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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.L2Util
| Library | resources.libraries.python.InterfaceUtil
| Library | resources.libraries.python.NodePath
| Library | resources.libraries.python.VhostUser
| Library | resources.libraries.python.QemuUtils
| Resource | resources/libraries/robot/interfaces.robot
| Resource | resources/libraries/robot/l2_traffic.robot

*** Keywords ***
| Vpp l2bd forwarding setup
| | [Documentation] | Setup BD between 2 interfaces on VPP node and if learning
| | ...             | is off set static L2FIB entry on second interface
| | [Arguments] | ${node} | ${if1} | ${if2} | ${learn}=${TRUE} | ${mac}=${EMPTY}
| | Set Interface State | ${node} | ${if1} | up
| | Set Interface State | ${node} | ${if2} | up
| | Vpp Add L2 Bridge Domain | ${node} | ${1} | ${if1} | ${if2} | ${learn}
| | Run Keyword If | ${learn} == ${FALSE}
| | ... | Vpp Add L2fib Entry | ${node} | ${mac} | ${if2} | ${1}
| | All Vpp Interfaces Ready Wait | ${nodes}

| Path for 3-node BD-SHG testing is set
| | [Documentation] | Compute path for bridge domain split-horizon group testing
| | ...             | on three given nodes with following interconnections
| | ...             | TG - (2 links) - DUT1 - (1 link) - DUT2 - (2 links) - TG
| | ...             | and set corresponding test case variables.
| | ...
| | ... | *Arguments:*
| | ... | - ${tg_node} - TG node. Type: dictionary
| | ... | - ${dut1_node} - DUT1 node. Type: dictionary
| | ... | - ${dut2_node} - DUT2 node. Type: dictionary
| | ...
| | ... | *Return:*
| | ... | - No value returned
| | ...
| | ... | _NOTE:_ This KW sets following test case variables:
| | ... | - ${tg_node} - TG node.
| | ... | - ${tg_to_dut1_if1} - TG interface 1 towards DUT1.
| | ... | - ${tg_to_dut1_if2} - TG interface 2 towards DUT1.
| | ... | - ${tg_to_dut2_if1} - TG interface 1 towards DUT2.
| | ... | - ${tg_to_dut2_if2} - TG interface 2 towards DUT2.
| | ... | - ${dut1_node} - DUT1 node.
| | ... | - ${dut1_to_tg_if1} - DUT1 interface 1 towards TG.
| | ... | - ${dut1_to_tg_if2} - DUT1 interface 2 towards TG.
| | ... | - ${dut1_to_dut2} - DUT1 interface towards DUT2.
| | ... | - ${dut2_node} - DUT2 node.
| | ... | - ${dut2_to_tg_if1} - DUT2 interface 1 towards TG.
| | ... | - ${dut2_to_tg_if2} - DUT2 interface 2 towards TG.
| | ... | - ${dut2_to_dut1} - DUT2 interface towards DUT1.
| | ...
| | ... | *Example:*
| | ...
| | ... | \| Given Path for 3-node BD-SHG testing is set \| ${nodes['TG']} \
| | ... | \| ${nodes['DUT1']} \| ${nodes['DUT2']} \|
| | [Arguments] | ${tg_node} | ${dut1_node} | ${dut2_node}
| | # Compute path TG - DUT1 with two links in between
| | Append Nodes | ${tg_node} | ${dut1_node} | ${tg_node}
| | Compute Path | always_same_link=${FALSE}
| | ${tg_to_dut1_if1} | ${tmp}= | First Interface
| | ${tg_to_dut1_if2} | ${tmp}= | Last Interface
| | ${dut1_to_tg_if1} | ${tmp}= | First Ingress Interface
| | ${dut1_to_tg_if2} | ${tmp}= | Last Egress Interface
| | # Compute path TG - DUT2 with two links in between
| | Clear Path
| | Append Nodes | ${tg_node} | ${dut2_node} | ${tg_node}
| | Compute Path | always_same_link=${FALSE}
| | ${tg_to_dut2_if1} | ${tmp}= | First Interface
| | ${tg_to_dut2_if2} | ${tmp}= | Last Interface
| | ${dut2_to_tg_if1} | ${tmp}= | First Ingress Interface
| | ${dut2_to_tg_if2} | ${tmp}= | Last Egress Interface
| | # Compute path DUT1 - DUT2 with one link in between
| | Clear Path
| | Append Nodes | ${dut1_node} | ${dut2_node}
| | Compute Path
| | ${dut1_to_dut2} | ${tmp}= | Next Interface
| | ${dut2_to_dut1} | ${tmp}= | Next Interface
| | # Set test variables
| | Set Test Variable | ${tg_to_dut1_if1}
| | Set Test Variable | ${tg_to_dut1_if2}
| | Set Test Variable | ${tg_to_dut2_if1}
| | Set Test Variable | ${tg_to_dut2_if2}
| | Set Test Variable | ${dut1_to_tg_if1}
| | Set Test Variable | ${dut1_to_tg_if2}
| | Set Test Variable | ${dut2_to_tg_if1}
| | Set Test Variable | ${dut2_to_tg_if2}
| | Set Test Variable | ${dut1_to_dut2}
| | Set Test Variable | ${dut2_to_dut1}
| | Set Test Variable | ${tg_node}
| | Set Test Variable | ${dut1_node}
| | Set Test Variable | ${dut2_node}

