diff options
Diffstat (limited to 'docs')
30 files changed, 1935 insertions, 229 deletions
diff --git a/docs/configguide/yardstick_testcases/01-introduction.rst b/docs/configguide/yardstick_testcases/01-introduction.rst new file mode 100644 index 000000000..6cca2875e --- /dev/null +++ b/docs/configguide/yardstick_testcases/01-introduction.rst @@ -0,0 +1,38 @@ +============ +Introduction +============ + +**Welcome to Yardstick's documentation !** + +.. _Yardstick: https://wiki.opnfv.org/yardstick + +Yardstick_ is an OPNFV Project. + +The project's goal is to verify infrastructure compliance, from the perspective +of a :term:`VNF`. + +The Project's scope is the development of a test framework, *Yardstick*, test +cases and test stimuli to enable :term:`NFVI` verification. +The Project also includes a sample :term:`VNF`, the :term:`VTC` and its +experimental framework, *ApexLake* ! + +The chapter :doc:`02-methodology` describes the methodology implemented by the +Yardstick Project for :term:`NFVI` verification. The chapter +:doc:`03-list-of-tcs` includes a list of available Yardstick test cases. + +Yardstick is used for verifying the OPNFV infrastructure and some of the OPNFV +features, listed in :doc:`03-list-of-tcs`. + +The *Yardstick* framework is deployed in several OPNFV community labs. It is +installer, infrastructure and application independent. + +.. _Pharos: https://wiki.opnfv.org/pharos + +.. seealso:: Pharos_ for information on OPNFV community labs. + +Contact Yardstick +================= + +Feedback? `Contact us`_ + +.. _Contact us: opnfv-users@lists.opnfv.org diff --git a/docs/configguide/yardstick_testcases/02-methodology.rst b/docs/configguide/yardstick_testcases/02-methodology.rst new file mode 100644 index 000000000..5097c566b --- /dev/null +++ b/docs/configguide/yardstick_testcases/02-methodology.rst @@ -0,0 +1,181 @@ +=========== +Methodology +=========== + +Abstract +======== + +This chapter describes the methodology implemented by the Yardstick project for +verifying the NFV Infrastructure from the perspective of a VNF. + +ETSI-NFV +======== + +.. _NFV-TST001: https://docbox.etsi.org/ISG/NFV/Open/Drafts/TST001_-_Pre-deployment_Validation/ + +The document ETSI GS NFV-TST001_, "Pre-deployment Testing; Report on Validation +of NFV Environments and Services", recommends methods for pre-deployment +testing of the functional components of an NFV environment. + +The Yardstick project implements the methodology described in chapter 6, "Pre- +deployment validation of NFV infrastructure". + +The methodology consists in decomposing the typical VNF work-load performance +metrics into a number of characteristics/performance vectors, which each can be +represented by distinct test-cases. + +The methodology includes five steps: + +* *Step1:* Define Infrastruture - the HW, SW and corresponding configuration + target for validation; the OPNFV infrastructure, in OPNFV community labs. + +* *Step2:* Identify VNF type - the application for which the infrastructure is + to be validated, and its requirements on the underlying infrastructure. + +* *Step3:* Select test cases - depending on the workload that represents the + application for which the infrastruture is to be validated, the relevant + test cases amongst the list of available Yardstick test cases. + +* *Step4:* Execute tests - define the duration and number of iterations for the + selected test cases, tests runs are automated via OPNFV Jenkins Jobs. + +* *Step5:* Collect results - using the common API for result collection. + +Metrics +======= + +The metrics, as defined by ETSI GS NFV-TST001, are shown in +:ref:`Table1 <table2_1>`, :ref:`Table2 <table2_2>` and +:ref:`Table3 <table2_3>`. + +In OPNFV Brahmaputra release, generic test cases covering aspects of the listed +metrics are available; further OPNFV releases will provide extended testing of +these metrics. +The view of available Yardstick test cases cross ETSI definitions in +:ref:`Table1 <table2_1>`, :ref:`Table2 <table2_2>` and :ref:`Table3 <table2_3>` +is shown in :ref:`Table4 <table2_4>`. +It shall be noticed that the Yardstick test cases are examples, the test +duration and number of iterations are configurable, as are the System Under +Test (SUT) and the attributes (or, in Yardstick nomemclature, the scenario +options). + +.. _table2_1: + +**Table 1 - Performance/Speed Metrics** + ++---------+-------------------------------------------------------------------+ +| Category| Performance/Speed | +| | | ++---------+-------------------------------------------------------------------+ +| Compute | * Latency for random memory access | +| | * Latency for cache read/write operations | +| | * Processing speed (instructions per second) | +| | * Throughput for random memory access (bytes per second) | +| | | ++---------+-------------------------------------------------------------------+ +| Network | * Throughput per NFVI node (frames/byte per second) | +| | * Throughput provided to a VM (frames/byte per second) | +| | * Latency per traffic flow | +| | * Latency between VMs | +| | * Latency between NFVI nodes | +| | * Packet delay variation (jitter) between VMs | +| | * Packet delay variation (jitter) between NFVI nodes | +| | | ++---------+-------------------------------------------------------------------+ +| Storage | * Sequential read/write IOPS | +| | * Random read/write IOPS | +| | * Latency for storage read/write operations | +| | * Throughput for storage read/write operations | +| | | ++---------+-------------------------------------------------------------------+ + +.. _table2_2: + +**Table 2 - Capacity/Scale Metrics** + ++---------+-------------------------------------------------------------------+ +| Category| Capacity/Scale | +| | | ++---------+-------------------------------------------------------------------+ +| Compute | * Number of cores and threads- Available memory size | +| | * Cache size | +| | * Processor utilization (max, average, standard deviation) | +| | * Memory utilization (max, average, standard deviation) | +| | * Cache utilization (max, average, standard deviation) | +| | | ++---------+-------------------------------------------------------------------+ +| Network | * Number of connections | +| | * Number of frames sent/received | +| | * Maximum throughput between VMs (frames/byte per second) | +| | * Maximum throughput between NFVI nodes (frames/byte per second) | +| | * Network utilization (max, average, standard deviation) | +| | * Number of traffic flows | +| | | ++---------+-------------------------------------------------------------------+ +| Storage | * Storage/Disk size | +| | * Capacity allocation (block-based, object-based) | +| | * Block size | +| | * Maximum sequential read/write IOPS | +| | * Maximum random read/write IOPS | +| | * Disk utilization (max, average, standard deviation) | +| | | ++---------+-------------------------------------------------------------------+ + +.. _table2_3: + +**Table 3 - Availability/Reliability Metrics** + ++---------+-------------------------------------------------------------------+ +| Category| Availability/Reliability | +| | | ++---------+-------------------------------------------------------------------+ +| Compute | * Processor availability (Error free processing time) | +| | * Memory availability (Error free memory time) | +| | * Processor mean-time-to-failure | +| | * Memory mean-time-to-failure | +| | * Number of processing faults per second | +| | | ++---------+-------------------------------------------------------------------+ +| Network | * NIC availability (Error free connection time) | +| | * Link availability (Error free transmission time) | +| | * NIC mean-time-to-failure | +| | * Network timeout duration due to link failure | +| | * Frame loss rate | +| | | ++---------+-------------------------------------------------------------------+ +| Storage | * Disk availability (Error free disk access time) | +| | * Disk mean-time-to-failure | +| | * Number of failed storage read/write operations per second | +| | | ++---------+-------------------------------------------------------------------+ + +.. _table2_4: + +**Table 4 - Yardstick Generic Test Cases** + ++---------+-------------------+----------------+------------------------------+ +| Category| Performance/Speed | Capacity/Scale | Availability/Reliability | +| | | | | ++---------+-------------------+----------------+------------------------------+ +| Compute | TC003 | TC003 | TC013 [1]_ | +| | TC004 | TC004 | TC015 [1]_ | +| | TC014 | TC010 | | +| | TC024 | TC012 | | +| | | | | ++---------+-------------------+----------------+------------------------------+ +| Network | TC002 | TC001 | TC016 [1]_ | +| | TC011 | TC008 | TC018 [1]_ | +| | | TC009 | | +| | | | | ++---------+-------------------+----------------+------------------------------+ +| Storage | TC005 | TC005 | TC017 [1]_ | +| | | | | ++---------+-------------------+----------------+------------------------------+ + +.. note:: The description in this OPNFV document is intended as a reference for + users to understand the scope of the Yardstick Project and the + deliverables of the Yardstick framework. For complete description of + the methodology, refer to the ETSI document. + +.. rubric:: Footnotes +.. [1] To be included in future deliveries. diff --git a/docs/configguide/yardstick_testcases/03-list-of-tcs.rst b/docs/configguide/yardstick_testcases/03-list-of-tcs.rst new file mode 100644 index 000000000..f72d80b75 --- /dev/null +++ b/docs/configguide/yardstick_testcases/03-list-of-tcs.rst @@ -0,0 +1,72 @@ +==================== +Yardstick Test Cases +==================== + +Abstract +======== + +This chapter lists available Yardstick test cases. +Yardstick test cases are divided in two main categories: + +* *Generic NFVI Test Cases* - Test Cases developed to realize the methodology +described in :doc:`02-methodology` + +* *OPNFV Feature Test Cases* - Test Cases developed to verify one or more +aspect of a feature delivered by an OPNFV Project, including the test cases +developed for the :term:`VTC`. + +Generic NFVI Test Case Descriptions +=================================== + +.. toctree:: + :maxdepth: 1 + + opnfv_yardstick_tc001.rst + opnfv_yardstick_tc002.rst + opnfv_yardstick_tc005.rst + opnfv_yardstick_tc008.rst + opnfv_yardstick_tc009.rst + opnfv_yardstick_tc010.rst + opnfv_yardstick_tc012.rst + opnfv_yardstick_tc014.rst + opnfv_yardstick_tc037.rst + opnfv_yardstick_tc038.rst + +OPNFV Feature Test Cases +======================== + +IPv6 +---- + +.. toctree:: + :maxdepth: 1 + + opnfv_yardstick_tc027.rst + +Parser +------ + +.. toctree:: + :maxdepth: 1 + + opnfv_yardstick_tc040.rst + +virtual Traffic Classifier +-------------------------- + +.. toctree:: + :maxdepth: 1 + + opnfv_yardstick_tc006.rst + opnfv_yardstick_tc007.rst + opnfv_yardstick_tc020.rst + opnfv_yardstick_tc021.rst + +Templates +========= + +.. toctree:: + :maxdepth: 1 + + testcase_description_v2_template + Yardstick_task_templates diff --git a/docs/configguide/yardstick_testcases/04-vtc-overview.rst b/docs/configguide/yardstick_testcases/04-vtc-overview.rst new file mode 100644 index 000000000..95159a9bc --- /dev/null +++ b/docs/configguide/yardstick_testcases/04-vtc-overview.rst @@ -0,0 +1,114 @@ +========================== +Virtual Traffic Classifier +========================== + +Abstract +======== + +.. _TNOVA: http://www.t-nova.eu/ +.. _TNOVAresults: http://www.t-nova.eu/results/ +.. _Yardstick: https://wiki.opnfv.org/yardstick + +This chapter provides an overview of the virtual Traffic Classifier, a +contribution to OPNFV Yardstick_ from the EU Project TNOVA_. +Additional documentation is available in TNOVAresults_. + +Overview +======== + +The virtual Traffic Classifier :term:`VNF`, the :term:`VTC`, comprises of a +:term:`VNFC`. The :term:`VNFC` contains both the Traffic Inspection module, and +the Traffic forwarding module, needed to run the VNF. The exploitation of +:term:`DPI` methods for traffic classification is built around two basic +assumptions: + +* third parties unaffiliated with either source or recipient are able to +inspect each IP packet’s payload + +* the classifier knows the relevant syntax of each application’s packet +payloads (protocol signatures, data patterns, etc.). + +The proposed :term:`DPI` based approach will only use an indicative, small +number of the initial packets from each flow in order to identify the content +and not inspect each packet. + +In this respect it follows the :term:`PBFS`. This method uses a table to track +each session based on the 5-tuples (src address, dest address, src port,dest +port, transport protocol) that is