frr/tests/topotests/bgp_evpn_rt5/test_bgp_evpn.py

#!/usr/bin/env python
# SPDX-License-Identifier: ISC

#
# test_bgp_evpn.py
# Part of NetDEF Topology Tests
#
# Copyright (c) 2019 by 6WIND
#

"""
 test_bgp_evpn.py: Test the FRR BGP daemon with BGP IPv6 interface
 with route advertisements on a separate netns.
"""

import os
import sys
import pytest
import platform

# Save the Current Working Directory to find configuration files.
CWD = os.path.dirname(os.path.realpath(__file__))
sys.path.append(os.path.join(CWD, "../"))

# pylint: disable=C0413
# Import topogen and topotest helpers
from lib import topotest
from lib.topogen import Topogen, TopoRouter, get_topogen
from lib.topolog import logger

# Required to instantiate the topology builder class.

pytestmark = [pytest.mark.bgpd]


def build_topo(tgen):
    "Build function"

    tgen.add_router("r1")
    tgen.add_router("r2")

    switch = tgen.add_switch("s1")
    switch.add_link(tgen.gears["r1"])
    switch.add_link(tgen.gears["r2"])

    switch = tgen.add_switch("s2")
    switch.add_link(tgen.gears["r1"])

    switch = tgen.add_switch("s3")
    switch.add_link(tgen.gears["r2"])


def setup_module(mod):
    "Sets up the pytest environment"

    tgen = Topogen(build_topo, mod.__name__)
    tgen.start_topology()

    router_list = tgen.routers()

    krel = platform.release()
    if topotest.version_cmp(krel, "4.18") < 0:
        logger.info(
            'BGP EVPN RT5 NETNS tests will not run (have kernel "{}", but it requires 4.18)'.format(
                krel
            )
        )
        return pytest.skip("Skipping BGP EVPN RT5 NETNS Test. Kernel not supported")

    # create VRF vrf-101 on R1 and R2
    # create loop101
    cmds_vrflite = [
        "ip link add {}-vrf-101 type vrf table 101",
        "ip ru add oif {}-vrf-101 table 101",
        "ip ru add iif {}-vrf-101 table 101",
        "ip link set dev {}-vrf-101 up",
        "ip link add loop101 type dummy",
        "ip link set dev loop101 master {}-vrf-101",
        "ip link set dev loop101 up",
    ]

    cmds_r2 = [  # config routing 101
        "ip link add name bridge-101 up type bridge stp_state 0",
        "ip link set bridge-101 master {}-vrf-101",
        "ip link set dev bridge-101 up",
        "ip link add name vxlan-101 type vxlan id 101 dstport 4789 dev r2-eth0 local 192.168.100.41",
        "ip link set dev vxlan-101 master bridge-101",
        "ip link set vxlan-101 up type bridge_slave learning off flood off mcast_flood off",
    ]

    # cmds_r1_netns_method3 = [
    #     "ip link add name vxlan-{1} type vxlan id {1} dstport 4789 dev {0}-eth0 local 192.168.100.21",
    #     "ip link set dev vxlan-{1} netns {0}-vrf-{1}",
    #     "ip netns exec {0}-vrf-{1} ip li set dev lo up",
    #     "ip netns exec {0}-vrf-{1} ip link add name bridge-{1} up type bridge stp_state 0",
    #     "ip netns exec {0}-vrf-{1} ip link set dev vxlan-{1} master bridge-{1}",
    #     "ip netns exec {0}-vrf-{1} ip link set bridge-{1} up",
    #     "ip netns exec {0}-vrf-{1} ip link set vxlan-{1} up",
    # ]

    router = tgen.gears["r1"]

    ns = "r1-vrf-101"
    tgen.net["r1"].add_netns(ns)
    tgen.net["r1"].cmd_raises("ip link add loop101 type dummy")
    tgen.net["r1"].set_intf_netns("loop101", ns, up=True)

