From 9239a15e4ae0a2aaa29f3bb726f3ac196347c962 Mon Sep 17 00:00:00 2001 From: Luc Provoost Date: Wed, 2 Dec 2020 12:33:58 +0100 Subject: More documentation updates Added 04-running_the_test.rst describing how to change the default test. This section is describing the parameters the parameters you can use and how to change the Dockerfile and the testcases.yaml file. Change-Id: Ieaa173ebc61dd320659ca6be3d2ce31684298d42 Signed-off-by: Luc Provoost --- .../testing/user/userguide/04-running_the_test.rst | 207 +++++++++++++++++++++ 1 file changed, 207 insertions(+) create mode 100644 docs/testing/user/userguide/04-running_the_test.rst (limited to 'docs/testing/user/userguide/04-running_the_test.rst') diff --git a/docs/testing/user/userguide/04-running_the_test.rst b/docs/testing/user/userguide/04-running_the_test.rst new file mode 100644 index 00000000..35404c89 --- /dev/null +++ b/docs/testing/user/userguide/04-running_the_test.rst @@ -0,0 +1,207 @@ +.. This work is licensed under a Creative Commons Attribution 4.0 International +.. License. +.. http://creativecommons.org/licenses/by/4.0 +.. (c) OPNFV, Intel Corporation and others. + +================ +Running the test +================ +.. _NFV-TST009: https://docbox.etsi.org/ISG/NFV/open/Publications_pdf/Specs-Reports/NFV-TST%20009v3.2.1%20-%20GS%20-%20NFVI_Benchmarks.pdf +.. _TST009_Throughput_64B_64F.test: https://github.com/opnfv/samplevnf/blob/master/VNFs/DPPD-PROX/helper-scripts/rapid/TST009_Throughput_64B_64F.test +.. _rapid_location: https://github.com/opnfv/samplevnf/blob/master/VNFs/DPPD-PROX/helper-scripts/rapid/ + +Overview +-------- +A default test will be run automatically when you launch the testing. The +details and definition of that test is defined in file +TST009_Throughput_64B_64F.test_. + +We will discuss the sections of such a test file and how this can be changed to +accomodate the testing you want to execute. This will be done by creating your +own test file and making sure it becomes part of your testcases.yaml, as will +be shown below. + +Test File Description +--------------------- +The test file has multiple sections. The first section is a generic section +called TestParameters. Then there are 1 or more sections desribing the test +machines we will be using in the test. The sections are named TestMx, where x +is a number (starting with 1). The tests to be executed are described in a +section called testy, where y is the number of the test to be executed, +starting with 1. In this automated testing driven by Xtesting, we will +typically only run 1 test. + +TestParameters +^^^^^^^^^^^^^^ +In this section, the name of the test is specified. This is only used in the +reporting and has no influence on the actual testing. + +.. code-block:: console + + name = Rapid_ETSINFV_TST009 + +The number of test that will be executed by this run and that will be described +in the [testy] sections, is defined by the number_of_tests parameter. In the +Xtesting framework that we are using here, this will typically be set to 1. + +.. code-block:: console + + number_of_tests = 1 + +The total number of machines to be used in this testing will be defined by the +parameter total_number_of_test_machines. The function that these machines have +in this test will be described in the [TestMx] section. Typically, this number +will be set to 2, but many more machines can particiapte in a test. + +.. code-block:: console + + total_number_of_test_machines = 2 + +lat_percentile is a variable that is setting which percentile to use during the +course of this test. This will be used to report the percentile round trip +latency and is a better measurement for the high latencies during this test than +the maximum latency which will also be reported. Note that we also report the +total round trip latency histogram. + +.. code-block:: console + + lat_percentile = 99 + + +TestMx +^^^^^^ +In the TestMx sections, where x denotes the index of the machine, the function +of the machine in the testing, will be described. The machine can be defined as +a generator, or as a packet reflector (swap function). The machines can be any +machine that is created upfront (See step 3 of the installation steps). Other +functions can also be executed by the test machines and examples of test files +can be found in rapid_location_. + +The first parameter is the name of the machine and is only used for referencing +the machine. This will be the name of the PROX instance and will be shown in +case you run the PROX UI. In this automated testing, this will be not be +visible. + +The PROX config file is used by the PROX program and defines what PROX will be +doing. For a generator, this will typically be gen.cfg. Multiple cfg files +exist in the rapid_location_. dest_vm is used by a generator to find out to +which VM he needs to send the packets. Int e example below, the packets will be +sent to TestM2. gencores is a list of cores to be used for the generator tasks. +Note that if you specify more than 1 core, the interface will need to support as +many tx queues as there are generator cores. The latcores field specifies a +list of cores to be used by the latency measurement tasks. You need as many rx +queueus on the interface as the number of latcores. The default value for the +bucket_size_exp parameter is 12. It is also its minimum value. In case most of +the latency measurements in the histogram are falling in the last bucket, this +number needs to be increased. Every time you increase this number by 1, the +bucket size for the latency histogram