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2024-07-12tests: skip more excluded plugin testsDmitry Valter1-0/+22
Check and skip VPP_EXCLUDED_PLUGINS tests for most of plugins. Type: improvement Signed-off-by: Dmitry Valter <d-valter@yandex-team.com> Change-Id: I23fd3666729251c639aa8da72a676058e3f5bb4e
2024-07-03tests: disable failing tests on Ubuntu 22.04Andrew Yourtchenko1-3/+1
Also rework the logic so the skipping of marked Ubuntu 22.04 occurs at framework level Leave debian11 special cases as-is. Type: fix Change-Id: I481eb32cd1a0860935482e9f930ced409da653c9 Signed-off-by: Andrew Yourtchenko <ayourtch@gmail.com>
2024-05-08ethernet: check destination mac for L3 in ethernet-input nodeSteven Luong1-1/+1
When the NIC does not support mac filter, we rely on ethernet-input node to do the destination mac check, ie, when the interface is in L3, the mac address for the packet must be the mac address of the interface where the packet arrives. This works fine in ethernet-input node when all packets in the frame might have different interfaces, ie, ETH_INPUT_FRAME_F_SINGLE_SW_IF_ID is not set in the frame. However, when all packets are having the same interface, ETH_INPUT_FRAME_F_SINGLE_SW_IF_ID is set, ethernet-input node goes through the optimized routine eth_input_single_int -> eth_input_process_frame. That is where dmac check has a bug when all packets in the frame are either, ip4, ip6, or mpls without vlan tags. Because without vlan tags, the code handles all packets in fast path and ignores dmac check. With vlan tags, the code goes to slow path where dmac check is handled properly. The fix is to check if we have a bad dmac in the fast path and force the code to go to slow path which will handle dmac check properly. Also do a wholesale correction on all the testcases which do not use the proper dmac when sending L3 packets. Type: fix Change-Id: I73153a805cecdc24c4eefcc781676de04737ae2c Signed-off-by: Steven Luong <sluong@cisco.com>
2024-03-07flowprobe: fix flush callbacks when multiple workersAlexander Chernavin1-2/+0
IPFIX buffers are stored on a per worker thread basis. Currently, the flush callbacks will flush only buffers stored for the main thread. And buffers for worker threads will not be sent until their size reach the path MTU configured for the exporter. So if traffic is constant, the problem will unlikely to be visible. Buffers will be sent once they reach the maximum size. However, if traffic stops at some point and flush is triggered in order to make the plugin send all currently buffered data, this will not happen. And collectors will not receive that data. The plugin will keep the remaining data until traffic starts again, the buffers reach the maximum size, and be sent. With this fix, flush buffers for worker threads and for the main thread when the flush callbacks are triggered. This will allow to remove @tag_fixme_vpp_workers from the unit tests that don't set timers. The tests that set timers will still be failing for other multi-worker related problems. Type: fix Change-Id: I9a7d9cef8ddbec7ee68c79309e48e7bc0953d488 Signed-off-by: Alexander Chernavin <achernavin@netgate.com>
2023-12-22tests: Temporarily skip an unstable testadrianvillin1-1/+4
Type: test Change-Id: Idd608511ed350a8e13afff393e558e20d52627a0 Signed-off-by: adrianvillin <avillin@cisco.com>
2023-11-12flowprobe: fix tx flows generated for rewritten trafficAlexander Chernavin1-0/+75
Currently, when IPFIX records generation is enabled for an interface in the TX direction, some rewritten traffic is being sent from that interface, and the Ethernet header's location has changed due to rewriting, generated TX flows will contain fields with wrong and zero values. For example, that can be observed when traffic is rewritten from a subinterface to a hardware interface (i.e. when tags are removed). A TX flow generated in this case will have wrong L2 fields because of an incorrectly located Ethernet header. And zero L3/L4 fields because the Ethernet type will match neither IP4 nor IP6. The same code is executed to generate flows for both input and output features. And the same mechanism is applied to identify the Ethernet header in the buffer's data. However, such