BuiltIn.Set_Suite_Variable ${rib_owner} ${rib_owner}
BuiltIn.Set_Suite_Variable ${rib_candidates} ${rib_candidates}
BuiltIn.Set_Suite_Variable ${rib_owner_node_id} ${ODL_SYSTEM_${rib_owner}_IP}
- RequestsLibrary.Create_Session ${CONFIG_SESSION} http://${ODL_SYSTEM_${rib_owner}_IP}:${RESTCONFPORT} auth=${AUTH} timeout=10 max_retries=0
+ ${session} = ClusterManagement.Resolve_Http_Session_For_Member ${rib_owner}
+ BuiltIn.Set_Suite_Variable ${config_session} ${session}
Move_Shard_Leaders_If_Needed
[Documentation] Set shard leaders to expected location
[Documentation] Wait for ${EXAMPLE_IPV4_TOPOLOGY} to come up and empty. Give large timeout for case when BGP boots slower than restconf.
[Tags] critical
[Setup] SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing
- BuiltIn.Wait_Until_Keyword_Succeeds ${INITIAL_RESTCONF_TIMEOUT} 1s PrefixCounting.Check_Ipv4_Topology_Is_Empty session=${CONFIGURATION_1} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ BuiltIn.Wait_Until_Keyword_Succeeds ${INITIAL_RESTCONF_TIMEOUT} 1s PrefixCounting.Check_Ipv4_Topology_Is_Empty session=${operational_1} topology=${EXAMPLE_IPV4_TOPOLOGY}
Check_For_Empty_Ipv4_Topology_Before_Talking_2
[Documentation] Wait for ${EXAMPLE_IPV4_TOPOLOGY} to come up and empty. Give large timeout for case when BGP boots slower than restconf.
[Tags] critical
[Setup] SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing
- BuiltIn.Wait_Until_Keyword_Succeeds ${INITIAL_RESTCONF_TIMEOUT} 1s PrefixCounting.Check_Ipv4_Topology_Is_Empty session=${CONFIGURATION_2} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ BuiltIn.Wait_Until_Keyword_Succeeds ${INITIAL_RESTCONF_TIMEOUT} 1s PrefixCounting.Check_Ipv4_Topology_Is_Empty session=${operational_2} topology=${EXAMPLE_IPV4_TOPOLOGY}
Check_For_Empty_Ipv4_Topology_Before_Talking_3
[Documentation] Wait for ${EXAMPLE_IPV4_TOPOLOGY} to come up and empty. Give large timeout for case when BGP boots slower than restconf.
[Tags] critical
[Setup] SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing
- BuiltIn.Wait_Until_Keyword_Succeeds ${INITIAL_RESTCONF_TIMEOUT} 1s PrefixCounting.Check_Ipv4_Topology_Is_Empty session=${CONFIGURATION_3} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ BuiltIn.Wait_Until_Keyword_Succeeds ${INITIAL_RESTCONF_TIMEOUT} 1s PrefixCounting.Check_Ipv4_Topology_Is_Empty session=${operational_3} topology=${EXAMPLE_IPV4_TOPOLOGY}
Reconfigure_ODL_To_Accept_Connection
[Documentation] Configure BGP peer module with initiate-connection set to false.
[Setup] SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing
&{mapping} BuiltIn.Create_Dictionary DEVICE_NAME=${DEVICE_NAME} BGP_NAME=${BGP_PEER_NAME} IP=${TOOLS_SYSTEM_IP} HOLDTIME=${HOLDTIME} PEER_PORT=${BGP_TOOL_PORT}
... INITIATE=false BGP_RIB=${RIB_INSTANCE} PASSIVE_MODE=true BGP_RIB_OPENCONFIG=${PROTOCOL_OPENCONFIG}
- TemplatedRequests.Put_As_Json_Templated ${BGP_VARIABLES_FOLDER} mapping=${mapping} session=${CONFIG_SESSION}
+ TemplatedRequests.Put_As_Json_Templated ${BGP_VARIABLES_FOLDER} mapping=${mapping} session=${config_session}
[Teardown] SetupUtils.Teardown_Test_Show_Bugs_If_Test_Failed
Start_Talking_BGP_Speaker
Wait_For_Stable_Talking_Ipv4_Topology_1
[Documentation] Wait until ${EXAMPLE_IPV4_TOPOLOGY} becomes stable. This is done by checking stability of prefix count as seen from node 1.
- PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=0 session=${CONFIGURATION_1} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=0 session=${operational_1} topology=${EXAMPLE_IPV4_TOPOLOGY}
... shards_list=${SHARD_MONITOR_LIST} shards_details=${init_shard_details}
Wait_For_Stable_Talking_Ipv4_Topology_2
[Documentation] Wait until ${EXAMPLE_IPV4_TOPOLOGY} becomes stable. This is done by checking stability of prefix count as seen from node 2.
- PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=0 session=${CONFIGURATION_2} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=0 session=${operational_2} topology=${EXAMPLE_IPV4_TOPOLOGY}
... shards_list=${SHARD_MONITOR_LIST} shards_details=${init_shard_details}
Wait_For_Stable_Talking_Ipv4_Topology_3
[Documentation] Wait until ${EXAMPLE_IPV4_TOPOLOGY} becomes stable. This is done by checking stability of prefix count as seen from node 3.
- PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=0 session=${CONFIGURATION_3} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=0 session=${operational_3} topology=${EXAMPLE_IPV4_TOPOLOGY}
... shards_list=${SHARD_MONITOR_LIST} shards_details=${init_shard_details}
Check_Talking_Ipv4_Topology_Count_1
[Documentation] Count the routes in ${EXAMPLE_IPV4_TOPOLOGY} and fail if the count is not correct as seen from node 1.
[Tags] critical
[Setup] SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing
- PrefixCounting.Check_Ipv4_Topology_Count ${COUNT} session=${CONFIGURATION_1} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ PrefixCounting.Check_Ipv4_Topology_Count ${COUNT} session=${operational_1} topology=${EXAMPLE_IPV4_TOPOLOGY}
Check_Talking_Ipv4_Topology_Count_2
[Documentation] Count the routes in ${EXAMPLE_IPV4_TOPOLOGY} and fail if the count is not correct as seen from node 2.
[Tags] critical
[Setup] SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing
- PrefixCounting.Check_Ipv4_Topology_Count ${COUNT} session=${CONFIGURATION_2} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ PrefixCounting.Check_Ipv4_Topology_Count ${COUNT} session=${operational_2} topology=${EXAMPLE_IPV4_TOPOLOGY}
Check_Talking_Ipv4_Topology_Count_3
[Documentation] Count the routes in ${EXAMPLE_IPV4_TOPOLOGY} and fail if the count is not correct as seen from node 3.
[Tags] critical
[Setup] SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing
- PrefixCounting.Check_Ipv4_Topology_Count ${COUNT} session=${CONFIGURATION_3} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ PrefixCounting.Check_Ipv4_Topology_Count ${COUNT} session=${operational_3} topology=${EXAMPLE_IPV4_TOPOLOGY}
Kill_Talking_BGP_Speaker
[Documentation] Abort the Python speaker. Also, attempt to stop failing fast.
Wait_For_Stable_Ipv4_Topology_After_Listening_1
[Documentation] Wait until ${EXAMPLE_IPV4_TOPOLOGY} becomes stable again as seen from node 1.
[Tags] critical
- PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=${COUNT} session=${CONFIGURATION_1} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=${COUNT} session=${operational_1} topology=${EXAMPLE_IPV4_TOPOLOGY}
... shards_list=${SHARD_MONITOR_LIST} shards_details=${init_shard_details}
Wait_For_Stable_Ipv4_Topology_After_Listening_2
[Documentation] Wait until ${EXAMPLE_IPV4_TOPOLOGY} becomes stable again as seen from node 2.
[Tags] critical
- PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=${COUNT} session=${CONFIGURATION_2} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=${COUNT} session=${operational_2} topology=${EXAMPLE_IPV4_TOPOLOGY}
... shards_list=${SHARD_MONITOR_LIST} shards_details=${init_shard_details}
Wait_For_Stable_Ipv4_Topology_After_Listening_3
[Documentation] Wait until ${EXAMPLE_IPV4_TOPOLOGY} becomes stable again as seen from node 3.
[Tags] critical
- PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=${COUNT} session=${CONFIGURATION_3} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=${COUNT} session=${operational_3} topology=${EXAMPLE_IPV4_TOPOLOGY}
... shards_list=${SHARD_MONITOR_LIST} shards_details=${init_shard_details}
Check_For_Empty_Ipv4_Topology_After_Listening_1
[Documentation] Example-ipv4-topology should be empty now as seen from node 1.
[Tags] critical
[Setup] SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing
- PrefixCounting.Check_Ipv4_Topology_Is_Empty session=${CONFIGURATION_1} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ PrefixCounting.Check_Ipv4_Topology_Is_Empty session=${operational_1} topology=${EXAMPLE_IPV4_TOPOLOGY}
Check_For_Empty_Ipv4_Topology_After_Listening_2
[Documentation] Example-ipv4-topology should be empty now as seen from node 2.
[Tags] critical
[Setup] SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing
- PrefixCounting.Check_Ipv4_Topology_Is_Empty session=${CONFIGURATION_2} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ PrefixCounting.Check_Ipv4_Topology_Is_Empty session=${operational_2} topology=${EXAMPLE_IPV4_TOPOLOGY}
Check_For_Empty_Ipv4_Topology_After_Listening_3
[Documentation] Example-ipv4-topology should be empty now as seen from node 3.
[Tags] critical
[Setup] SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing
- PrefixCounting.Check_Ipv4_Topology_Is_Empty session=${CONFIGURATION_3} topology=${EXAMPLE_IPV4_TOPOLOGY}
+ PrefixCounting.Check_Ipv4_Topology_Is_Empty session=${operational_3} topology=${EXAMPLE_IPV4_TOPOLOGY}
Delete_Bgp_Peer_Configuration
[Documentation] Revert the BGP configuration to the original state: without any configured peers.
[Setup] SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing
&{mapping} BuiltIn.Create_Dictionary DEVICE_NAME=${DEVICE_NAME} BGP_NAME=${BGP_PEER_NAME} IP=${TOOLS_SYSTEM_IP} HOLDTIME=${HOLDTIME} PEER_PORT=${BGP_TOOL_PORT}
... INITIATE=false BGP_RIB=${RIB_INSTANCE} BGP_RIB_OPENCONFIG=${PROTOCOL_OPENCONFIG}
- TemplatedRequests.Delete_Templated ${BGP_VARIABLES_FOLDER} mapping=${mapping} session=${CONFIG_SESSION}
+ TemplatedRequests.Delete_Templated ${BGP_VARIABLES_FOLDER} mapping=${mapping} session=${config_session}
Code Review / integration / test.git / blobdiff