-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=${operational_1} topology=${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=${operational_2} topology=${EXAMPLE_IPV4_TOPOLOGY}
-
-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=${operational_3} topology=${EXAMPLE_IPV4_TOPOLOGY}
+Wait_For_Stable_Talking_Ipv4_Topology
+ [Documentation] Wait until ${EXAMPLE_IPV4_TOPOLOGY} becomes stable. This is done by checking stability of prefix count as seen from all nodes.
+ FOR ${member_index} IN @{pc_all_indices}
+ PrefixCounting.Wait_For_Ipv4_Topology_Prefixes_To_Become_Stable timeout=${bgp_filling_timeout} period=${CHECK_PERIOD} repetitions=${REPETITIONS} excluded_count=0 session=${operational_${member_index}}
+ ... topology=${EXAMPLE_IPV4_TOPOLOGY} shards_list=${SHARD_MONITOR_LIST} shards_details=${init_shard_details}
+ END