    router = tgen.gears["r2"]
    for cmd in cmds_vrflite:
        logger.info("cmd to r2: " + cmd.format("r2"))
        output = router.cmd_raises(cmd.format("r2"))
        logger.info("result: " + output)

    for cmd in cmds_r2:
        logger.info("cmd to r2: " + cmd.format("r2"))
        output = router.cmd_raises(cmd.format("r2"))
        logger.info("result: " + output)

    tgen.net["r1"].cmd_raises(
        "ip link add name vxlan-101 type vxlan id 101 dstport 4789 dev r1-eth0 local 192.168.100.21"
    )
    tgen.net["r1"].set_intf_netns("vxlan-101", "r1-vrf-101", up=True)
    tgen.net["r1"].cmd_raises("ip -n r1-vrf-101 link set lo up")
    tgen.net["r1"].cmd_raises(
        "ip -n r1-vrf-101 link add name bridge-101 up type bridge stp_state 0"
    )
    tgen.net["r1"].cmd_raises(
        "ip -n r1-vrf-101 link set dev vxlan-101 master bridge-101"
    )
    tgen.net["r1"].cmd_raises("ip -n r1-vrf-101 link set bridge-101 up")
    tgen.net["r1"].cmd_raises("ip -n r1-vrf-101 link set vxlan-101 up")

    for rname, router in router_list.items():
        if rname == "r1":
            router.load_config(TopoRouter.RD_MGMTD, None, "--vrfwnetns")
            router.load_config(
                TopoRouter.RD_ZEBRA,
                os.path.join(CWD, "{}/zebra.conf".format(rname)),
                "--vrfwnetns",
            )
        else:
            router.load_config(
                TopoRouter.RD_ZEBRA, os.path.join(CWD, "{}/zebra.conf".format(rname))
            )
        router.load_config(
            TopoRouter.RD_BGP, os.path.join(CWD, "{}/bgpd.conf".format(rname))
        )

    # Initialize all routers.
    tgen.start_router()


def teardown_module(_mod):
    "Teardown the pytest environment"
    tgen = get_topogen()

    tgen.net["r1"].delete_netns("r1-vrf-101")
    tgen.stop_topology()


def test_protocols_convergence():
    """
    Assert that all protocols have converged
    statuses as they depend on it.
    """
    tgen = get_topogen()
    if tgen.routers_have_failure():
        pytest.skip(tgen.errors)
    topotest.sleep(4, "waiting 4 seconds for bgp convergence")
    # Check IPv4/IPv6 routing tables.
    output = tgen.gears["r1"].vtysh_cmd("show bgp l2vpn evpn", isjson=False)
    logger.info("==== result from show bgp l2vpn evpn")
    logger.info(output)
    output = tgen.gears["r1"].vtysh_cmd(
        "show bgp l2vpn evpn route detail", isjson=False
    )
    logger.info("==== result from show bgp l2vpn evpn route detail")
    logger.info(output)
    output = tgen.gears["r1"].vtysh_cmd("show bgp vrf r1-vrf-101 ipv4", isjson=False)
    logger.info("==== result from show bgp vrf r1-vrf-101 ipv4")
    logger.info(output)
    output = tgen.gears["r1"].vtysh_cmd("show bgp vrf r1-vrf-101", isjson=False)
    logger.info("==== result from show bgp vrf r1-vrf-101 ")
    logger.info(output)
    output = tgen.gears["r1"].vtysh_cmd("show ip route vrf r1-vrf-101", isjson=False)
    logger.info("==== result from show ip route vrf r1-vrf-101")
    logger.info(output)
    output = tgen.gears["r1"].vtysh_cmd("show evpn vni detail", isjson=False)
    logger.info("==== result from show evpn vni detail")
    logger.info(output)
    output = tgen.gears["r1"].vtysh_cmd("show evpn next-hops vni all", isjson=False)
    logger.info("==== result from show evpn next-hops vni all")
    logger.info(output)
    output = tgen.gears["r1"].vtysh_cmd("show evpn rmac vni all", isjson=False)
    logger.info("==== result from show evpn next-hops vni all")
    logger.info(output)
    # Check IPv4 and IPv6 connectivity between r1 and r2 ( routing vxlan evpn)
    pingrouter = tgen.gears["r1"]
    logger.info(
        "Check Ping IPv4 from  R1(r1-vrf-101) to R2(r2-vrf-101 = 192.168.101.41)"
    )
    output = pingrouter.run("ip netns exec r1-vrf-101 ping 192.168.101.41 -f -c 1000")
    logger.info(output)
    if "1000 packets transmitted, 1000 received" not in output:
        assertmsg = (
            "expected ping IPv4 from R1(r1-vrf-101) to R2(192.168.101.41) should be ok"
        )
        assert 0, assertmsg
    else:
        logger.info("Check Ping IPv4 from R1(r1-vrf-101) to R2(192.168.101.41) OK")