general code usually works with the buffer's data conditionally based on the direction. For most input features, the buffer's current_data will likely point to the IP header. For most output features, the buffer's current_data will likely point to the Ethernet header. With this fix: - Keep relying on ethernet_buffer_get_header() to locate the Ethernet header for input features. And start using vlib_buffer_get_current() to locate the Ethernet header for output features. The function will account for the Ethernet header's position change in the buffer's data if there is rewriting. - After fixing Ethernet header determination in the buffer's data, L3/L4 fields will contain non-zero but still incorrect data. That is because IP header determination needs to be fixed too. It currently relies on the fact that the Ethernet header is always located at the beginning of the buffer's data and that l2_hdr_sz can be used as an IP header offset. However, this may not be the case after rewriting. So start calculating the actual offset of the IP header in the buffer's data. - Add a unit test to cover the case. Type: fix Change-Id: Icf3f9e6518912d06dff0d5aa48e103b3dc94edb7 Signed-off-by: Alexander Chernavin <achernavin@netgate.com>
2023-11-07flowprobe: fix clearing interface state on feature disablingAlexander Chernavin1-1/+20
As a result of recent fixes, all currently stored flows of an interface are deleted when the feature is being disabled for the interface. This includes stopping the timer and freeing the flow entries for further reuse. The problem is that meta information is not cleared in the flow entries being deleted. For example, packet delta count will keep its value. The next flow that gets one of these pool entries will already have a non-zero packet count. So the counting of packets will start from a non-zero value. And incorrect packet delta count will be exported for that flow. With this fix, clear meta information too when clearing interface state. Also, update the corresponding test to cover this case. Type: fix Change-Id: I9a73b3958adfd1676e66b0ed50f1478920671cca Signed-off-by: Alexander Chernavin <achernavin@netgate.com>
2023-11-03tests: refactor asf framework codeDave Wallace1-6/+14
- Make framework.py classes a subset of asfframework.py classes - Remove all packet related code from asfframework.py - Add test class and test case set up debug output to log - Repatriate packet tests from asf to test directory - Remove non-packet related code from framework.py and inherit them from asfframework.py classes - Clean up unused import variables - Re-enable BFD tests on Ubuntu 22.04 and fix intermittent test failures in echo_looped_back testcases (where # control packets verified but not guaranteed to be received during test) - Re-enable Wireguard tests on Ubuntu 22.04 and fix intermittent test failures in handshake ratelimiting testcases and event testcase - Run Wiregard testcase suites solo - Improve debug output in log.txt - Increase VCL/LDP post sleep timeout to allow iperf server to finish cleanly. - Fix pcap history files to be sorted by suite and testcase and ensure order/timestamp is correct based on creation in the testcase. - Decode pcap files for each suite and testcase for all errors or if configured via comandline option / env var - Improve vpp corefile detection to allow complete corefile generation - Disable vm vpp interfaces testcases on debian11 - Clean up failed unittest dir when retrying failed testcases and unify testname directory and failed linknames into framwork functions Type: test Change-Id: I0764f79ea5bb639d278bf635ed2408d4d5220e1e Signed-off-by: Dave Wallace <dwallacelf@gmail.com>
2023-10-30flowprobe: fix accumulation of tcp flags in flow entriesAlexander Chernavin1-0/+74
Currently, TCP flags of a flow entry don't get reset once the flow is exported (unlike other meta information about a flow - packet delta count and octet delta count). So TCP flags are accumulated as long as the flow is active. When the flow expires, it is exported the last time, and its pool entry is freed for further reuse. The next flow that gets this pool entry will already have non-zero TCP flags. If it's a TCP flow, the flags will keep being accumulated. This might look fine when exported. If it's a non-TCP flow, that will definitely look erroneous. With this fix, reset TCP flags once the flow is exported. Also, cover the reuse case with tests. Type: fix Change-Id: I5f8560afffcfe107909117d3d063e8a69793437e Signed-off-by: Alexander Chernavin <achernavin@netgate.com>
