan_id1} - -| TC05: DUT1 and DUT2 with L2XC and VLAN translate-1-2 with wrong outer tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method to set outer tag different from outer tag set on -| | ... | Dot1ad sub-interface of DUT2; on DUT2 configure L2 cross-connect with -| | ... | one interface to TG and one Dot1ad sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv6 Echo Req -| | ... | tagegd with one Dot1q tag from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1q -| | ... | vlan1=${outer_vlan_id1} - -| TC06: DUT1 and DUT2 with L2XC and VLAN translate-1-2 with wrong outer and inner tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1, \ -| | ... | Eth-dot1ad-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to -| | ... | DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite -| | ... | translate-1-2 method to set outer and inner tags different from tags -| | ... | set on Dot1ad sub-interface of DUT2; on DUT2 configure L2 -| | ... | cross-connect with one interface to TG and one Dot1ad sub-interface -| | ... | towards DUT1 with VLAN tag rewrite pop-2 method. [Ver] Make TG send -| | ... | ICMPv6 Echo Req tagegd with one Dot1q tag from one of its interfaces -| | ... | to another one via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Vlan Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${outer_vlan_id1} -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-1-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1q -| | ... | vlan1=${outer_vlan_id1} - -| TC07: DUT1 and DUT2 with L2XC and VLAN translate-2-1 (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1, \ -| | ... | Eth-dot1q-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to -| | ... | DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite -| | ... | translate-2-1 method; on DUT2 configure L2 cross-connect (L2XC) with -| | ... | one interface to TG and one VLAN sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv6 Echo Req -| | ... | tagegd with Dot1ad tags from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-1 | tag1_id=${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | src_ip=${src_ip} -| | ... | dst_ip=${dst_ip} | encaps=Dot1ad | vlan1=${outer_vlan_id1} -| | ... | vlan2=${inner_vlan_id1} - -| TC08: DUT1 and DUT2 with L2XC and VLAN translate-2-1 with wrong tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1, \ -| | ... | Eth-dot1q-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. -| | ... | [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to -| | ... | DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite -| | ... | translate-2-1 method to set tag different from tag set on VLAN -| | ... | sub-interface of DUT2; on DUT2 configure L2 cross-connect (L2XC) with -| | ... | one interface to TG and one VLAN sub-interface towards DUT1 with -| | ... | VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv6 Echo Req -| | ... | tagegd with Dot1ad tags from one of its interfaces to another one -| | ... | via DUT1 and DUT2; verify that packet is not received. -| | ... | [Ref] IEEE 802.1q, IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Vlan Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${outer_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-1 | tag1_id=${outer_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-1 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1ad -| | ... | vlan1=${outer_vlan_id1} | vlan2=${inner_vlan_id1} - -| TC09: DUT1 and DUT2 with L2XC and VLAN translate-2-2 switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | cross-connect (L2XC) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method; -| | ... | on DUT2 configure L2 cross-connect (L2XC) with one interface to TG and -| | ... | one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | tagegd with Dot1ad tags from one of its interfaces to another one -| | ... | method. [Ver] Make TG send ICMPv6 Echo Req via DUT1 and DUT2; verify -| | ... | that packet is received. [Ref] IEEE 802.1ad -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Send and receive ICMP Packet -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} | src_ip=${src_ip} -| | ... | dst_ip=${dst_ip} | encaps=Dot1ad | vlan1=${outer_vlan_id1} -| | ... | vlan2=${inner_vlan_id1} - -| TC10: DUT1 and DUT2 with L2XC and VLAN translate-2-2 with wrong inner tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | cross-connect (L2XC) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method to -| | ... | set inner tag different from inner tag set on Dot1ad sub-interface of -| | ... | DUT2; on DUT2 configure L2 cross-connect (L2XC) with one interface to -| | ... | TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite -| | ... | pop-1 tagegd with Dot1ad tags from one of its interfaces to another one -| | ... | method. [Ver] Make TG send ICMPv6 Echo Req via DUT1 and DUT2; verify -| | ... | that packet is not received. [Ref] IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_id2} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1ad -| | ... | vlan1=${outer_vlan_id1} | vlan2=${inner_vlan_id1} - -| TC11: DUT1 and DUT2 with L2XC and VLAN translate-2-2 with wrong outer tag used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | cross-connect (L2XC) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method to -| | ... | set outer tag different from outer tag set on Dot1ad sub-interface of -| | ... | DUT2; on DUT2 configure L2 cross-connect (L2XC) with one interface to -| | ... | TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite -| | ... | pop-1 tagegd with Dot1ad tags from one of its interfaces to another -| | ... | one method. [Ver] Make TG send ICMPv6 Echo Req via DUT1 and DUT2; -| | ... | verify that packet is not received. [Ref] IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_id2} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1ad -| | ... | vlan1=${outer_vlan_id1} | vlan2=${inner_vlan_id1} - -| TC12: DUT1 and DUT2 with L2XC and VLAN translate-2-2 with wrong outer and inner tags used (DUT1) switch ICMPv6 between two TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and \ -| | ... | on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 -| | ... | cross-connect (L2XC) with one interface to DUT2 and one Dot1ad -| | ... | sub-interface towards TG with VLAN tag rewrite translate-2-2 method to -| | ... | set tags different from tags set on Dot1ad sub-interface of DUT2; -| | ... | on DUT2 configure L2 cross-connect (L2XC) with one interface