def test_memory_leak():
    "Run the memory leak test and report results."
    tgen = get_topogen()
    if not tgen.is_memleak_enabled():
        pytest.skip("Memory leak test/report is disabled")

    tgen.report_memory_leaks()


if __name__ == "__main__":
    args = ["-s"] + sys.argv[1:]
    sys.exit(pytest.main(args))
Adding upstream version 10.1.1. Signed-off-by: Daniel Baumann <daniel@debian.org> 2025-02-05 10:03:58 +01:00			`#!/usr/bin/env python`
			`# SPDX-License-Identifier: ISC`

			`#`
			`# test_bgp_evpn.py`
			`# Part of NetDEF Topology Tests`
			`#`
			`# Copyright (c) 2019 by 6WIND`
			`#`

			`"""`
			`test_bgp_evpn.py: Test the FRR BGP daemon with BGP IPv6 interface`
			`with route advertisements on a separate netns.`
			`"""`

			`import os`
			`import sys`
			`import pytest`
			`import platform`

			`# Save the Current Working Directory to find configuration files.`
			`CWD = os.path.dirname(os.path.realpath(__file__))`
			`sys.path.append(os.path.join(CWD, "../"))`

			`# pylint: disable=C0413`
			`# Import topogen and topotest helpers`
			`from lib import topotest`
			`from lib.topogen import Topogen, TopoRouter, get_topogen`
			`from lib.topolog import logger`

			`# Required to instantiate the topology builder class.`

			`pytestmark = [pytest.mark.bgpd]`


			`def build_topo(tgen):`
			`"Build function"`

			`tgen.add_router("r1")`
			`tgen.add_router("r2")`

			`switch = tgen.add_switch("s1")`
			`switch.add_link(tgen.gears["r1"])`
			`switch.add_link(tgen.gears["r2"])`

			`switch = tgen.add_switch("s2")`
			`switch.add_link(tgen.gears["r1"])`

			`switch = tgen.add_switch("s3")`
			`switch.add_link(tgen.gears["r2"])`


			`def setup_module(mod):`
			`"Sets up the pytest environment"`

			`tgen = Topogen(build_topo, mod.__name__)`
			`tgen.start_topology()`

			`router_list = tgen.routers()`

			`krel = platform.release()`
			`if topotest.version_cmp(krel, "4.18") < 0:`
			`logger.info(`
			`'BGP EVPN RT5 NETNS tests will not run (have kernel "{}", but it requires 4.18)'.format(`
			`krel`
			`)`
			`)`
			`return pytest.skip("Skipping BGP EVPN RT5 NETNS Test. Kernel not supported")`