maintained for each flow. + +Concepts +======== + +* *Traffic Inspection*: The process of packet analysis and application +identification of network traffic that passes through the :term:`VTC`. + +* *Traffic Forwarding*: The process of packet forwarding from an incoming +network interface to a pre-defined outgoing network interface. + +* *Traffic Rule Application*: The process of packet tagging, based on a +predefined set of rules. Packet tagging may include e.g. :term:`ToS` field +modification. + +Architecture +============ + +The Traffic Inspection module is the most computationally intensive component +of the :term:`VNF`. It implements filtering and packet matching algorithms in +order to support the enhanced traffic forwarding capability of the :term:`VNF`. +The component supports a flow table (exploiting hashing algorithms for fast +indexing of flows) and an inspection engine for traffic classification. + +The implementation used for these experiments exploits the nDPI library. +The packet capturing mechanism is implemented using libpcap. When the +:term:`DPI` engine identifies a new flow, the flow register is updated with the +appropriate information and transmitted across the Traffic Forwarding module, +which then applies any required policy updates. + +The Traffic Forwarding moudle is responsible for routing and packet forwarding. +It accepts incoming network traffic, consults the flow table for classification +information for each incoming flow and then applies pre-defined policies +marking e.g. :term:`ToS`/:term:`DSCP` multimedia traffic for :term:`QoS` +enablement on the forwarded traffic. +It is assumed that the traffic is forwarded using the default policy until it +is identified and new policies are enforced. + +The expected response delay is considered to be negligible, as only a small +number of packets are required to identify each flow. + +Graphical Overview +================== + +.. code-block:: console + + +----------------------------+ + | | + | Virtual Traffic Classifier | + | | + | Analysing/Forwarding | + | ------------> | + | ethA ethB | + | | + +----------------------------+ + | ^ + | | + v | + +----------------------------+ + | | + | Virtual Switch | + | | + +----------------------------+ + +Install +======= + +run the build.sh with root privileges + +Run +=== + +sudo ./pfbridge -a eth1 -b eth2 + +Development Environment +======================= + +Ubuntu 14.04 diff --git a/docs/configguide/yardstick_testcases/Yardstick_task_templates.rst b/docs/configguide/yardstick_testcases/Yardstick_task_templates.rst new file mode 100755 index 000000000..d2c2b7ec9 --- /dev/null +++ b/docs/configguide/yardstick_testcases/Yardstick_task_templates.rst @@ -0,0 +1,155 @@ +Task Template Syntax +==================== + +Basic template syntax +--------------------- +A nice feature of the input task format used in Yardstick is that it supports +the template syntax based on Jinja2. +This turns out to be extremely useful when, say, you have a fixed structure of +your task but you want to parameterize this task in some way. +For example, imagine your input task file (task.yaml) runs a set of Ping +scenarios: + +:: + + # Sample benchmark task config file + # measure network latency using ping + schema: "yardstick:task:0.1" + + scenarios: + - + type: Ping + options: + packetsize: 200 + host: athena.demo + target: ares.demo + + runner: + type: Duration + duration: 60 + interval: 1 + + sla: + max_rtt: 10 + action: monitor + + context: + ... + +Let's say you want to run the same set of scenarios with the same runner/ +context/sla, but you want to try another packetsize to compare the performance. +The most elegant solution is then to turn the packetsize name into a template +variable: + +:: + + # Sample benchmark task config file + # measure network latency using ping + + schema: "yardstick:task:0.1" + scenarios: + - + type: Ping + options: + packetsize: {{packetsize}} + host: athena.demo + target: ares.demo + + runner: + type: Duration + duration: 60 + interval: 1 + + sla: + max_rtt: 10 + action: monitor + + context: + ... + +and then pass the argument value for {{packetsize}} when starting a task with +this configuration file. +Yardstick provides you