is multiplied by 2. There are 128 buckets +in the histogram. +cores is a parameter that will be used by non-generator configurations that +don't need a disctinction between generator and latency cores (e.g. swap.cfg). + +Changing these parameters requires in depth knowledge of the PROX tool and is +not something to start with. + +.. code-block:: console + + name = Generator + config_file = gen.cfg + dest_vm = 2 + gencores = [1] + latcores = [3] + #bucket_size_exp = 12 +testy +^^^^^ +In the testy sections, where y denotes the index of the test, the test that will +be executed on the machines that were specified in the TestMx sections, will be +described. Using Xtesting, we will typically only use 1 test. +Parameter test is defining which test needs to be run. This is a hardcoded +string and can only be one of the following ['flowsizetest', 'TST009test', +'fixed_rate', 'increment_till_fail', 'corestats', 'portstats', 'impairtest', +'irqtest', 'warmuptest']. In this project, we will use the TST009test testing. +For examples of the other tests, please check out the other test files in +rapid_location_. + +The pass_threshold parameter defines the success criterium for the test. When +this test uses multiple combinations of packet size and flows, all combinations +must be meeting the same threshold. The threshold is expressed in Mpps. + +The imixs parameter defines the pakcet sizes that will be used. Each element in +the imix list will result in a separate test. Each element is on its turn a +list of packet sizes which will be used during one test execution. If you only +want to test 1 imix size, define imixs with only one element. For each element in +the imixs list, the generator will iterate over the packet lengths and send them +out in the order as specified in the list. An example of an imix list is [128, +256, 64, 64, 128]. In this case, 40% of the packets will have a size of 64 +bytes, 40% will have a packet size of 128 and 20% will have a packet size of +256. When using this with Xtesting, we will typically only use 1 imix. When +needing results for more sizes, one should create a specific test file per size +and launch the different tests using Xtesting. + +The flows parameter is a list of flow sizes. For each flow size, a test will be +run with the specified amount of flows. The flow size needs to be powers of 2, +max 2^30. If not a power of 2, we will use the lowest power of 2 that is larger +than the requested number of flows. e.g. 9 will result in 16 flows. +Same remark as for the imixs parameter: we will only use one element in the +flows list. When more flows need to be tested, create a differnt test file and +launch it using Xtesting. + +drop_rate_threshold specifies the ratio of packets than can be dropped and still +consider the test run as succesful. Note that a value of 0 means a zero packet +loss: even if we lose 1 packet during a certain step in a test run, it will be +marked as failed. + +lat_avg_threshold, lat_perc_threshold, lat_max_threshold are threshols to define +the maximal acceptable round trip latency to mark the test step as successful. +You can set this threshold for the average, the percentile and the maximum +latency. Which percentile is being used is define in the TestParameters section. +All these thresholds are expressed in micro-seconds. You can also put the value +to inf, which means the threshold will never be reached and hence the threshold +value is not being used to define if the run is successful or not. + +MAXr, MAXz, MAXFramesPerSecondAllIngress and StepSize are defined in +NFV-TST009_ and are used to control the binary search algorithm. + +ramp_step is a variable that controls the ramping of the generated traffic. When +not specified, the requested traffic for each step in the testing will be +applied immediately. If specified, the generator will slowly go to the requested +speed by increasing the traffic each second with the value specified in this +parameter till it reached the requested speed. This parameter is expressed in +100Mb/s. + +.. code-block:: console + + pass_threshold=0.001 + imixs=[[64]] + flows=[64] + drop_rate_threshold = 0 + lat_avg_threshold = inf + lat_perc_threshold = inf + lat_max_threshold = inf + MAXr = 3 + MAXz = 5000 + MAXFramesPerSecondAllIngress = 12000000 + StepSize = 10000 + #ramp_step = 1 + +Modifying the test +------------------ +In case you want to modify the parameters as specified in +TST009_Throughput_64B_64F.test_, it is best to create your own test file. Your +test file will need to be uploaded to the test container. Hence you will have to +rebuild your container, and add an extra copy command to the Dockerfile so that +your new test file will be avaialble in the container. +Then you will need to modify the testcases.yaml file. One of the args that you +can specify is the test_file. Put your newly created test file as the new value +for this argument. +Now build and publish your test container as specified in steps 5 & 6 of the +installation procedure. + +Note that other arguments than test_file can be specified in testcases.yaml. For +a list of arugments, please check out the test_params dictionary in the +rapid_defaults.py that you can find in rapid_location_. +It is adviced not to change these parameters unless you have an in-depth +knowledge of the code. +The only 2 arguments that van be changed are the test_file which was already +discussed and the runtime argument. This argument defines how long each test run +will take and is expressed in seconds. -- cgit 1.2.3-korg