			`# create VRF vrf-101 on R1 and R2`
			`# create loop101`
			`cmds_vrflite = [`
			`"ip link add {}-vrf-101 type vrf table 101",`
			`"ip ru add oif {}-vrf-101 table 101",`
			`"ip ru add iif {}-vrf-101 table 101",`
			`"ip link set dev {}-vrf-101 up",`
			`"ip link add loop101 type dummy",`
			`"ip link set dev loop101 master {}-vrf-101",`
			`"ip link set dev loop101 up",`
			`]`

			`cmds_r2 = [ # config routing 101`
			`"ip link add name bridge-101 up type bridge stp_state 0",`
			`"ip link set bridge-101 master {}-vrf-101",`
			`"ip link set dev bridge-101 up",`
			`"ip link add name vxlan-101 type vxlan id 101 dstport 4789 dev r2-eth0 local 192.168.100.41",`
			`"ip link set dev vxlan-101 master bridge-101",`
			`"ip link set vxlan-101 up type bridge_slave learning off flood off mcast_flood off",`
			`]`

			`# cmds_r1_netns_method3 = [`
			`# "ip link add name vxlan-{1} type vxlan id {1} dstport 4789 dev {0}-eth0 local 192.168.100.21",`
			`# "ip link set dev vxlan-{1} netns {0}-vrf-{1}",`
			`# "ip netns exec {0}-vrf-{1} ip li set dev lo up",`
			`# "ip netns exec {0}-vrf-{1} ip link add name bridge-{1} up type bridge stp_state 0",`
			`# "ip netns exec {0}-vrf-{1} ip link set dev vxlan-{1} master bridge-{1}",`
			`# "ip netns exec {0}-vrf-{1} ip link set bridge-{1} up",`
			`# "ip netns exec {0}-vrf-{1} ip link set vxlan-{1} up",`
			`# ]`

			`router = tgen.gears["r1"]`

			`ns = "r1-vrf-101"`
			`tgen.net["r1"].add_netns(ns)`
			`tgen.net["r1"].cmd_raises("ip link add loop101 type dummy")`
			`tgen.net["r1"].set_intf_netns("loop101", ns, up=True)`

			`router = tgen.gears["r2"]`
			`for cmd in cmds_vrflite:`
			`logger.info("cmd to r2: " + cmd.format("r2"))`
			`output = router.cmd_raises(cmd.format("r2"))`
			`logger.info("result: " + output)`

			`for cmd in cmds_r2:`
			`logger.info("cmd to r2: " + cmd.format("r2"))`
			`output = router.cmd_raises(cmd.format("r2"))`
			`logger.info("result: " + output)`

			`tgen.net["r1"].cmd_raises(`
			`"ip link add name vxlan-101 type vxlan id 101 dstport 4789 dev r1-eth0 local 192.168.100.21"`
			`)`
			`tgen.net["r1"].set_intf_netns("vxlan-101", "r1-vrf-101", up=True)`
			`tgen.net["r1"].cmd_raises("ip -n r1-vrf-101 link set lo up")`
			`tgen.net["r1"].cmd_raises(`
			`"ip -n r1-vrf-101 link add name bridge-101 up type bridge stp_state 0"`
			`)`
			`tgen.net["r1"].cmd_raises(`
			`"ip -n r1-vrf-101 link set dev vxlan-101 master bridge-101"`
			`)`
			`tgen.net["r1"].cmd_raises("ip -n r1-vrf-101 link set bridge-101 up")`
			`tgen.net["r1"].cmd_raises("ip -n r1-vrf-101 link set vxlan-101 up")`

			`for rname, router in router_list.items():`
			`if rname == "r1":`
			`router.load_config(TopoRouter.RD_MGMTD, None, "--vrfwnetns")`
			`router.load_config(`
			`TopoRouter.RD_ZEBRA,`
			`os.path.join(CWD, "{}/zebra.conf".format(rname)),`
			`"--vrfwnetns",`
			`)`
			`else:`
			`router.load_config(`
			`TopoRouter.RD_ZEBRA, os.path.join(CWD, "{}/zebra.conf".format(rname))`
			`)`
			`router.load_config(`
			`TopoRouter.RD_BGP, os.path.join(CWD, "{}/bgpd.conf".format(rname))`
			`)`