to TG -| | ... | and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-1 -| | ... | tagegd with Dot1ad tags from one of its interfaces to another one -| | ... | method. [Ver] Make TG send ICMPv6 Echo Req via DUT1 and DUT2; verify -| | ... | that packet is not received. [Ref] IEEE 802.1ad -| | [Tags] | SKIP_PATCH -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${vlan1_name} | ${vlan1_index}= | When Tagged Subinterface Created -| | ... | ${dut1_node} | ${dut1_to_tg} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id1} | inner_vlan_id=${inner_vlan_id1} -| | ... | type_subif=two_tags dot1ad -| | ${vlan2_name} | ${vlan2_index}= | And Tagged Subinterface Created -| | ... | ${dut2_node} | ${dut2_to_dut1} | ${subid} -| | ... | outer_vlan_id=${outer_vlan_id2} | inner_vlan_id=${inner_vlan_id2} -| | ... | type_subif=two_tags dot1ad -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut1_node} -| | ... | ${vlan1_index} | translate-2-2 | push_dot1q=${False} -| | ... | tag1_id=${outer_vlan_wrong} | tag2_id=${inner_vlan_wrong} -| | And L2 Tag Rewrite Method Is Set On Interface | ${dut2_node} -| | ... | ${vlan2_index} | pop-2 -| | And Interfaces and VLAN sub-interfaces inter-connected using L2-xconnect -| | ... | ${dut1_node} | ${dut1_to_dut2} | ${vlan1_index} -| | ... | ${dut2_node} | ${dut2_to_tg} | ${vlan2_index} -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMP Packet | ${tg_node} | ${tg_to_dut1} -| | ... | ${tg_to_dut2} | src_ip=${src_ip} | dst_ip=${dst_ip} | encaps=Dot1ad -| | ... | vlan1=${outer_vlan_id1} | vlan2=${inner_vlan_id1} diff --git a/tests/suites/vrf/vrf_tests.robot b/tests/suites/vrf/vrf_tests.robot deleted file mode 100644 index 239900c1eb..0000000000 --- a/tests/suites/vrf/vrf_tests.robot +++ /dev/null @@ -1,392 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/ipv4.robot -| Resource | resources/libraries/robot/ipv6.robot -| Resource | resources/libraries/robot/interfaces.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/traffic.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Library | resources.libraries.python.Trace -| Library | resources.libraries.python.IPUtil -| Force Tags | HW_ENV | VM_ENV | 3_NODE_DOUBLE_LINK_TOPO -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| Test Teardown | Show Packet Trace on All DUTs | ${nodes} -| Documentation | *Vpn routed forwarding - baseline* -| ... | *[Top] Network Topologies:* TG=DUT1=DUT2=TG 3-node topology with two -| ... | links in between nodes. -| ... | *[Enc] Packet Encapsulations:* Eth-IPv4-ICMPv4 for L2 switching of -| ... | IPv4. -| ... | *[Cfg] DUT configuration:*Each DUT is configured with two VRF tables; -| ... | Separation of traffic is tested by IP packets; Basic ARP and ROUTES are -| ... | set on DUT nodes; IP addresses are set on DUT interfaces. -| ... | *[Ver] TG verification:* Test ICMPv4 Echo Request packets -| ... | are sent by TG on link to DUT1, DUT2 or back to TG; On receipt TG -| ... | verifies packets for correctness and their IPv4 src-addr, dst-addr, -| ... | and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* - -*** Variables *** -| ${fib_table_1}= | 9 -| ${fib_table_2}= | 99 - -| ${dut1_to_tg_ip1}= | 10.0.0.3 -| ${dut1_to_tg_ip2}= | 10.0.0.4 -| ${dut2_to_tg_ip1}= | 30.0.0.3 -| ${dut2_to_tg_ip2}= | 30.0.0.4 - -| ${dut1_to_dut2_ip1}= | 20.0.0.1 -| ${dut1_to_dut2_ip2}= | 20.0.0.2 -| ${dut2_to_dut1_ip1}= | 20.0.0.3 -| ${dut2_to_dut1_ip2}= | 20.0.0.4 - -| ${tg_dut1_ip1}= | 10.0.0.1 -| ${tg_dut1_ip2}= | 10.0.0.2 -| ${tg_dut2_ip1}= | 30.0.0.1 -| ${tg_dut2_ip2}= | 30.0.0.2 - -| ${ip_prefix}= | 24 - -*** Test Cases *** -| TC01: TG packets routed to DUT ingress interface, VPP configured with two VRFs -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each -| | ... | table is assigned to 2 interfaces to separate the traffic. Interfaces -| | ... | are configured with IP addresses from *Variables*. On every ingress -| | ... | and egress port on DUT is configured ARP and each DUT is configured -| | ... | with one route. -| | ... | [Ver] Packet is send from TG->DUT1-if1 to DUT1->TG-if1 and from -| | ... | TG->DUT1-if2 to DUT1->TG-if2 and checked if arrived. -| | Given Path for Double-Link 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in Double-Link 3-node path are UP -| | When Setup Env - 2xVRF Each Node -| | Then Node replies to ICMP echo request | ${tg_node} -| | ... | ${tg_to_dut1_if1} | ${dut1_to_tg_if1_mac} -| | ... | ${tg_to_dut1_if1_mac} | ${dut1_to_tg_ip1} | ${tg_dut1_ip1} | 5 -| | And Node replies to ICMP echo request | ${tg_node} -| | ... | ${tg_to_dut1_if2} | ${dut1_to_tg_if2_mac} -| | ... | ${tg_to_dut1_if2_mac} | ${dut1_to_tg_ip2} | ${tg_dut1_ip2} | 5 - -| TC02: TG packets routed to DUT egress interface, VPP configured with two VRFs -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each -| | ... | table is assigned to 2 interfaces to separate the traffic. Interfaces -| | ... | are configured with IP addresses from *Variables*. On every ingress -| | ... | and egress port on DUT is configured ARP and each DUT is configured -| | ... | with one route. -| | ... | [Ver] Packet is send from TG->DUT1-if1 to DUT1->DUT2-if1 and from -| | ... | TG->DUT1-if2 to DUT1->DUT2-if2 and checked if arrived. -| | Given Path for Double-Link 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in Double-Link 3-node path are UP -| | When Setup Env - 2xVRF Each Node -| | Then Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut1_if1} -| | ... | ${dut1_to_tg_if1_mac} | ${tg_to_dut1_if1_mac} -| | ... | ${dut1_to_dut2_ip1} | ${tg_dut1_ip1} | 5 -| | And Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut1_if2} -| | ... | ${dut1_to_tg_if2_mac} | ${tg_to_dut1_if2_mac} -| | ... | ${dut1_to_dut2_ip2} | ${tg_dut1_ip2} | 5 - -| TC03: TG packets routed to DUT2 ingress interface through DUT1, VPP configured with two VRFs -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each -| | ... | table is assigned to 2 interfaces to separate the traffic. Interfaces -| | ... | are configured with IP addresses from *Variables*. On every ingress -| | ... | and egress port on DUT is configured ARP and each DUT is configured -| | ... | with one route. -| | ... | [Ver] Packet is send from TG->DUT1-if1 to DUT2->DUT1-if1 and from -| | ... | TG->DUT1-if2 to DUT2->DUT1-if2 and checked if arrived. -| | Given Path for Double-Link 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in Double-Link 3-node path are UP -| | When Setup Env - 2xVRF Each Node -| | Then Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut1_if1} -| | ... | ${dut1_to_tg_if1_mac} | ${tg_to_dut1_if1_mac} -| | ... | ${dut2_to_dut1_ip1} | ${tg_dut1_ip1} | 5 -| | And Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut1_if2} -| | ... | ${dut1_to_tg_if2_mac} | ${tg_to_dut1_if2_mac} -| | ... | ${dut2_to_dut1_ip2} | ${tg_dut1_ip2} | 5 - -| TC04: TG packets routed to DUT2 egress interface through DUT1, VPP configured with two VRFs -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each -| | ... | table is assigned to 2 interfaces to separate the traffic. Interfaces -| | ... | are configured with IP addresses from *Variables*. On every ingress -| | ... | and egress port on DUT is configured ARP and each DUT is configured -| | ... | with one route. -| | ... | [Ver] Packet is send from TG->DUT1-if1 to DUT2->TG-if1 and from -| | ... | TG->DUT1-if2 to DUT2->TG-if2 and checked if arrived. -| | Given Path for Double-Link 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in Double-Link 3-node path are UP -| | When Setup Env - 2xVRF Each Node -| | Then Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut1_if1} -| | ... | ${dut1_to_tg_if1_mac} | ${tg_to_dut1_if1_mac} -| | ... | ${dut2_to_tg_ip1} | ${tg_dut1_ip1} | 5 -| | And Node replies to ICMP echo request | ${tg_node} | ${tg_to_dut1_if2} -| | ... | ${dut1_to_tg_if2_mac} | ${tg_to_dut1_if2_mac} -| | ... | ${dut2_to_tg_ip2} | ${tg_dut1_ip2} | 5 - -| TC05: TG packets routed to TG through DUT1 and DUT2, VPP configured with two VRFs -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each -| | ... | table is assigned to 2 interfaces to separate the traffic. Interfaces -| | ... | are configured with IP addresses from *Variables*. On every ingress -| | ... | and egress port on DUT is configured ARP and each DUT is configured -| | ... | with one route. -| | ... | [Ver] Packet is send from TG->DUT1-if1 to TG->DUT2-if1 and from -| | ... | TG->DUT1-if2 to TG->DUT2-if2 and checked if arrived. -| | Given Path for Double-Link 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in Double-Link 3-node path are UP -| | When Setup Env - 2xVRF Each Node -| | Then Send Packet And Check Headers | ${tg_node} | ${tg_dut1_ip1} -| | ... | ${tg_dut2_ip1} | ${tg_to_dut1_if1} | ${tg_to_dut1_if1_mac} -| | ... | ${dut1_to_tg_if1_mac} | ${tg_to_dut2_if1} | ${dut2_to_tg_if1_mac} -| | ... | ${tg_to_dut2_if1_mac} -| | And Send Packet And Check Headers | ${tg_node} -| | ... | ${tg_dut1_ip2} | ${tg_dut2_ip2} | ${tg_to_dut1_if2} -| | ... | ${tg_to_dut1_if2_mac} | ${dut1_to_tg_if2_mac} | ${tg_to_dut2_if2} -| | ... | ${dut2_to_tg_if2_mac} | ${tg_to_dut2_if2_mac} - -| TC06: TG packets not routed to DUT ingress interface in different VRF, VPP configured with two VRFs -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each -| | ... | table is assigned to 2 interfaces to separate the traffic. Interfaces -| | ... | are configured with IP addresses from *Variables*. On every ingress -| | ... | and egress port on DUT is configured ARP and each DUT is configured -| | ... | with one route. -| | ... | [Ver] Packet is send from TG->DUT1-if1 to DUT1->TG-if2 where it -| | ... | should not arrive. -| | [Tags] | SKIP_PATCH -| | Given Path for Double-Link 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in Double-Link 3-node path are UP -| | When Setup Env - 2xVRF Each Node -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Node replies to ICMP echo request -| | ... | ${tg_node} | ${tg_to_dut1_if1} -| | ... | ${dut1_to_tg_if1_mac} | ${tg_to_dut1_if1_mac} -| | ... | ${dut1_to_tg_ip2} | ${tg_dut1_ip1} | 5 - -| TC07: TG packets not routed to DUT egress interface in different VRF, VPP configured with two VRFs -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each -| | ... | table is assigned to 2 interfaces to separate the traffic. Interfaces -| | ... | are configured with IP addresses from *Variables*. On every ingress -| | ... | and egress port on DUT is configured ARP and each DUT is configured -| | ... | with one route. -| | ... | [Ver] Packet is send from TG->DUT1-if1 to DUT1->DUT2-if2 where it -| | ... | should not arrive. -| | [Tags] | SKIP_PATCH -| | Given Path for Double-Link 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in Double-Link 3-node path are UP -| | When Setup Env - 2xVRF Each Node -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Node replies to ICMP echo request -| | ... | ${tg_node} | ${tg_to_dut1_if1} -| | ... | ${dut1_to_tg_if1_mac} | ${tg_to_dut1_if1_mac} -| | ... | ${dut1_to_dut2_ip2} | ${tg_dut1_ip1} | 5 - -| TC08: TG packets not routed to DUT2 ingress interface in different VRF through DUT1, VPP configured with two VRFs -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each -| | ... | table is assigned to 2 interfaces to separate the traffic. Interfaces -| | ... | are configured with IP addresses from *Variables*. On every ingress -| | ... | and egress port on DUT is configured ARP and each DUT is configured -| | ... | with one route. -| | ... | [Ver] Packet is send from TG->DUT1-if1 to DUT2->DUT1-if2 where it -| | ... | should not arrive. -| | [Tags] | SKIP_PATCH -| | Given Path for Double-Link 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in Double-Link 3-node path are UP -| | When Setup Env - 2xVRF Each Node -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Node replies to ICMP echo request -| | ... | ${tg_node} | ${tg_to_dut1_if1} -| | ... | ${dut1_to_tg_if1_mac} | ${tg_to_dut1_if1_mac} -| | ... | ${dut2_to_dut1_ip2} | ${tg_dut1_ip1} | 5 - -| TC09: TG packets not routed to DUT2 egress interface in different VRF through DUT1, VPP configured with two VRFs -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each -| | ... | table is assigned to 2 interfaces to separate the traffic. Interfaces -| | ... | are configured with IP addresses from *Variables*. On every ingress -| | ... | and egress port on DUT is configured ARP and each DUT is configured -| | ... | with one route. -| | ... | [Ver] Packet is send from TG->DUT1-if1 to DUT2->TG-if2 where it -| | ... | should not arrive. -| | [Tags] | SKIP_PATCH -| | Given Path for Double-Link 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in Double-Link 3-node path are UP -| | When Setup Env - 2xVRF Each Node -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Node replies to ICMP echo request -| | ... | ${tg_node} | ${tg_to_dut1_if1} -| | ... | ${dut1_to_tg_if1_mac} | ${tg_to_dut1_if1_mac} -| | ... | ${dut2_to_tg_ip2} | ${tg_dut1_ip1} | 