2023-10-18flowprobe: fix sending L4 fields in L2 template and flowsAlexander Chernavin1-7/+40
Currently, when L2 and L4 recording is enabled on the L2 datapath, the L2 template will contain L4 fields and L2 flows will be exported with those fields always set to zero. With this fix, when L4 recording is enabled, add L4 fields to templates other than the L2 template (i.e. to the IP4, IP6, L2_IP4, and L2_IP6 templates). And export L2 flows without L4 fields. Also, cover that case in the tests. Type: fix Change-Id: Id5ed8b99af5634fb9d5c6e695203344782fdac01 Signed-off-by: Alexander Chernavin <achernavin@netgate.com>
2023-10-16flowprobe: fix corrupted packets sent after feature disablingAlexander Chernavin1-0/+38
When IPFIX flow record generation is enabled on an interface and the active timer is set, flows will be saved and then exported according to the active and passive timers. If then disable the feature on the interface, the flow entries currently saved will remain in the state tables. They will gradually expire and be exported. The problem is that the template for them has already been removed. And they will be sent with zero template ID which will make them unreadable. A similar problem will occur if feature settings are "changed" on the interface - i.e. disable the feature and re-enable it with different settings (e.g. set a different datapath). The remaining flows that correspond to the previous feature settings will be eventually sent either with zero template ID or with template ID that corresponds to the current feature settings on the interface (and look like garbage data). With this fix, flush the current buffers before template removal and clear the remaining flows of the interface during feature disabling. Type: fix Change-Id: I1e57db06adfdd3a02fed1a6a89b5418f85a35e16 Signed-off-by: Alexander Chernavin <achernavin@netgate.com>
2023-10-12flowprobe: fix sending L2 flows using L2_IP6 templateAlexander Chernavin1-2/+68
Currently, L2 flows are exported using L2_IP6 template if L3 or L4 recording is enabled on L2 datapath. That occurs because during feature enable, L2 template is added and its ID is not saved immediately. Then L2_IP4 and L2_IP6 templates are added overwriting "template_id" each time. And in the end, the current value of "template_id" is saved for L2 template. The problem is that "template_id" at that point contains the ID of L2_IP6 template. With this fix, save the template ID immediately after adding a template for all variants (datapaths). Also, cover the case with a test. Type: fix Change-Id: Id27288043b3b8f0e89e77f45ae9a01fa7439e20e Signed-off-by: Alexander Chernavin <achernavin@netgate.com>
2022-10-11l2: Add bridge_domain_add_del_v2 to l2 apiLaszlo Kiraly1-1/+3
https://jira.fd.io/browse/VPP-2034 Type: fix Signed-off-by: Laszlo Kiraly <laszlo.kiraly@est.tech> Change-Id: Ieb6919f958f437fc603d5e1f48cab01de780951d
2022-09-27tests: disable failing tests on ubuntu-22.04 debian-11Dave Wallace1-1/+8
Type: test Change-Id: I7b2314a731c83b3dcd69c999edb8ebed53839724 Signed-off-by: Dave Wallace <dwallacelf@gmail.com>
2022-05-16flowprobe: add api messages to obtain current stateAlexander Chernavin1-1/+92
Type: improvement With this change: - add dump/details messages to obtain interfaces for which IPFIX flow record generation is enabled; - add get message to obtain parameters; - add a new message to set parameters with validation present and to correspond with get/set naming; - add tests for get/set parameters and dump/details interfaces. Change-Id: I09f6ec990171ac8bcb9d2f5c92629803b8ab6c28 Signed-off-by: Alexander Chernavin <achernavin@netgate.com>
2022-05-13flowprobe: add support for reporting on inbound packetsAlexander Chernavin1-36/+148