			`# Initialize all routers.`
			`tgen.start_router()`


			`def teardown_module(_mod):`
			`"Teardown the pytest environment"`
			`tgen = get_topogen()`

			`tgen.net["r1"].delete_netns("r1-vrf-101")`
			`tgen.stop_topology()`


			`def test_protocols_convergence():`
			`"""`
			`Assert that all protocols have converged`
			`statuses as they depend on it.`
			`"""`
			`tgen = get_topogen()`
			`if tgen.routers_have_failure():`
			`pytest.skip(tgen.errors)`
			`topotest.sleep(4, "waiting 4 seconds for bgp convergence")`
			`# Check IPv4/IPv6 routing tables.`
			`output = tgen.gears["r1"].vtysh_cmd("show bgp l2vpn evpn", isjson=False)`
			`logger.info("==== result from show bgp l2vpn evpn")`
			`logger.info(output)`
			`output = tgen.gears["r1"].vtysh_cmd(`
			`"show bgp l2vpn evpn route detail", isjson=False`
			`)`
			`logger.info("==== result from show bgp l2vpn evpn route detail")`
			`logger.info(output)`
			`output = tgen.gears["r1"].vtysh_cmd("show bgp vrf r1-vrf-101 ipv4", isjson=False)`
			`logger.info("==== result from show bgp vrf r1-vrf-101 ipv4")`
			`logger.info(output)`
			`output = tgen.gears["r1"].vtysh_cmd("show bgp vrf r1-vrf-101", isjson=False)`
			`logger.info("==== result from show bgp vrf r1-vrf-101 ")`
			`logger.info(output)`
			`output = tgen.gears["r1"].vtysh_cmd("show ip route vrf r1-vrf-101", isjson=False)`
			`logger.info("==== result from show ip route vrf r1-vrf-101")`
			`logger.info(output)`
			`output = tgen.gears["r1"].vtysh_cmd("show evpn vni detail", isjson=False)`
			`logger.info("==== result from show evpn vni detail")`
			`logger.info(output)`
			`output = tgen.gears["r1"].vtysh_cmd("show evpn next-hops vni all", isjson=False)`
			`logger.info("==== result from show evpn next-hops vni all")`
			`logger.info(output)`
			`output = tgen.gears["r1"].vtysh_cmd("show evpn rmac vni all", isjson=False)`
			`logger.info("==== result from show evpn next-hops vni all")`
			`logger.info(output)`
			`# Check IPv4 and IPv6 connectivity between r1 and r2 ( routing vxlan evpn)`
			`pingrouter = tgen.gears["r1"]`
			`logger.info(`
			`"Check Ping IPv4 from R1(r1-vrf-101) to R2(r2-vrf-101 = 192.168.101.41)"`
			`)`
			`output = pingrouter.run("ip netns exec r1-vrf-101 ping 192.168.101.41 -f -c 1000")`
			`logger.info(output)`
			`if "1000 packets transmitted, 1000 received" not in output:`
			`assertmsg = (`
			`"expected ping IPv4 from R1(r1-vrf-101) to R2(192.168.101.41) should be ok"`
			`)`
			`assert 0, assertmsg`
			`else:`
			`logger.info("Check Ping IPv4 from R1(r1-vrf-101) to R2(192.168.101.41) OK")`


			`def test_memory_leak():`
			`"Run the memory leak test and report results."`
			`tgen = get_topogen()`
			`if not tgen.is_memleak_enabled():`
			`pytest.skip("Memory leak test/report is disabled")`

			`tgen.report_memory_leaks()`


			`if __name__ == "__main__":`
			`args = ["-s"] + sys.argv[1:]`
			`sys.exit(pytest.main(args))`