5 - -| TC10: TG packets not routed to TG in different VRF through DUT1 and DUT2, VPP configured with two VRFs -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG. -| | ... | [Enc] Eth-IPv4-ICMPv4. -| | ... | [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each -| | ... | table is assigned to 2 interfaces to separate the traffic. Interfaces -| | ... | are configured with IP addresses from *Variables*. On every ingress -| | ... | and egress port on DUT is configured ARP and each DUT is configured -| | ... | with one route. -| | ... | [Ver] Packet is send from TG->DUT1-if1 to TG->DUT2-if2 where it -| | ... | should not arrive. -| | [Tags] | SKIP_PATCH -| | Given Path for Double-Link 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in Double-Link 3-node path are UP -| | When Setup Env - 2xVRF Each Node -| | Then Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send Packet And Check Headers | ${tg_node} | ${tg_dut1_ip1} -| | ... | ${tg_dut2_ip2} | ${tg_to_dut1_if1} -| | ... | ${tg_to_dut1_if1_mac} | ${dut1_to_tg_if1_mac} | ${tg_to_dut2_if2} -| | ... | ${dut2_to_tg_if2_mac} | ${tg_to_dut2_if2_mac} - -*** Keywords *** -| Setup Env - 2xVRF Each Node -| | [Documentation] -| | ... | Environment is set up with 2 fib tables on each DUT. DUT1-TG-IF1 and \ -| | ... | DUT1-DUT2-IF1 are assigned to FIB1, and DUT1-TG-IF2 and DUT1-DUT2-IF2 -| | ... | are assigned to FIB2 (the some done on DUT2, just opposite). IP -| | ... | addresses are subsequently set on interfaces, and ARP is set for -| | ... | neighbors. The last setting is route for each fib table. -| | ... -| | ${dut1_if1_idx}= | Get Interface SW Index -| | ... | ${dut1_node} | ${dut1_to_dut2_if1} -| | ${dut1_if2_idx}= | Get Interface SW Index -| | ... | ${dut1_node} | ${dut1_to_dut2_if2} -| | ${dut2_if1_idx}= | Get Interface SW Index -| | ... | ${dut2_node} | ${dut2_to_dut1_if1} -| | ${dut2_if2_idx}= | Get Interface SW Index -| | ... | ${dut2_node} | ${dut2_to_dut1_if2} -| | And Add fib table | ${dut1_node} -| | ... | ${tg_dut2_ip1} | ${ip_prefix} | ${fib_table_1} -| | ... | via ${dut2_to_dut1_ip1} sw_if_index ${dut1_if1_idx} multipath -| | And Add fib table | ${dut1_node} -| | ... | ${tg_dut2_ip2} | ${ip_prefix} | ${fib_table_2} -| | ... | via ${dut1_to_dut2_ip2} sw_if_index ${dut1_if2_idx} multipath -| | And Add fib table | ${dut2_node} -| | ... | ${tg_dut1_ip1} | ${ip_prefix} | ${fib_table_1} -| | ... | via ${dut2_to_dut1_ip1} sw_if_index ${dut2_if1_idx} multipath -| | And Add fib table | ${dut2_node} -| | ... | ${tg_dut1_ip2} | ${ip_prefix} | ${fib_table_2} -| | ... | via ${dut2_to_dut1_ip2} sw_if_index ${dut2_if2_idx} multipath - -| | Assign Interface To Fib Table -| | ... | ${dut1_node} | ${dut1_to_dut2_if1} | ${fib_table_1} -| | Assign Interface To Fib Table -| | ... | ${dut1_node} | ${dut1_to_dut2_if2} | ${fib_table_2} -| | Assign Interface To Fib Table -| | ... | ${dut1_node} | ${dut1_to_tg_if1} | ${fib_table_1} -| | Assign Interface To Fib Table -| | ... | ${dut1_node} | ${dut1_to_tg_if2} | ${fib_table_2} - -| | Assign Interface To Fib Table -| | ... | ${dut2_node} | ${dut2_to_dut1_if1} | ${fib_table_1} -| | Assign Interface To Fib Table -| | ... | ${dut2_node} | ${dut2_to_dut1_if2} | ${fib_table_2} -| | Assign Interface To Fib Table -| | ... | ${dut2_node} | ${dut2_to_tg_if1} | ${fib_table_1} -| | Assign Interface To Fib Table -| | ... | ${dut2_node} | ${dut2_to_tg_if2} | ${fib_table_2} - -| | And Set Interface Address -| | ... | ${dut1_node} | ${dut1_to_tg_if1} | ${dut1_to_tg_ip1} | ${ip_prefix} -| | And Set Interface Address -| | ... | ${dut1_node} | ${dut1_to_tg_if2} | ${dut1_to_tg_ip2} | ${ip_prefix} -| | And Set Interface Address -| | ... | ${dut1_node} | ${dut1_to_dut2_if1} -| | ... | ${dut1_to_dut2_ip1} | ${ip_prefix} -| | And Set Interface Address -| | ... | ${dut1_node} | ${dut1_to_dut2_if2} -| | ... | ${dut1_to_dut2_ip2} | ${ip_prefix} - -| | And Set Interface Address -| | ... | ${dut2_node} | ${dut2_to_tg_if1} | ${dut2_to_tg_ip1} | ${ip_prefix} -| | And Set Interface Address -| | ... | ${dut2_node} | ${dut2_to_tg_if2} | ${dut2_to_tg_ip2} | ${ip_prefix} -| | And Set Interface Address -| | ... | ${dut2_node} | ${dut2_to_dut1_if1} -| | ... | ${dut2_to_dut1_ip1} | ${ip_prefix} -| | And Set Interface Address -| | ... | ${dut2_node} | ${dut2_to_dut1_if2} -| | ... | ${dut2_to_dut1_ip2} | ${ip_prefix} - -| | And Add Arp On Dut | ${dut1_node} | ${dut1_to_tg_if1} -| | ... | ${tg_dut1_ip1} | ${tg_to_dut1_if1_mac} | vrf=${fib_table_1} -| | And Add Arp On Dut | ${dut1_node} | ${dut1_to_dut2_if1} -| | ... | ${dut2_to_dut1_ip1} | ${dut2_to_dut1_if1_mac} | vrf=${fib_table_1} -| | And Add Arp On Dut | ${dut2_node} | ${dut2_to_tg_if1} -| | ... | ${tg_dut2_ip1} | ${tg_to_dut2_if1_mac} | vrf=${fib_table_1} -| | And Add Arp On Dut | ${dut2_node} | ${dut2_to_dut1_if1} -| | ... | ${dut1_to_dut2_ip1} | ${dut1_to_dut2_if1_mac} | vrf=${fib_table_1} - -| | And Add Arp On Dut | ${dut1_node} | ${dut1_to_tg_if2} -| | ... | ${tg_dut1_ip2} | ${tg_to_dut1_if2_mac} | vrf=${fib_table_2} -| | And Add Arp On Dut | ${dut1_node} | ${dut1_to_dut2_if2} -| | ... | ${dut2_to_dut1_ip2} | ${dut2_to_dut1_if2_mac} | vrf=${fib_table_2} -| | And Add Arp On Dut | ${dut2_node} | ${dut2_to_tg_if2} -| | ... | ${tg_dut2_ip2} | ${tg_to_dut2_if2_mac} | vrf=${fib_table_2} -| | And Add Arp On Dut | ${dut2_node} | ${dut2_to_dut1_if2} -| | ... | ${dut1_to_dut2_ip2} | ${dut1_to_dut2_if2_mac} | vrf=${fib_table_2} - -| | And Vpp Route Add | ${dut1_node} | ${tg_dut2_ip1} | ${ip_prefix} -| | ... | ${dut2_to_dut1_ip1} | ${dut1_to_dut2_if1} | vrf=${fib_table_1} -| | And Vpp Route Add | ${dut2_node} | ${tg_dut1_ip1} | ${ip_prefix} -| | ... | ${dut1_to_dut2_ip1} | ${dut2_to_dut1_if1} | vrf=${fib_table_1} - -| | And Vpp Route Add | ${dut1_node} | ${tg_dut2_ip2} | ${ip_prefix} -| | ... | ${dut2_to_dut1_ip2} | ${dut1_to_dut2_if2} | vrf=${fib_table_2} -| | And Vpp Route Add | ${dut2_node} | ${tg_dut1_ip2} | ${ip_prefix} -| | ... | ${dut1_to_dut2_ip2} | ${dut2_to_dut1_if2} | vrf=${fib_table_2} diff --git a/tests/suites/vxlan/vxlan_bd_dot1q.robot b/tests/suites/vxlan/vxlan_bd_dot1q.robot deleted file mode 100644 index 425017ea67..0000000000 --- a/tests/suites/vxlan/vxlan_bd_dot1q.robot +++ /dev/null @@ -1,73 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/vxlan.