with different ways to do that: + +1.Pass the argument values directly in the command-line interface (with either +a JSON or YAML dictionary): + +:: + + yardstick task start samples/ping-template.yaml + --task-args'{"packetsize":"200"}' + +2.Refer to a file that specifies the argument values (JSON/YAML): + +:: + + yardstick task start samples/ping-template.yaml --task-args-file args.yaml + +Using the default values +------------------------ +Note that the Jinja2 template syntax allows you to set the default values for +your parameters. +With default values set, your task file will work even if you don't +parameterize it explicitly while starting a task. +The default values should be set using the {% set ... %} clause (task.yaml). +For example: + +:: + + # Sample benchmark task config file + # measure network latency using ping + schema: "yardstick:task:0.1" + {% set packetsize = packetsize or "100" %} + scenarios: + - + type: Ping + options: + packetsize: {{packetsize}} + host: athena.demo + target: ares.demo + + runner: + type: Duration + duration: 60 + interval: 1 + ... + +If you don't pass the value for {{packetsize}} while starting a task, the +default one will be used. + +Advanced templates +------------------ + +Yardstick makes it possible to use all the power of Jinja2 template syntax, +including the mechanism of built-in functions. +As an example, let us make up a task file that will do a block storage +performance test. +The input task file (fio-template.yaml) below uses the Jinja2 for-endfor +construct to accomplish that: + +:: + + #Test block sizes of 4KB, 8KB, 64KB, 1MB + #Test 5 workloads: read, write, randwrite, randread, rw + schema: "yardstick:task:0.1" + + scenarios: + {% for bs in ['4k', '8k', '64k', '1024k' ] %} + {% for rw in ['read', 'write', 'randwrite', 'randread', 'rw' ] %} + - + type: Fio + options: + filename: /home/ec2-user/data.raw + bs: {{bs}} + rw: {{rw}} + ramp_time: 10 + host: fio.demo + runner: + type: Duration + duration: 60 + interval: 60 + + {% endfor %} + {% endfor %} + context + ... diff --git a/docs/configguide/yardstick_testcases/glossary.rst b/docs/configguide/yardstick_testcases/glossary.rst new file mode 100644 index 000000000..8ce9a6ba0 --- /dev/null +++ b/docs/configguide/yardstick_testcases/glossary.rst @@ -0,0 +1,33 @@ +================== +Yardstick Glossary +================== + +.. glossary:: + :sorted: + + DPI + Deep Packet Inspection + + DSCP + Differentiated Services Code Point + + PBFS + Packet Based per Flow State + + QoS + Quality of Service + + VNF + Virtual Network Function + + VNFC + Virtual Network Function Component + + NFVI + Network Function Virtualization Infrastructure + + ToS + Type of Service + + VTC + Virtual Traffic Classifier diff --git a/docs/configguide/yardstick_testcases/index.rst b/docs/configguide/yardstick_testcases/index.rst new file mode 100644 index 000000000..55d4ea3e1 --- /dev/null +++ b/docs/configguide/yardstick_testcases/index.rst @@ -0,0 +1,12 @@ +================== +Yardstick Overview +================== + +.. toctree:: + :maxdepth: 2 + + 01-introduction + 02-methodology + 04-vtc-overview + 03-list-of-tcs + glossary diff --git a/docs/yardstick/opnfv_yardstick_tc001.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc001.rst index 16c9d2c60..810bad489 100644 --- a/docs/yardstick/opnfv_yardstick_tc001.rst +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc001.rst @@ -1,12 +1,18 @@ ************************************* Yardstick Test Case Description TC001 ************************************* + +.. _pktgen: https://www.kernel.org/doc/Documentation/networking/pktgen.txt + +-----------------------------------------------------------------------------+ |Network Performance | -+==============+==============================================================+ +| | ++--------------+--------------------------------------------------------------+ |test case id | OPNFV_YARDSTICK_TC001_NW PERF | +| | | +--------------+--------------------------------------------------------------+ |metric | Number of flows and throughput | +| | | +--------------+--------------------------------------------------------------+ |test purpose | To evaluate the IaaS network performance with regards to | | | flows and throughput, such as if and how different amounts | @@ -19,6 +25,7 @@ Yardstick Test Case Description TC001 | | graphs ans similar shall be stored for comparison reasons and| | | product evolution understanding between different OPNFV | | | versions and/or configurations. | +| | | +--------------+--------------------------------------------------------------+ |configuration | file: opnfv_yardstick_tc001.yaml | | | | @@ -28,6 +35,7 @@ Yardstick Test Case Description TC001 | | twice. The client and server are distributed on different HW.