Type: feature Currently, the plugin supports only IPFIX flow record generation for outbound packets. With this change: - add a new API message for enabling the feature on an interface that accepts direction (rx, tx, both); - update existing debug command for feature enabling to accept direction; - update existing debug command for showing currently enabled feature on interfaces to display direction; - update templates to include a direction field; - generate flow records on the specified direction and data path; - report direction in flow data; - update tests to use the new API; - add tests for inbound flows. Change-Id: I121fd904b38408641036ebeea848df7a4e5e0b30 Signed-off-by: Alexander Chernavin <achernavin@netgate.com>
2022-05-10tests: replace pycodestyle with blackKlement Sekera1-142/+165
Drop pycodestyle for code style checking in favor of black. Black is much faster, stable PEP8 compliant code style checker offering also automatic formatting. It aims to be very stable and produce smallest diffs. It's used by many small and big projects. Running checkstyle with black takes a few seconds with a terse output. Thus, test-checkstyle-diff is no longer necessary. Expand scope of checkstyle to all python files in the repo, replacing test-checkstyle with checkstyle-python. Also, fixstyle-python is now available for automatic style formatting. Note: python virtualenv has been consolidated in test/Makefile, test/requirements*.txt which will eventually be moved to a central location. This is required to simply the automated generation of docker executor images in the CI. Type: improvement Change-Id: I022a326603485f58585e879ac0f697fceefbc9c8 Signed-off-by: Klement Sekera <klement.sekera@gmail.com> Signed-off-by: Dave Wallace <dwallacelf@gmail.com>
2022-02-17tests: make tests less make dependentKlement Sekera1-5/+6
Implement command line argument parsing instead of passing arguments via environment variables. Add script for running tests without having to invoke make. Deprecate running tests via make. Type: improvement Change-Id: I2e3054a61a2ae25d460e9be00be7d7705fbf943e Signed-off-by: Klement Sekera <ksekera@cisco.com> Signed-off-by: Dave Wallace <dwallacelf@gmail.com>
2021-09-09flowprobe: simplify test logicKlement Sekera1-55/+18
Type: refactor Signed-off-by: Klement Sekera <ksekera@cisco.com> Change-Id: I9a3923ec1ff1371e870bc57ade4035de07bfbbcb
2021-05-13tests: move test source to vpp/testDave Wallace1-0/+1094
- Generate copyright year and version instead of using hard-coded data Type: refactor Signed-off-by: Dave Wallace <dwallacelf@gmail.com> Change-Id: I6058f5025323b3aa483f5df4a2c4371e27b5914e
2019-08-22tests: move plugin tests to src/plugins/*/testDave Wallace1-1082/+0
- Relocate plugin tests for 'make test' into src/plugins/*/test so that plugin test cases are co-located with the plugin source code. Type: refactor Signed-off-by: Dave Wallace <dwallacelf@gmail.com> Change-Id: I503e6a43528e14981799b735fa65674155713f67 Signed-off-by: Dave Wallace <dwallacelf@gmail.com>
2019-06-24api: implement ipfix_flushPaul Vinciguerra1-26/+26
-Migrate tests to api and cleanup: '# FIXME this should be an API call' in tests. Type: feature Change-Id: I715f9f8acc0f2af9c974ea221b2aea46692a6218 Signed-off-by: Paul Vinciguerra <pvinci@vinciconsulting.com>
2019-03-28Typos. A bunch of typos I've been collecting.Paul Vinciguerra1-4/+4
Change-Id: I53ab8d17914e6563110354e4052109ac02bf8f3b Signed-off-by: Paul Vinciguerra <pvinci@vinciconsulting.com>
2019-03-20tests: replace CLI command with API for flowprobe params.Paul Vinciguerra1-3/+5
Change-Id: If446a0d111b89f0a761db41696e0d6ca912312f0 Signed-off-by: Paul Vinciguerra <pvinci@vinciconsulting.com>
2019-03-14Tests: test/test_flowprobe.py Fix TypeError.Paul Vinciguerra1-1/+1
TypeError: not all arguments converted during string formatting Change-Id: I0b4b27e37ba47e737aeb639c9787f8bc08a92dce Signed-off-by: Paul Vinciguerra <pvinci@vinciconsulting.com>
2019-03-11vpp_papi_provider: Remove more wrapper functions.Ole Troan1-2/+4
Split this work up into pieces. Please don't add new wrappers to vpp_papi_provider.py. Change-Id: I0f8f2afc4cd2bba07ea70ddecea2d7319f7b2e10 Signed-off-by: Ole Troan <ot@cisco.com>
2019-02-04VTL Cleanup: Fix missing calls to setUpClass/tearDownClass, fix numerous ↵Paul Vinciguerra1-1/+53