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Library | resources.libraries.python.Trace -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | VM_ENV | HW_ENV -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *RFC7348 VXLAN: Bridge-domain with VXLAN over VLAN test cases* -| ... -| ... | *[Top] Network topologies:* TG-DUT1-DUT2-TG 3-node circular topology with -| ... | single links between nodes. -| ... | *[Enc] Packet encapsulations:* Eth-dot1q-IPv4-VXLAN-Eth-IPv4-ICMPv4 on -| ... | DUT1-DUT2, Eth-dot1q-IPv4-ICMPv4 on TG-DUTn for L2 switching of IPv4. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 -| ... | bridge-domain (L2BD) switching combined with static MACs, MAC learning -| ... | enabled and Split Horizon Groups (SHG) depending on test case; VXLAN -| ... | tunnels are configured between L2BDs on DUT1 and DUT2. -| ... | *[Ver] TG verification:* Test ICMPv4 Echo Request packets are -| ... | sent in both directions by TG on links to DUT1 and DUT2; on receive TG -| ... | verifies packets for correctness and their IPv4 src-addr, dst-addr and -| ... | MAC addresses. -| ... | *[Ref] Applicable standard specifications:* RFC7348. - -*** Variables *** -| ${VNI}= | 23 -| ${BID}= | 23 -| ${VLAN}= | 10 - -*** Test Cases *** -| TC01: DUT1 and DUT2 with L2BD and VXLANoIPv4oVLAN tunnels switch ICMPv4 between TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-VXLAN-Eth-IPv4-ICMPv4 on\ -| | ... | DUT1-DUT2; Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 -| | ... | configure L2 bridge-domain (MAC learning enabled), each with one -| | ... | interface to TG and one VXLAN tunnel interface towards the other DUT -| | ... | over VLAN sub-interface. [Ver] Make TG send ICMPv4 Echo Req between -| | ... | two of its interfaces, verify all packets are received. [Ref] RFC7348. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Vlan interfaces for VXLAN are created | ${VLAN} -| | ... | ${dut1_node} | ${dut1_to_dut2} -| | ... | ${dut2_node} | ${dut2_to_dut1} -| | And IP addresses are set on interfaces -| | ... | ${dut1_node} | ${dut1s_vlan_name} | ${dut1s_vlan_index} -| | ... | ${dut2_node} | ${dut2s_vlan_name} | ${dut2s_vlan_index} -| | ${dut1s_vxlan}= | When Create VXLAN interface | ${dut1_node} | ${VNI} -| | | ... | ${dut1s_ip_address} | ${dut2s_ip_address} -| | And Interfaces are added to BD | ${dut1_node} | ${BID} -| | ... | ${dut1_to_tg} | ${dut1s_vxlan} -| | ${dut2s_vxlan}= | And Create VXLAN interface | ${dut2_node} | ${VNI} -| | | ... | ${dut2s_ip_address} | ${dut1s_ip_address} -| | And Interfaces are added to BD | ${dut2_node} | ${BID} -| | ... | ${dut2_to_tg} | ${dut2s_vxlan} -| | Then Send and receive ICMPv4 bidirectionally -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} diff --git a/tests/suites/vxlan/vxlan_bd_untagged.robot b/tests/suites/vxlan/vxlan_bd_untagged.robot deleted file mode 100644 index f579f11d57..0000000000 --- a/tests/suites/vxlan/vxlan_bd_untagged.robot +++ /dev/null @@ -1,408 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/vxlan.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Library | resources.libraries.python.Trace -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | VM_ENV | HW_ENV -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *RFC7348 VXLAN: Bridge-domain with VXLAN test cases* -| ... -| ... | *[Top] Network topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes; TG=DUT1=DUT2=TG 3-node circular -| ... | topology with double parallel links. -| ... | *[Enc] Packet encapsulations:* Eth-IPv4-VXLAN-Eth-IPv4-ICMPv4 on -| ... | DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn for L2 switching of IPv4; -| ... | Eth-IPv6-VXLAN-Eth-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on -| ... | TG-DUTn for L2 switching of IPv6. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 -| ... | bridge-domain (L2BD) switching combined with static MACs, MAC learning -| ... | enabled and Split Horizon Groups (SHG) depending on test case; VXLAN -| ... | tunnels are configured between L2BDs on DUT1 and DUT2. -| ... | *[Ver] TG verification:* Test ICMPv4 (or ICMPv6) Echo Request packets -| ... | are sent in both directions by TG on links to DUT1 and DUT2; on receive -| ... | TG verifies packets for correctness and their IPv4 (IPv6) src-addr, -| ... | dst-addr and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* RFC7348. - -*** Variables *** -| ${vni_1}= | 23 -| ${vni_2}= | 35 - -| ${bd_id1}= | 10 -| ${bd_id2}= | 20 -| ${bd_id3}= | 30 -| ${shg1}= | 1 -| ${shg2}= | 2 - -| ${ip4_addr1}= | 172.16.0.1 -| ${ip4_addr2}= | 172.16.0.2 -| ${ip4_prefix}= | 24 - -| ${ip6_addr1}= | 3ffe:64::1 -| ${ip6_addr2}= | 3ffe:64::2 -| ${ip6_prefix}= | 64 - -*** Test Cases *** -| TC01: DUT1 and DUT2 with L2BD and VXLANoIPv4 tunnels switch ICMPv4 between TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-VXLAN-Eth-IPv4-ICMPv4 on \ -| | ... | DUT1-DUT2; Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 -| | ... | configure two i/fs into L2BD with MAC learning. [Ver] Make TG -| | ... | verify ICMPv4 Echo Req pkts are switched thru DUT1 and DUT2 in -| | ... | both directions and are correct on receive. [Ref] RFC7348. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${dut1_to_dut2_name}= | Get interface name | ${dut1_node} | ${dut1_to_dut2} -| | ${dut2_to_dut1_name}= | Get interface name | ${dut2_node} | ${dut2_to_dut1} -| | And IP addresses are set on interfaces | ${dut1_node} | ${dut1_to_dut2_name} | ${NONE} -| | ... | ${dut2_node} | ${dut2_to_dut1_name} | ${NONE} -| | ${dut1s_vxlan}= | When Create VXLAN interface | ${dut1_node} | ${vni_1} -| | | ... | ${dut1s_ip_address} | ${dut2s_ip_address} -| | And Interfaces are added to BD | ${dut1_node} | ${bd_id1} -| | ... | ${dut1_to_tg} | ${dut1s_vxlan} -| | ${dut2s_vxlan}= | And Create VXLAN interface | ${dut2_node} | ${vni_1} -| | | ... | ${dut2s_ip_address} | ${dut1s_ip_address} -| | And Interfaces are added to BD | ${dut2_node} | ${bd_id1} -| | ... | ${dut2_to_tg} | ${dut2s_vxlan} -| | Then Send and receive ICMPv4 bidirectionally -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} - -| TC02: DUT1 and DUT2 with L2BD and VXLANoIPv4 tunnels in SHG switch ICMPv4 between TG links -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG. [Enc] Eth-IPv4-VXLAN-Eth-IPv4-ICMPv4 on \ -| | ... | DUT1-DUT2; Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 configure L2 -| | ... | bridge-domain (MAC learning enabled) with two untagged interfaces -| | ... | to TG and two VXLAN interfaces towards the DUT2 and put both VXLAN -| | ... | interfaces into the same Split-Horizon-Group (SHG). On DUT2 configure -| | ... | two L2 bridge-domain (MAC learning enabled), each with one untagged -| | ... | interface to TG and one VXLAN interface towards the DUT1. [Ver] Make -| | ... | TG send ICMPv4 Echo Reqs between all four of its interfaces to be -| | ... | switched by DUT1 and DUT2; verify packets are not switched between -| | ... | TG interfaces connected to DUT2 that are isolated by SHG on DUT1. -| | ... | [Ref] RFC7348. -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO -| | Given Path for 3-node BD-SHG testing is set | ${nodes['TG']} -| | ... | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} -| | And Interfaces in 3-node BD-SHG testing are up -| | And Set Interface Address | ${dut1_node} | ${dut1_to_dut2} | ${ip4_addr1} -| | ... | ${ip4_prefix} -| | And Set Interface Address | ${dut2_node} | ${dut2_to_dut1} | ${ip4_addr2} -| | ... | ${ip4_prefix} -| | And VPP IP Probe | ${dut1_node} | ${dut1_to_dut2} | ${ip4_addr2} -| | And VPP IP Probe | ${dut2_node} | ${dut2_to_dut1} | ${ip4_addr1} -| | ${dut1s_vxlan1}= | When Create VXLAN interface | ${dut1_node} | ${vni_1} -| | | ... | ${ip4_addr1} | ${ip4_addr2} -| | ${dut1s_vxlan2}= | And Create VXLAN interface | ${dut1_node} | ${vni_2} -| | | ... | ${ip4_addr1} | ${ip4_addr2} -| | ${dut2s_vxlan1}= | And Create VXLAN interface | ${dut2_node} | ${vni_1} -| | | ... | ${ip4_addr2} | ${ip4_addr1} -| | ${dut2s_vxlan2}= | And Create VXLAN interface | ${dut2_node} | ${vni_2} -| | | ... | ${ip4_addr2} | ${ip4_addr1} -| | And Set Interface State | ${dut1_node} | ${dut1s_vxlan1} | up -| | And Set Interface State | ${dut1_node} | ${dut1s_vxlan2} | up -| | And Set Interface State | ${dut2_node} | ${dut2s_vxlan1} | up -| | And Set Interface State | ${dut2_node} | ${dut2s_vxlan2} | up -| | And Vpp Node Interfaces Ready Wait | ${dut1_node} -| | And Vpp Node Interfaces Ready Wait | ${dut2_node} -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_tg_if1} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_tg_if2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1s_vxlan1} -| | ... | ${bd_id1} | ${shg1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1s_vxlan2} -| | ... | ${bd_id1} | ${shg1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg_if1} -| | ... | ${bd_id2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2s_vxlan1} -| | ... | ${bd_id2} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id3} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg_if2} -| | ... | ${bd_id3} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2s_vxlan2} -| | ... | ${bd_id3} -| | Then Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if1} -| | ... | ${tg_to_dut2_if1} -| | And Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if1} -| | ... | ${tg_to_dut2_if2} -| | And Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if2} -| | ... | ${tg_to_dut2_if1} -| | And Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if2} -| | ... | ${tg_to_dut2_if2} -| | And Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMPv4 bidirectionally -| | | ... | ${tg_node} | ${tg_to_dut2_if1} -| | | ... | ${tg_to_dut2_if2} - -| TC03: DUT1 and DUT2 with L2BD and VXLANoIPv4 tunnels in different SHGs switch ICMPv4 between TG links -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG.[Enc] Eth-IPv4-VXLAN-Eth-IPv4-ICMPv4 on \ -| | ... | DUT1-DUT2; Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 configure L2 -| | ... | bridge-domain (MAC learning enabled) with two untagged interfaces -| | ... | to TG and two VXLAN interfaces towards the DUT2 and put both VXLAN -| | ... | interfaces into the different Split-Horizon-Group (SHGs). On DUT2 -| | ... | configure two L2 bridge-domain (MAC learning enabled), each with one -| | ... | untagged interface to TG and one VXLAN interface towards the DUT1. -| | ... | [Ver] Make TG send ICMPv4 Echo Req between all four of its interfaces -| | ... | to be switched by DUT1 and DUT2; verify packets are switched between -| | ... | all TG interfaces. [Ref] RFC7348. -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO -| | Given Path for 3-node BD-SHG testing is set | ${nodes['TG']} -| | ... | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} -| | And Interfaces in 3-node BD-SHG testing are up -| | And Set Interface Address | ${dut1_node} | ${dut1_to_dut2} | ${ip4_addr1} -| | ... | ${ip4_prefix} -| | And Set Interface Address | ${dut2_node} | ${dut2_to_dut1} | ${ip4_addr2} -| | ... | ${ip4_prefix} -| | And VPP IP Probe | ${dut1_node} | ${dut1_to_dut2} | ${ip4_addr2} -| | And VPP IP Probe | ${dut2_node} | ${dut2_to_dut1} | ${ip4_addr1} -| | ${dut1s_vxlan1}= | When Create VXLAN interface | ${dut1_node} | ${vni_1} -| | | ... | ${ip4_addr1} | ${ip4_addr2} -| | ${dut1s_vxlan2}= | And Create VXLAN interface | ${dut1_node} | ${vni_2} -| | | ... | ${ip4_addr1} | ${ip4_addr2} -| | ${dut2s_vxlan1}= | And Create VXLAN interface | ${dut2_node} | ${vni_1} -| | | ... | ${ip4_addr2} | ${ip4_addr1} -| | ${dut2s_vxlan2}= | And Create VXLAN interface | ${dut2_node} | ${vni_2} -| | | ... | ${ip4_addr2} | ${ip4_addr1} -| | And Set Interface State | ${dut1_node} | ${dut1s_vxlan1} | up -| | And Set Interface State | ${dut1_node} | ${dut1s_vxlan2} | up -| | And Set Interface State | ${dut2_node} | ${dut2s_vxlan1} | up -| | And Set Interface State | ${dut2_node} | ${dut2s_vxlan2} | up -| | And Vpp Node Interfaces Ready Wait | ${dut1_node} -| | And Vpp Node Interfaces Ready Wait | ${dut2_node} -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_tg_if1} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_tg_if2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1s_vxlan1} -| | ... | ${bd_id1} | ${shg1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1s_vxlan2} -| | ... | ${bd_id1} | ${shg2} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg_if1} -| | ... | ${bd_id2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2s_vxlan1} -| | ... | ${bd_id2} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id3} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg_if2} -| | ... | ${bd_id3} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2s_vxlan2} -| | ... | ${bd_id3} -| | Then Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if1} -| | ... | ${tg_to_dut2_if1} -| | And Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if1} -| | ... | ${tg_to_dut2_if2} -| | And Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if2} -| | ... | ${tg_to_dut2_if1} -| | And Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if2} -| | ... | ${tg_to_dut2_if2} -| | And Send and receive ICMPv4 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut2_if1} -| | ... | ${tg_to_dut2_if2} - -| TC04: DUT1 and DUT2 with L2BD and VXLANoIPv6 tunnels switch ICMPv6 between TG links -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG.[Enc] Eth-IPv6-VXLAN-Eth-IPv6-ICMPv6 on \ -| | ... | DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUTn. [Cfg] On DUT1 and DUT2 -| | ... | configure L2 bridge-domain (MAC learning enabled), each with one -| | ... | interface to TG and one VXLAN tunnel interface towards the other -| | ... | DUT. [Ver] Make TG send ICMPv6 Echo Req between two of its -| | ... | interfaces to be switched by DUT1 and DUT2; verify all packets -| | ... | are received. [Ref] RFC7348. -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | And Set Interface Address | ${dut1_node} | ${dut1_to_dut2} | ${ip6_addr1} -| | ... | ${ip6_prefix} -| | And Set Interface Address | ${dut2_node} | ${dut2_to_dut1} | ${ip6_addr2} -| | ... | ${ip6_prefix} -| | And VPP IP Probe | ${dut1_node} | ${dut1_to_dut2} | ${ip6_addr2} -| | And VPP IP Probe | ${dut2_node} | ${dut2_to_dut1} | ${ip6_addr1} -| | ${dut1s_vxlan}= | When Create VXLAN interface | ${dut1_node} | ${vni_1} -| | | ... | ${ip6_addr1} | ${ip6_addr2} -| | And Interfaces are added to BD | ${dut1_node} | ${bd_id1} -| | ... | ${dut1_to_tg} | ${dut1s_vxlan} -| | ${dut2s_vxlan}= | And Create VXLAN interface | ${dut2_node} | ${vni_1} -| | | ... | ${ip6_addr2} | ${ip6_addr1} -| | And Interfaces are added to BD | ${dut2_node} | ${bd_id1} -| | ... | ${dut2_to_tg} | ${dut2s_vxlan} -| | Then Send and receive ICMPv6 bidirectionally -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} - -| TC05: DUT1 and DUT2 with L2BD and VXLANoIPv6 tunnels in SHG switch ICMPv6 between TG links -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG. [Enc] Eth-IPv6-VXLAN-Eth-IPv6-ICMPv6 on \ -| | ... | DUT1-DUT2; Eth-IPv6-ICMPv6 on TG-DUTn. [Cfg] On DUT1 configure L2 -| | ... | bridge-domain (MAC learning enabled) with two untagged interfaces -| | ... | to TG and two VXLAN interfaces towards the DUT2 and put both VXLAN -| | ... | interfaces into the same Split-Horizon-Group (SHG). On DUT2 configure -| | ... | two L2 bridge-domain (MAC learning enabled), each with one untagged -| | ... | interface to TG and one VXLAN interface towards the DUT1. [Ver] Make -| | ... | TG send ICMPv6 Echo Reqs between all four of its interfaces to be -| | ... | switched by DUT1 and DUT2; verify packets are not switched between -| | ... | TG interfaces connected to DUT2 that are isolated by SHG on DUT1. -| | ... | [Ref] RFC7348. -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO -| | Given Path for 3-node BD-SHG testing is set | ${nodes['TG']} -| | ... | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} -| | And Interfaces in 3-node BD-SHG testing are up -| | And Set Interface Address | ${dut1_node} | ${dut1_to_dut2} | ${ip6_addr1} -| | ... | ${ip6_prefix} -| | And Set Interface Address | ${dut2_node} | ${dut2_to_dut1} | ${ip6_addr2} -| | ... | ${ip6_prefix} -| | And VPP IP Probe | ${dut1_node} | ${dut1_to_dut2} | ${ip6_addr2} -| | And VPP IP Probe | ${dut2_node} | ${dut2_to_dut1} | ${ip6_addr1} -| | ${dut1s_vxlan1}= | When Create VXLAN interface | ${dut1_node} | ${vni_1} -| | | ... | ${ip6_addr1} | ${ip6_addr2} -| | ${dut1s_vxlan2}= | And Create VXLAN interface | ${dut1_node} | ${vni_2} -| | | ... | ${ip6_addr1} | ${ip6_addr2} -| | ${dut2s_vxlan1}= | And Create VXLAN interface | ${dut2_node} | ${vni_1} -| | | ... | ${ip6_addr2} | ${ip6_addr1} -| | ${dut2s_vxlan2}= | And Create VXLAN interface | ${dut2_node} | ${vni_2} -| | | ... | ${ip6_addr2} | ${ip6_addr1} -| | And Set Interface State | ${dut1_node} | ${dut1s_vxlan1} | up -| | And Set Interface State | ${dut1_node} | ${dut1s_vxlan2} | up -| | And Set Interface State | ${dut2_node} | ${dut2s_vxlan1} | up -| | And Set Interface State | ${dut2_node} | ${dut2s_vxlan2} | up -| | And Vpp Node Interfaces Ready Wait | ${dut1_node} -| | And Vpp Node Interfaces Ready Wait | ${dut2_node} -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_tg_if1} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_tg_if2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1s_vxlan1} -| | ... | ${bd_id1} | ${shg1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1s_vxlan2} -| | ... | ${bd_id1} | ${shg1} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg_if1} -| | ... | ${bd_id2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2s_vxlan1} -| | ... | ${bd_id2} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id3} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg_if2} -| | ... | ${bd_id3} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2s_vxlan2} -| | ... | ${bd_id3} -| | Then Send and receive ICMPv6 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if1} -| | ... | ${tg_to_dut2_if1} -| | And Send and receive ICMPv6 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if1} -| | ... | ${tg_to_dut2_if2} -| | And Send and receive ICMPv6 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if2} -| | ... | ${tg_to_dut2_if1} -| | And Send and receive ICMPv6 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if2} -| | ... | ${tg_to_dut2_if2} -| | And Run Keyword And Expect Error | ICMP echo Rx timeout -| | ... | Send and receive ICMPv6 bidirectionally -| | | ... | ${tg_node} | ${tg_to_dut2_if1} -| | | ... | ${tg_to_dut2_if2} - -| TC06: DUT1 and DUT2 with L2BD and VXLANoIPv6 tunnels in different SHGs switch ICMPv6 between TG links -| | [Documentation] -| | ... | [Top] TG=DUT1=DUT2=TG.