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#!/usr/bin/python
# SPDX-License-Identifier: ISC
#
# Copyright (c) 2020 by VMware, Inc. ("VMware")
# Used Copyright (c) 2018 by Network Device Education Foundation, Inc.
# ("NetDEF") in this file.
#
"""OSPF Basic Functionality Automation."""
import ipaddress
from lib.ospf import (
verify_ospf_neighbor,
verify_ospf_rib,
create_router_ospf,
redistribute_ospf,
)
from lib.topojson import build_config_from_json
from lib.topolog import logger
from lib.common_config import (
start_topology,
write_test_header,
write_test_footer,
reset_config_on_routers,
verify_rib,
create_static_routes,
step,
)
from lib.topogen import Topogen, get_topogen
import os
import sys
import time
import pytest
# Save the Current Working Directory to find configuration files.
CWD = os.path.dirname(os.path.realpath(__file__))
sys.path.append(os.path.join(CWD, "../"))
sys.path.append(os.path.join(CWD, "../lib/"))
# pylint: disable=C0413
# Import topogen and topotest helpers
pytestmark = [pytest.mark.ospfd, pytest.mark.staticd]
# Global variables
topo = None
NETWORK = {
"ipv4": [
"11.0.20.1/32",
"11.0.20.2/32",
"11.0.20.3/32",
"11.0.20.4/32",
"11.0.20.5/32",
]
}
"""
TOPOOLOGY =
Please view in a fixed-width font such as Courier.
+---+ A1 +---+
+R1 +------------+R2 |
+-+-+- +--++
| -- -- |
| -- A0 -- |
A0| ---- |
| ---- | A2
| -- -- |
| -- -- |
+-+-+- +-+-+
+R0 +-------------+R3 |
+---+ A3 +---+
TESTCASES =
1. OSPF Learning - Verify OSPF can learn different types of LSA and
processes them.[Edge learning different types of LSAs]
2. Verify that ospf non back bone area can be configured as NSSA area
3. Verify that ospf NSSA area DUT is capable receiving & processing
Type7 N2 route.
"""
def setup_module(mod):
"""
Sets up the pytest environment
* `mod`: module name
"""
testsuite_run_time = time.asctime(time.localtime(time.time()))
logger.info("Testsuite start time: {}".format(testsuite_run_time))
logger.info("=" * 40)
logger.info("Running setup_module to create topology")
# This function initiates the topology build with Topogen...
json_file = "{}/ospf_nssa.json".format(CWD)
tgen = Topogen(json_file, mod.__name__)
global topo
topo = tgen.json_topo
# ... and here it calls Mininet initialization functions.
# Starting topology, create tmp files which are loaded to routers
# to start daemons and then start routers
start_topology(tgen)
# Creating configuration from JSON
build_config_from_json(tgen, topo)
# Don't run this test if we have any failure.
if tgen.routers_have_failure():
pytest.skip(tgen.errors)
# Api call verify whether OSPF is converged
ospf_covergence = verify_ospf_neighbor(tgen, topo)
assert ospf_covergence is True, "setup_module :Failed \n Error {}".format(
ospf_covergence
)
logger.info("Running setup_module() done")
def teardown_module():
"""
Teardown the pytest environment.
* `mod`: module name
"""
logger.info("Running teardown_module to delete topology")
tgen = get_topogen()
# Stop toplogy and Remove tmp files
tgen.stop_topology()
logger.info(
"Testsuite end time: {}".format(time.asctime(time.localtime(time.time())))
)
logger.info("=" * 40)
# ##################################
# Test cases start here.
# ##################################
def test_ospf_learning_tc15_p0(request):
"""Verify OSPF can learn different types of LSA and processes them.
OSPF Learning : Edge learning different types of LSAs.
"""
tc_name = request.node.name
write_test_header(tc_name)
tgen = get_topogen()
# Don't run this test if we have any failure.
if tgen.routers_have_failure():
pytest.skip(tgen.errors)
global topo
step("Bring up the base config as per the topology")
step("Configure area 1 as NSSA Area")
reset_config_on_routers(tgen)
step("Verify that Type 3 summary LSA is originated for the same Area 0")
ip = topo["routers"]["r1"]["links"]["r3-link0"]["ipv4"]
ip_net = str(ipaddress.ip_interface("{}".format(ip)).network)
dut = "r0"
input_dict = {
"r1": {
"static_routes": [{"network": ip_net, "no_of_ip": 1, "routeType": "N IA"}]
}
}
dut = "r0"
result = verify_ospf_rib(tgen, dut, input_dict)
assert result is True, "Testcase {} : Failed \n Error: {}".format(tc_name, result)
protocol = "ospf"
result = verify_rib(tgen, "ipv4", dut, input_dict, protocol=protocol)
assert result is True, "Testcase {} : Failed \n Error: {}".format(tc_name, result)
input_dict = {
"r2": {
"static_routes": [
{"network": NETWORK["ipv4"][0], "no_of_ip": 5, "next_hop": "Null0"}
]
}
}
result = create_static_routes(tgen, input_dict)
assert result is True, "Testcase {} : Failed \n Error: {}".format(tc_name, result)
step("Redistribute static route in R2 ospf.")
dut = "r2"
redistribute_ospf(tgen, topo, dut, "static")
step("Verify that Type 5 LSA is originated by R2.")
dut = "r0"
protocol = "ospf"
result = verify_rib(tgen, "ipv4", dut, input_dict, protocol=protocol)
assert result is True, "Testcase {} : Failed \n Error: {}".format(tc_name, result)
step("Verify that R0 receives Type 4 summary LSA.")
dut = "r0"
input_dict = {
"r1": {
"static_routes": [
{"network": NETWORK["ipv4"][0], "no_of_ip": 1, "routeType": "N E2"}
]
}
}
dut = "r1"
result = verify_ospf_rib(tgen, dut, input_dict)
assert result is True, "Testcase {} : Failed \n Error: {}".format(tc_name, result)
result = verify_rib(tgen, "ipv4", dut, input_dict, protocol=protocol)
assert result is True, "Testcase {} : Failed \n Error: {}".format(tc_name, result)
ospf_covergence = verify_ospf_neighbor(tgen, topo)
assert ospf_covergence is True, "Testcase Failed \n Error {}".format(
ospf_covergence
)
step("Change area 1 as non nssa area (on the fly changing area type on DUT).")
for rtr in ["r1", "r2", "r3"]:
input_dict = {
rtr: {"ospf": {"area": [{"id": "0.0.0.2", "type": "nssa", "delete": True}]}}
}
result = create_router_ospf(tgen, topo, input_dict)
assert result is True, "Testcase {} : Failed \n Error: {}".format(
tc_name, result
)
step("Verify that OSPF neighbours are reset after changing area type.")
step("Verify that ABR R2 originates type 5 LSA in area 1.")
step("Verify that route is calculated and installed in R1.")
input_dict = {
"r1": {
"static_routes": [
{"network": NETWORK["ipv4"][0], "no_of_ip": 1, "routeType": "N E2"}
]
}
}
dut = "r1"
result = verify_ospf_rib(tgen, dut, input_dict)
assert result is True, "Testcase {} : Failed \n Error: {}".format(tc_name, result)
result = verify_rib(tgen, "ipv4", dut, input_dict, protocol=protocol)
assert result is True, "Testcase {} : Failed \n Error: {}".format(tc_name, result)
write_test_footer(tc_name)
if __name__ == "__main__":
args = ["-s"] + sys.argv[1:]
sys.exit(pytest.main(args))
|