TypeErrors. * TypeError: assertIsNotNone() got an unexpected keyword argument 'msg' * Correct missing calls to setUpClass/tearDownClass. If you want the setUpClass and tearDownClass on base classes called then you must call up to them yourself. The implementations in TestCase are empty. https://docs.python.org/2/library/unittest.html#setupclass-and-teardownclass Cleans up issues in parallel test mode: ------------- FAILURES AND ERRORS IN TESTS: Testcase name: VCL Thru Host Stack Bidir Nsock FAILURE: test_vcl.VCLThruHostStackBidirNsock.test_vcl_thru_host_stack_bi_dir_nsock [test_vcl.VCLThruHostStackBidirNsock.test_vcl_thru_host_stack_bi_dir_nsock] Testcase name: Bidirectional Forwarding Detection (BFD) (changing auth) ERROR: test_bfd.BFDAuthOnOffTestCase.test_auth_change_key_delayed [test_bfd.BFDAuthOnOffTestCase.test_auth_change_key_delayed] ERROR: test_bfd.BFDAuthOnOffTestCase.test_auth_change_key_immediate [test_bfd.BFDAuthOnOffTestCase.test_auth_change_key_immediate] ERROR: test_bfd.BFDAuthOnOffTestCase.test_auth_off_delayed [test_bfd.BFDAuthOnOffTestCase.test_auth_off_delayed] ERROR: test_bfd.BFDAuthOnOffTestCase.test_auth_off_immediate [test_bfd.BFDAuthOnOffTestCase.test_auth_off_immediate] ERROR: test_bfd.BFDAuthOnOffTestCase.test_auth_on_delayed [test_bfd.BFDAuthOnOffTestCase.test_auth_on_delayed] ERROR: test_bfd.BFDAuthOnOffTestCase.test_auth_on_immediate [test_bfd.BFDAuthOnOffTestCase.test_auth_on_immediate] Testcase name: Punt Socket for IPv4 ERROR: test_punt.TestIP4PuntSocket.test_punt_socket_dump [test_punt.TestIP4PuntSocket.test_punt_socket_dump] ERROR: test_punt.TestIP4PuntSocket.test_punt_socket_traffic_multi_port_multi_sockets [test_punt.TestIP4PuntSocket.test_punt_socket_traffic_multi_port_multi_sockets] ERROR: test_punt.TestIP4PuntSocket.test_punt_socket_traffic_multi_ports_single_socket [test_punt.TestIP4PuntSocket.test_punt_socket_traffic_multi_ports_single_socket] ERROR: test_punt.TestIP4PuntSocket.test_punt_socket_traffic_single_port_single_socket [test_punt.TestIP4PuntSocket.test_punt_socket_traffic_single_port_single_socket] Testcase name: Bidirectional Forwarding Detection (BFD) (IPv6) ERROR: test_bfd.BFD6TestCase.test_echo [test_bfd.BFD6TestCase.test_echo] ERROR: test_bfd.BFD6TestCase.test_echo_looped_back [test_bfd.BFD6TestCase.test_echo_looped_back] ERROR: test_bfd.BFD6TestCase.test_intf_deleted [test_bfd.BFD6TestCase.test_intf_deleted] ERROR: test_bfd.BFD6TestCase.test_session_up [test_bfd.BFD6TestCase.test_session_up] ERROR: test_bfd.BFD6TestCase.test_session_up_by_ip [test_bfd.BFD6TestCase.test_session_up_by_ip] Testcase name: Bidirectional Forwarding Detection (BFD) (CLI) ERROR: test_bfd.BFDCLITestCase.test_add_mod_del_bfd_udp [test_bfd.BFDCLITestCase.test_add_mod_del_bfd_udp] ERROR: test_bfd.BFDCLITestCase.test_add_mod_del_bfd_udp6 [test_bfd.BFDCLITestCase.test_add_mod_del_bfd_udp6] ERROR: test_bfd.BFDCLITestCase.test_add_mod_del_bfd_udp6_auth [test_bfd.BFDCLITestCase.test_add_mod_del_bfd_udp6_auth] ERROR: test_bfd.BFDCLITestCase.test_add_mod_del_bfd_udp_auth [test_bfd.BFDCLITestCase.test_add_mod_del_bfd_udp_auth] ERROR: test_bfd.BFDCLITestCase.test_admin_up_down [test_bfd.BFDCLITestCase.test_admin_up_down] ERROR: test_bfd.BFDCLITestCase.test_auth_on_off [test_bfd.BFDCLITestCase.test_auth_on_off] ERROR: test_bfd.BFDCLITestCase.test_auth_on_off_delayed [test_bfd.BFDCLITestCase.test_auth_on_off_delayed] ERROR: test_bfd.BFDCLITestCase.test_set_del_meticulous_sha1_key [test_bfd.BFDCLITestCase.test_set_del_meticulous_sha1_key] ERROR: test_bfd.BFDCLITestCase.test_set_del_sha1_key [test_bfd.BFDCLITestCase.test_set_del_sha1_key] ERROR: test_bfd.BFDCLITestCase.test_set_del_udp_echo_source [test_bfd.BFDCLITestCase.test_set_del_udp_echo_source] ERROR: test_bfd.BFDCLITestCase.test_show [test_bfd.BFDCLITestCase.test_show] Testcase name: VAPI test ERROR: test_vapi.VAPITestCase.test_vapi_c [test_vapi.VAPITestCase.test_vapi_c] Testcase name: Container integration extended testcases ERROR: test_container.ContainerIntegrationTestCase.test_0010_basic_conn_test [test_container.ContainerIntegrationTestCase.test_0010_basic_conn_test] ERROR: test_container.ContainerIntegrationTestCase.test_0011_basic_conn_test [test_container.ContainerIntegrationTestCase.test_0011_basic_conn_test] ERROR: test_container.ContainerIntegrationTestCase.test_0050_loopback_prepare_test [test_container.ContainerIntegrationTestCase.test_0050_loopback_prepare_test] ERROR: test_container.ContainerIntegrationTestCase.test_0110_basic_conn_test [test_container.ContainerIntegrationTestCase.test_0110_basic_conn_test] ERROR: test_container.ContainerIntegrationTestCase.test_0111_basic_conn_test [test_container.ContainerIntegrationTestCase.test_0111_basic_conn_test] ERROR: test_container.ContainerIntegrationTestCase.test_0200_basic_conn_test [test_container.ContainerIntegrationTestCase.test_0200_basic_conn_test] ERROR: test_container.ContainerIntegrationTestCase.test_0210_basic_conn_test [test_container.ContainerIntegrationTestCase.test_0210_basic_conn_test] ERROR: test_container.ContainerIntegrationTestCase.test_0211_basic_conn_test [test_container.ContainerIntegrationTestCase.test_0211_basic_conn_test] ERROR: test_container.ContainerIntegrationTestCase.test_0300_unconfigure_commands [test_container.ContainerIntegrationTestCase.test_0300_unconfigure_commands] ERROR: test_container.ContainerIntegrationTestCase.test_0410_spoof_test [test_container.ContainerIntegrationTestCase.test_0410_spoof_test] ERROR: test_container.ContainerIntegrationTestCase.test_0411_spoof_test [test_container.ContainerIntegrationTestCase.test_0411_spoof_test] Testcase name: Re-enable IPFIX ERROR: test_flowprobe.ReenableIPFIX.test_0011 [test_flowprobe.ReenableIPFIX.test_0011] Testcase name: VXLAN over IPv6 Test Case ERROR: setUpClass [setUpClass (test_vxlan6.TestVxlan6)] Testcase name: JVPP Core Test Case ERROR: test_jvpp.TestJVpp.test_vpp_acl_callback_api [test_jvpp.TestJVpp.test_vpp_acl_callback_api] ERROR: test_jvpp.TestJVpp.test_vpp_acl_future_api [test_jvpp.TestJVpp.test_vpp_acl_future_api] ERROR: test_jvpp.TestJVpp.test_vpp_core_callback_api [test_jvpp.TestJVpp.test_vpp_core_callback_api] ERROR: test_jvpp.TestJVpp.test_vpp_core_future_api [test_jvpp.TestJVpp.test_vpp_core_future_api] ERROR: test_jvpp.TestJVpp.test_vpp_ioamexport_callback_api [test_jvpp.TestJVpp.test_vpp_ioamexport_callback_api] ERROR: test_jvpp.TestJVpp.test_vpp_ioamexport_future_api [test_jvpp.TestJVpp.test_vpp_ioamexport_future_api] ERROR: test_jvpp.TestJVpp.test_vpp_ioampot_callback_api [test_jvpp.TestJVpp.test_vpp_ioampot_callback_api] ERROR: test_jvpp.TestJVpp.test_vpp_ioampot_future_api [test_jvpp.TestJVpp.test_vpp_ioampot_future_api] ERROR: test_jvpp.TestJVpp.test_vpp_ioamtrace_callback_api [test_jvpp.TestJVpp.test_vpp_ioamtrace_callback_api] ERROR: test_jvpp.TestJVpp.test_vpp_ioamtrace_future_api [test_jvpp.TestJVpp.test_vpp_ioamtrace_future_api] ERROR: test_jvpp.TestJVpp.test_vpp_snat_callback_api [test_jvpp.TestJVpp.test_vpp_snat_callback_api] ERROR: test_jvpp.TestJVpp.test_vpp_snat_future_api [test_jvpp.TestJVpp.test_vpp_snat_future_api] Testcase name: LDP Cut Thru Tests FAILURE: test_vcl.LDPCutThruTestCase.test_ldp_cut_thru_iperf3 [test_vcl.LDPCutThruTestCase.test_ldp_cut_thru_iperf3] Testcase name: ACL plugin connection-oriented extended testcases ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_0000_conn_prepare_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_0000_conn_prepare_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_0001_basic_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_0001_basic_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_0002_basic_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_0002_basic_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_0005_clear_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_0005_clear_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_0006_clear_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_0006_clear_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_0011_active_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_0011_active_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_0012_active_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_0012_active_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_1001_basic_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_1001_basic_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_1002_basic_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