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# 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}
*** Test Cases ***
| VPP replies to ICMPv4 echo request
| | [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
| TG can route to DUT egress interface
| | [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
| TG can route to DUT2 through DUT1
| | [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
| TG can route to DUT2 egress interface through DUT1
| | [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
| TG can route to TG through DUT1 and DUT2
| | [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}
| VPP can process ICMP echo request from min to 1500B packet size with 1B increment
| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV
| | Ipv4 icmp echo sweep | ${nodes['TG']} | ${nodes['DUT1']} | 0 | 1452 | 1
| VPP can process ICMP echo request from 1500B to max packet size with 10B increment
| | [Tags] | 3_NODE_SINGLE_LINK_TOPO
| | [Documentation] | This test case cannot be run reliably on VM_ENV because
| | ... | the virtual hosts can be connected using a bridge which
| | ... | has its own MTU
| | [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
| VPP responds to ARP request
| | [Tags] | 3_NODE_SINGLE_LINK_TOPO | VM_ENV
| | Send ARP request and validate response | ${nodes['TG']} | ${nodes['DUT1']}
|
