Rework to use ClusterManagement's sessions
[integration/test.git] / csit / suites / bgpcep / bgpclustering / 020_singlepeer_prefixcount_100kroutes.robot
index ff9c742c2be5dd3b9344b83e7cf94c663cdf9c08..f87e73e1e7b17e6093677c19c2dade851f1a0301 100644 (file)
@@ -42,25 +42,26 @@ Get Example Bgp Rib Owner
     ${rib_owner}    ${rib_candidates}=    ClusterManagement.Get_Owner_And_Successors_For_device    example-bgp-rib    org.opendaylight.mdsal.ServiceEntityType    1
     BuiltIn.Set_Suite_Variable    ${rib_owner}    ${rib_owner}
     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}
 
 Check_For_Empty_Ipv4_Topology_Before_Talking_1
     [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}
 
 Configure_Netconf_Device
     [Documentation]    Configures and verifies netconf device configuration. If configuration is not successful, it de-configures the device before the next attempt.
@@ -71,7 +72,7 @@ Configure_Netconf_Device
     : FOR    ${index}    IN RANGE    0    3
     \    ${status}    ${value}=    Run Keyword And Ignore Error    PrefixcountKeywords.Configure_Netconf_Device_And_Check_Mounted    ${mapping}
     \    Exit For Loop If    '${status}' == 'PASS'
-    \    Run Keyword Unless    '${status}' == 'PASS'    TemplatedRequests.Delete_Templated    ${NETCONF_DEV_FOLDER}    mapping=${mapping}    session=${CONFIG_SESSION}
+    \    Run Keyword Unless    '${status}' == 'PASS'    TemplatedRequests.Delete_Templated    ${NETCONF_DEV_FOLDER}    mapping=${mapping}    session=${config_session}
     Run Keyword Unless    '${status}' == 'PASS'    Fail
 
 Reconfigure_ODL_To_Accept_Connection
@@ -79,7 +80,7 @@ Reconfigure_ODL_To_Accept_Connection
     [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
@@ -88,33 +89,33 @@ 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}
 
 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}
 
 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}
 
 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.
@@ -126,46 +127,46 @@ Kill_Talking_BGP_Speaker
 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}
 
 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}
 
 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}
 
 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}
 
 Delete_Netconf_Device_Configuration
     [Documentation]    Revert the netconf configuration to the original stat
     [Setup]    SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing
     CompareStream.Run_Keyword_If_At_Least_Carbon    BuiltIn.Pass_Execution    Openconfig usage does not need netconf connector
     &{mapping}    BuiltIn.Create_Dictionary    DEVICE_NAME=${DEVICE_NAME}    DEVICE_PORT=1830    DEVICE_IP=${rib_owner_node_id}    DEVICE_USER=admin    DEVICE_PASSWORD=admin
-    TemplatedRequests.Delete_Templated    ${NETCONF_DEV_FOLDER}    mapping=${mapping}    session=${CONFIG_SESSION}
+    TemplatedRequests.Delete_Templated    ${NETCONF_DEV_FOLDER}    mapping=${mapping}    session=${config_session}