| Interfaces in 3-node BD-SHG testing are up
| | [Documentation] | Set UP state on interfaces in 3-node path on nodes and
| | ...             | wait for all interfaces are ready.
| | ...
| | ... | *Arguments:*
| | ... | - No arguments.
| | ...
| | ... | *Return:*
| | ... | - No value returned.
| | ...
| | ... | _NOTE:_ This KW uses test variables sets in
| | ... |         "Path for 3-node BD-SHG testing is set" KW.
| | ...
| | ... | *Example:*
| | ...
| | ... | \| Path for 3-node BD-SHG testing is set \| ${nodes['TG']} \
| | ... | \| ${nodes['DUT1']} \| ${nodes['DUT2']} \|
| | ... | \| Interfaces in 3-node BD-SHG testing are up \|
| | ...
| | Set Interface State | ${tg_node} | ${tg_to_dut1_if1} | up
| | Set Interface State | ${tg_node} | ${tg_to_dut1_if2} | up
| | Set Interface State | ${tg_node} | ${tg_to_dut2_if1} | up
| | Set Interface State | ${tg_node} | ${tg_to_dut2_if2} | up
| | Set Interface State | ${dut1_node} | ${dut1_to_tg_if1} | up
| | Set Interface State | ${dut1_node} | ${dut1_to_tg_if2} | up
| | Set Interface State | ${dut2_node} | ${dut2_to_tg_if1} | up
| | Set Interface State | ${dut2_node} | ${dut2_to_tg_if2} | up
| | Set Interface State | ${dut1_node} | ${dut1_to_dut2} | up
| | Set Interface State | ${dut2_node} | ${dut2_to_dut1} | up
| | Vpp Node Interfaces Ready Wait | ${dut1_node}
| | Vpp Node Interfaces Ready Wait | ${dut2_node}

| Bridge domain on DUT node is created
| | [Documentation] | Create bridge domain on given VPP node with defined
| | ...             | learning status.
| | ...
| | ... | *Arguments:*
| | ... | - ${dut_node} - DUT node. Type: dictionary
| | ... | - ${bd_id} - Bridge domain ID. Type: integer
| | ... | - ${learn} - Enable/disable MAC learn. Type: boolean, \
| | ... | default value: ${TRUE}
| | ...
| | ... | *Return:*
| | ... | - No value returned
| | ...
| | ... | *Example:*
| | ...
| | ... | \| Bridge domain on DUT node is created \| ${nodes['DUT1']} \| 2 \|
| | ... | \| Bridge domain on DUT node is created \| ${nodes['DUT1']} \| 5 \
| | ... | \| learn=${FALSE} \|
| | [Arguments] | ${dut_node} | ${bd_id} | ${learn}=${TRUE}
| | ${learn} = | Set Variable If | ${learn} == ${TRUE} | ${1} | ${0}
| | Create L2 BD | ${dut_node} | ${bd_id} | learn=${learn}

| Interface is added to bridge domain
| | [Documentation] | Set given interface admin state to up and add this
| | ...             | interface to required L2 bridge domain on defined
| | ...             | VPP node.
| | ...
| | ... | *Arguments:*
| | ... | - ${dut_node} - DUT node. Type: dictionary
| | ... | - ${dut_if} - DUT node interface name. Type: string
| | ... | - ${bd_id} - Bridge domain ID. Type: integer
| | ... | - ${shg} - Split-horizon group ID. Type: integer, default value: 0
| | ...
| | ... | *Return:*
| | ... | - No value returned
| | ...
| | ... | *Example:*
| | ...
| | ... | \| Interface is added to bridge domain \| ${nodes['DUT2']} \
| | ... | \| GigabitEthernet0/8/0 \| 3 \|
| | [Arguments] | ${dut_node} | ${dut_if} | ${bd_id} | ${shg}=0
| | Set Interface State | ${dut_node} | ${dut_if} | up
| | Add Interface To L2 BD | ${dut_node} | ${dut_if} | ${bd_id} | ${shg}