_1002_basic_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_1005_clear_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_1005_clear_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_1006_clear_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_1006_clear_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_1011_active_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_1011_active_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_1012_active_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_1012_active_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_2000_prepare_for_tcp_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_2000_prepare_for_tcp_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_2001_tcp_transient_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_2001_tcp_transient_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_2002_tcp_transient_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_2002_tcp_transient_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_2003_tcp_transient_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_2003_tcp_transient_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_2004_tcp_transient_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_2004_tcp_transient_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_2005_tcp_transient_teardown_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_2005_tcp_transient_teardown_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_2006_tcp_transient_teardown_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_2006_tcp_transient_teardown_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_3001_tcp_transient_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_3001_tcp_transient_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_3002_tcp_transient_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_3002_tcp_transient_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_3003_tcp_transient_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_3003_tcp_transient_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_3004_tcp_transient_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_3004_tcp_transient_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_3005_tcp_transient_teardown_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_3005_tcp_transient_teardown_conn_test] ERROR: test_acl_plugin_conns.ACLPluginConnTestCase.test_3006_tcp_transient_teardown_conn_test [test_acl_plugin_conns.ACLPluginConnTestCase.test_3006_tcp_transient_teardown_conn_test] Testcase name: LDP Thru Host Stack Echo FAILURE: test_vcl.LDPThruHostStackEcho.test_ldp_thru_host_stack_echo [test_vcl.LDPThruHostStackEcho.test_ldp_thru_host_stack_echo] Testcase name: Bidirectional Forwarding Detection (BFD) - API ERROR: test_bfd.BFDAPITestCase.test_activate_auth [test_bfd.BFDAPITestCase.test_activate_auth] ERROR: test_bfd.BFDAPITestCase.test_add_auth_nonexistent_key [test_bfd.BFDAPITestCase.test_add_auth_nonexistent_key] ERROR: test_bfd.BFDAPITestCase.test_add_bfd [test_bfd.BFDAPITestCase.test_add_bfd] ERROR: test_bfd.BFDAPITestCase.test_add_bfd6 [test_bfd.BFDAPITestCase.test_add_bfd6] ERROR: test_bfd.BFDAPITestCase.test_add_bfd_sha1 [test_bfd.BFDAPITestCase.test_add_bfd_sha1] ERROR: test_bfd.BFDAPITestCase.test_add_sha1_keys [test_bfd.BFDAPITestCase.test_add_sha1_keys] ERROR: test_bfd.BFDAPITestCase.test_change_key [test_bfd.BFDAPITestCase.test_change_key] ERROR: test_bfd.BFDAPITestCase.test_deactivate_auth [test_bfd.BFDAPITestCase.test_deactivate_auth] ERROR: test_bfd.BFDAPITestCase.test_double_add [test_bfd.BFDAPITestCase.test_double_add] ERROR: test_bfd.BFDAPITestCase.test_double_add_sha1 [test_bfd.BFDAPITestCase.test_double_add_sha1] ERROR: test_bfd.BFDAPITestCase.test_mod_bfd [test_bfd.BFDAPITestCase.test_mod_bfd] ERROR: test_bfd.BFDAPITestCase.test_set_del_udp_echo_source [test_bfd.BFDAPITestCase.test_set_del_udp_echo_source] ERROR: test_bfd.BFDAPITestCase.test_shared_sha1_key [test_bfd.BFDAPITestCase.test_shared_sha1_key] Testcase name: LDP Thru Host Stack Iperf FAILURE: test_vcl.LDPThruHostStackIperf.test_ldp_thru_host_stack_iperf3 [test_vcl.LDPThruHostStackIperf.test_ldp_thru_host_stack_iperf3] Testcase