[Enc] Eth-IPv6-VXLAN-Eth-IPv6-ICMPv6 on \ -| | ... | DUT1-DUT2; Eth-IPv6-ICMPv6 on TG-DUTn. [Cfg] On DUT1 configure L2 -| | ... | bridge-domain (MAC learning enabled) with two untagged interfaces -| | ... | to TG and two VXLAN interfaces towards the DUT2 and put both VXLAN -| | ... | interfaces into the different Split-Horizon-Group (SHGs). On DUT2 -| | ... | configure two L2 bridge-domain (MAC learning enabled), each with one -| | ... | untagged interface to TG and one VXLAN interface towards the DUT1. -| | ... | [Ver] Make TG send ICMPv6 Echo Req between all four of its interfaces -| | ... | to be switched by DUT1 and DUT2; verify packets are switched between -| | ... | all TG interfaces. [Ref] RFC7348. -| | [Tags] | 3_NODE_DOUBLE_LINK_TOPO -| | Given Path for 3-node BD-SHG testing is set | ${nodes['TG']} -| | ... | ${nodes['DUT1']} -| | ... | ${nodes['DUT2']} -| | And Interfaces in 3-node BD-SHG testing are up -| | And Set Interface Address | ${dut1_node} | ${dut1_to_dut2} | ${ip6_addr1} -| | ... | ${ip6_prefix} -| | And Set Interface Address | ${dut2_node} | ${dut2_to_dut1} | ${ip6_addr2} -| | ... | ${ip6_prefix} -| | And VPP IP Probe | ${dut1_node} | ${dut1_to_dut2} | ${ip6_addr2} -| | And VPP IP Probe | ${dut2_node} | ${dut2_to_dut1} | ${ip6_addr1} -| | ${dut1s_vxlan1}= | When Create VXLAN interface | ${dut1_node} | ${vni_1} -| | | ... | ${ip6_addr1} | ${ip6_addr2} -| | ${dut1s_vxlan2}= | And Create VXLAN interface | ${dut1_node} | ${vni_2} -| | | ... | ${ip6_addr1} | ${ip6_addr2} -| | ${dut2s_vxlan1}= | And Create VXLAN interface | ${dut2_node} | ${vni_1} -| | | ... | ${ip6_addr2} | ${ip6_addr1} -| | ${dut2s_vxlan2}= | And Create VXLAN interface | ${dut2_node} | ${vni_2} -| | | ... | ${ip6_addr2} | ${ip6_addr1} -| | And Set Interface State | ${dut1_node} | ${dut1s_vxlan1} | up -| | And Set Interface State | ${dut1_node} | ${dut1s_vxlan2} | up -| | And Set Interface State | ${dut2_node} | ${dut2s_vxlan1} | up -| | And Set Interface State | ${dut2_node} | ${dut2s_vxlan2} | up -| | And Vpp Node Interfaces Ready Wait | ${dut1_node} -| | And Vpp Node Interfaces Ready Wait | ${dut2_node} -| | And Bridge domain on DUT node is created | ${dut1_node} | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_tg_if1} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1_to_tg_if2} -| | ... | ${bd_id1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1s_vxlan1} -| | ... | ${bd_id1} | ${shg1} -| | And Interface is added to bridge domain | ${dut1_node} | ${dut1s_vxlan2} -| | ... | ${bd_id1} | ${shg2} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg_if1} -| | ... | ${bd_id2} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2s_vxlan1} -| | ... | ${bd_id2} -| | And Bridge domain on DUT node is created | ${dut2_node} | ${bd_id3} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2_to_tg_if2} -| | ... | ${bd_id3} -| | And Interface is added to bridge domain | ${dut2_node} | ${dut2s_vxlan2} -| | ... | ${bd_id3} -| | Then Send and receive ICMPv6 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if1} -| | ... | ${tg_to_dut2_if1} -| | And Send and receive ICMPv6 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if1} -| | ... | ${tg_to_dut2_if2} -| | And Send and receive ICMPv6 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if2} -| | ... | ${tg_to_dut2_if1} -| | And Send and receive ICMPv6 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut1_if2} -| | ... | ${tg_to_dut2_if2} -| | And Send and receive ICMPv6 bidirectionally | ${tg_node} -| | ... | ${tg_to_dut2_if1} -| | ... | ${tg_to_dut2_if2} diff --git a/tests/suites/vxlan/vxlan_xconnect_untagged.robot b/tests/suites/vxlan/vxlan_xconnect_untagged.robot deleted file mode 100644 index 32e8c9f478..0000000000 --- a/tests/suites/vxlan/vxlan_xconnect_untagged.robot +++ /dev/null @@ -1,68 +0,0 @@ -# Copyright (c) 2016 Cisco and/or its affiliates. -# Licensed under the Apache License, Version 2.0 (the "License"); -# you may not use this file except in compliance with the License. -# You may obtain a copy of the License at: -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, -# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -# See the License for the specific language governing permissions and -# limitations under the License. - -*** Settings *** -| Resource | resources/libraries/robot/default.robot -| Resource | resources/libraries/robot/testing_path.robot -| Resource | resources/libraries/robot/vxlan.robot -| Resource | resources/libraries/robot/l2_traffic.robot -| Library | resources.libraries.python.Trace -| Force Tags | 3_NODE_SINGLE_LINK_TOPO | VM_ENV | HW_ENV -| Test Setup | Run Keywords | Setup all DUTs before test -| ... | AND | Setup all TGs before traffic script -| Test Teardown | Run Keywords | Show Packet Trace on All DUTs | ${nodes} -| ... | AND | Show vpp trace dump on all DUTs -| Documentation | *RFC7348 VXLAN: L2 cross-connect with VXLAN test cases* -| ... -| ... | *[Top] Network topologies:* TG-DUT1-DUT2-TG 3-node circular topology -| ... | with single links between nodes. -| ... | *[Enc] Packet encapsulations:* Eth-IPv4-VXLAN-Eth-IPv4-ICMPv4 on -| ... | DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn for L2 switching of IPv4. -| ... | *[Cfg] DUT configuration:* DUT1 and DUT2 are configured with L2 -| ... | cross-connect (L2XC) switching; VXLAN tunnels are configured between -| ... | L2XCs on DUT1 and DUT2. -| ... | *[Ver] TG verification:* Test ICMPv4 Echo Request packets -| ... | are sent in both directions by TG on links to DUT1 and DUT2; on receive -| ... | TG verifies packets for correctness and their IPv4 src-addr, dst-addr -| ... | and MAC addresses. -| ... | *[Ref] Applicable standard specifications:* RFC7348. - -*** Variables *** -| ${VNI}= | 24 - -*** Test Cases *** -| TC01: DUT1 and DUT2 with L2XC and VXLANoIPv4 tunnels switch ICMPv4 between TG links -| | [Documentation] -| | ... | [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-VXLAN-Eth-IPv4-ICMPv4 on \ -| | ... | [Ref] RFC7348.DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On -| | ... | DUT1 and DUT2 configure L2 cross-connect (L2XC), each with one -| | ... | interface to TG and one VXLAN tunnel interface towards the other -| | ... | DUT. [Ver] Make TG send ICMPv4 Echo Req between two of its -| | ... | interfaces; verify all packets are received. [Ref] RFC7348. -| | Given Path for 3-node testing is set -| | ... | ${nodes['TG']} | ${nodes['DUT1']} | ${nodes['DUT2']} | ${nodes['TG']} -| | And Interfaces in 3-node path are up -| | ${dut1_to_dut2_name}= | Get interface name | ${dut1_node} | ${dut1_to_dut2} -| | ${dut2_to_dut1_name}= | Get interface name | ${dut2_node} | ${dut2_to_dut1} -| | And IP addresses are set on interfaces | ${dut1_node} | ${dut1_to_dut2_name} | ${NONE} -| | ... | ${dut2_node} | ${dut2_to_dut1_name} | ${NONE} -| | ${dut1s_vxlan}= | When Create VXLAN interface | ${dut1_node} | ${VNI} -| | | ... | ${dut1s_ip_address} | ${dut2s_ip_address} -| | And Interfaces are added to xconnect | ${dut1_node} -| | ... | ${dut1_to_tg} | ${dut1s_vxlan} -| | ${dut2s_vxlan}= | And Create VXLAN interface | ${dut2_node} | ${VNI} -| | | ... | ${dut2s_ip_address} | ${dut1s_ip_address} -| | And Interfaces are added to xconnect | ${dut2_node} -| | ... | ${dut2_to_tg} | ${dut2s_vxlan} -| | Then Send and receive ICMPv4 bidirectionally -| | ... | ${tg_node} | ${tg_to_dut1} | ${tg_to_dut2} |