| Destination port is added to L2FIB on DUT node
| | [Documentation] | Create a static L2FIB entry for required destination port
| | ...             | on defined interface and bridge domain ID
| | ...             | of the given VPP node.
| | ...
| | ... | *Arguments:*
| | ... | - ${dest_node} - Destination node. Type: dictionary
| | ... | - ${dest_node_if} - Destination node interface name. Type: string
| | ... | - ${vpp_node} - DUT node to add L2FIB entry on. Type: dictionary
| | ... | - ${vpp_node_if} - DUT node interface name. Type: string
| | ... | - ${bd_id} - Bridge domain ID. Type: integer
| | ...
| | ... | *Return:*
| | ... | - No value returned
| | ...
| | ... | *Example:*
| | ...
| | ... | \| Destination port is added to L2FIB on DUT node \| ${nodes['TG']} \
| | ... | \| eth1 \| ${nodes['DUT2']} \| GigabitEthernet0/8/0 \| 3 \|
| | [Arguments] | ${dest_node} | ${dest_node_if} | ${vpp_node}
| | ...         | ${vpp_node_if} | ${bd_id}
| | ${mac}= | Get Interface Mac | ${dest_node} | ${dest_node_if}
| | Vpp Add L2fib Entry | ${vpp_node} | ${mac} | ${vpp_node_if} | ${bd_id}

| VM for Vhost L2BD forwarding is setup
| | [Documentation] | Setup QEMU and start VM with two vhost interfaces.
| | ...
| | ... | *Arguments:*
| | ... | - ${node} - DUT node to start VM on. Type: dictionary
| | ... | - ${sock1} - Socket path for first Vhost-User interface. Type: string
| | ... | - ${sock2} - Socket path for second Vhost-User interface. Type: string
| | ...
| | ... | _NOTE:_ This KW sets following test case variable:
| | ... | -${vm_node} - VM node info. Type: dictionary
| | ...
| | ... | *Example:*
| | ...
| | ... | \| VM for Vhost L2BD forwarding is setup \| ${nodes['DUT1']} \
| | ... | \| /tmp/sock1 \| /tmp/sock2
| | [Arguments] | ${node} | ${sock1} | ${sock2}
| | Set Test Variable | ${vm_node} | ${None}
| | Qemu Set Node | ${node}
| | Qemu Add Vhost User If | ${sock1}
| | Qemu Add Vhost User If | ${sock2}
| | ${vm}= | Qemu Start
| | ${br}= | Set Variable | br0
| | ${vhost1}= | Get Vhost User If Name By Sock | ${vm} | ${sock1}
| | ${vhost2}= | Get Vhost User If Name By Sock | ${vm} | ${sock2}
| | Linux Add Bridge | ${vm} | ${br} | ${vhost1} | ${vhost2}
| | Set Interface State | ${vm} | ${vhost1} | up
| | Set Interface State | ${vm} | ${vhost2} | up
| | Set Interface State | ${vm} | ${br} | up
| | Set Test Variable | ${vm_node} | ${vm}

| VPP Vhost interfaces for L2BD forwarding are setup
| | [Documentation] | Create two Vhost-User interfaces on defined VPP node.
| | ...
| | ... | *Arguments:*
| | ... | - ${node} - DUT node. Type: dictionary
| | ... | - ${sock1} - Socket path for first Vhost-User interface. Type: string
| | ... | - ${sock2} - Socket path for second Vhost-User interface. Type: string
| | ...
| | ... | _NOTE:_ This KW sets following test case variable:
| | ... | - ${vhost_if1} - First Vhost-User interface.
| | ... | - ${vhost_if2} - Second Vhost-User interface.
| | ...
| | ... | *Example:*
| | ...
| | ... | \| VPP Vhost interfaces for L2BD forwarding are setup \
| | ... | \| ${nodes['DUT1']} \| /tmp/sock1 \| /tmp/sock2
| | [Arguments] | ${node} | ${sock1} | ${sock2}
| | ${vhost_if1}= | Vpp Create Vhost User Interface | ${node} | ${sock1}
| | ${vhost_if2}= | Vpp Create Vhost User Interface | ${node} | ${sock2}
| | Set Test Variable | ${vhost_if1}
| | Set Test Variable | ${vhost_if2}