name: Bidirectional Forwarding Detection (BFD) (SHA1 auth) ERROR: test_bfd.BFDSHA1TestCase.test_session_up [test_bfd.BFDSHA1TestCase.test_session_up] Testcase name: Punt Socket for IPv6 ERROR: test_punt.TestIP6PuntSocket.test_punt_socket_dump [test_punt.TestIP6PuntSocket.test_punt_socket_dump] ERROR: test_punt.TestIP6PuntSocket.test_punt_socket_traffic_multi_port_multi_sockets [test_punt.TestIP6PuntSocket.test_punt_socket_traffic_multi_port_multi_sockets] ERROR: test_punt.TestIP6PuntSocket.test_punt_socket_traffic_multi_ports_single_socket [test_punt.TestIP6PuntSocket.test_punt_socket_traffic_multi_ports_single_socket] ERROR: test_punt.TestIP6PuntSocket.test_punt_socket_traffic_single_port_single_socket [test_punt.TestIP6PuntSocket.test_punt_socket_traffic_single_port_single_socket] Testcase name: Disable Flowprobe feature ERROR: test_flowprobe.DisableFP.test_0001 [test_flowprobe.DisableFP.test_0001] Testcase name: Disable IPFIX ERROR: test_flowprobe.DisableIPFIX.test_0001 [test_flowprobe.DisableIPFIX.test_0001] Testcase name: VPP Object Model Test ERROR: test_vom.VOMTestCase.test_vom_cpp [test_vom.VOMTestCase.test_vom_cpp] Testcase name: BFD-FIB interactions (IPv6) ERROR: test_bfd.BFDFIBTestCase.test_session_with_fib [test_bfd.BFDFIBTestCase.test_session_with_fib] Testcase name: Bidirectional Forwarding Detection (BFD) ERROR: test_bfd.BFD4TestCase.test_echo [test_bfd.BFD4TestCase.test_echo] ERROR: test_bfd.BFD4TestCase.test_echo_looped_back [test_bfd.BFD4TestCase.test_echo_looped_back] ERROR: test_bfd.BFD4TestCase.test_intf_deleted [test_bfd.BFD4TestCase.test_intf_deleted] ERROR: test_bfd.BFD4TestCase.test_session_down [test_bfd.BFD4TestCase.test_session_down] ERROR: test_bfd.BFD4TestCase.test_session_up [test_bfd.BFD4TestCase.test_session_up] ERROR: test_bfd.BFD4TestCase.test_session_up_by_ip [test_bfd.BFD4TestCase.test_session_up_by_ip] Testcase name: VXLAN-GPE Test Case ERROR: test_vxlan_gpe.TestVxlanGpe.test_decap [test_vxlan_gpe.TestVxlanGpe.test_decap] ERROR: test_vxlan_gpe.TestVxlanGpe.test_encap [test_vxlan_gpe.TestVxlanGpe.test_encap] ERROR: test_vxlan_gpe.TestVxlanGpe.test_ucast_flood [test_vxlan_gpe.TestVxlanGpe.test_ucast_flood] Testcase name: Re-enable Flowprobe feature ERROR: test_flowprobe.ReenableFP.test_0001 [test_flowprobe.ReenableFP.test_0001] Testcase name: LDP IPv6 Cut Thru Tests FAILURE: test_vcl.LDPIpv6CutThruTestCase.test_ldp_ipv6_cut_thru_echo [test_vcl.LDPIpv6CutThruTestCase.test_ldp_ipv6_cut_thru_echo] TESTCASES WHERE NO TESTS WERE SUCCESSFULLY EXECUTED: VXLAN over IPv6 Test Case ============================================================================== 0 attempt(s) left. Change-Id: Id202ed6ee7f57670f34ec87380244c568b509416 Signed-off-by: Paul Vinciguerra <pvinci@vinciconsulting.com>
2018-12-20Tests: Cleanup @skip decorator.Paul Vinciguerra1-4/+4
The runnning environment is static as of module load time, so only evalute the conditions once at module load time. Track-by: VPP-1518 Change-Id: I73b0d17ae1ff90789e70307f168d43921829aec8 Signed-off-by: Paul Vinciguerra <pvinci@vinciconsulting.com>
2018-12-05VPP-1508: Python3 compatible printPaul Vinciguerra1-3/+3
Change-Id: I7d2597f2a9589f2463e213da6ca67b1b7593095e Signed-off-by: Paul Vinciguerra <pvinci@vinciconsulting.com>
2018-11-27VPP-1508 python3 tests: .encode('hex')Paul Vinciguerra1-19/+24
Change to binascii.hexlify() for consistent bahavior. Change-Id: Ie430cdd1ffeb6510db4aa037546e42d85992093b Signed-off-by: Paul Vinciguerra <pvinci@vinciconsulting.com>
2017-06-27FLOWPROBE: Add flowstartns, flowendns and tcpcontrolbitsOle Troan1-10/+96
- fixed problem with tcp_flag - changed flowtimestamp into NTP format Change-Id: I4ef05d6c69c5c078a0c80d59c5ccb0c85b924ba6 Signed-off-by: Ole Troan <ot@cisco.com>
2017-06-13Flowprobe - tests speed-upPavel Kotucek1-183/+151
Updated test to reduce tests runtime. Change-Id: I7904628fc19d349d6c26502e49d4c990cb8816ff Signed-off-by: Pavel Kotucek <pkotucek@cisco.com>
2017-05-30Flowprobe: Stateful flows and IPv6, L4 recordingOle Troan1-0/+967
Change-Id: I67839281623721bf42f0a918a53356143d9dc78a Signed-off-by: Ole Troan <ot@cisco.com> Signed-off-by: Pavel Kotucek <pkotucek@cisco.com> Signed-off-by: Ole Troan <ot@cisco.com>