| | | For SLA max_ppm is set to 1000. The amount of configured | | | ports map to between 110 up to 1001000 flows, respectively. | +| | | +--------------+--------------------------------------------------------------+ |test tool | pktgen | | | | @@ -36,30 +44,36 @@ Yardstick Test Case Description TC001 | | image. | | | As an example see the /yardstick/tools/ directory for how | | | to generate a Linux image with pktgen included.) | +| | | +--------------+--------------------------------------------------------------+ -|references |https://www.kernel.org/doc/Documentation/networking/pktgen.txt| +|references | pktgen_ | +| | | +| | ETSI-NFV-TST001 | | | | -| |ETSI-NFV-TST001 | +--------------+--------------------------------------------------------------+ |applicability | Test can be configured with different packet sizes, amount | | | of flows and test duration. Default values exist. | | | | -| |SLA (optional): | -| | max_ppm: The number of packets per million packets sent | -| | that are acceptable to lose, i.e. not received. | +| | SLA (optional): max_ppm: The number of packets per million | +| | packets sent that are acceptable to loose, not received. | +| | | +--------------+--------------------------------------------------------------+ |pre-test | The test case image needs to be installed into Glance | |conditions | with pktgen included in it. | | | | | | No POD specific requirements have been identified. | -+--------------+------+----------------------------------+--------------------+ -|test sequence | step | description | result | -| +------+----------------------------------+--------------------+ -| | 1 | The hosts are installed, as | Logs are stored | -| | | server and client. pktgen is | | -| | | invoked and logs are produced | | -| | | and stored. | | -+--------------+------+----------------------------------+--------------------+ +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The hosts are installed, as server and client. pktgen is | +| | invoked and logs are produced and stored. | +| | | +| | Result: Logs are stored. | +| | | ++--------------+--------------------------------------------------------------+ |test verdict | Fails only if SLA is not passed, or if there is a test case | | | execution problem. | +| | | +--------------+--------------------------------------------------------------+ diff --git a/docs/yardstick/opnfv_yardstick_tc002.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc002.rst index bc795bf38..56350f5bb 100644 --- a/docs/yardstick/opnfv_yardstick_tc002.rst +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc002.rst @@ -2,12 +2,17 @@ Yardstick Test Case Description TC002 ************************************* +.. _cirros-image: https://download.cirros-cloud.net + +-----------------------------------------------------------------------------+ |Network Latency | -+==============+==============================================================+ +| | ++--------------+--------------------------------------------------------------+ |test case id | OPNFV_YARDSTICK_TC002_NW LATENCY | +| | | +--------------+--------------------------------------------------------------+ |metric | RTT, Round Trip Time | +| | | +--------------+--------------------------------------------------------------+ |test purpose | To do a basic verification that network latency is within | | | acceptable boundaries when packets travel between hosts | @@ -16,11 +21,13 @@ Yardstick Test Case Description TC002 | | graphs and similar shall be stored for comparison reasons and| | | product evolution understanding between different OPNFV | | | versions and/or configurations. | +| | | +--------------+--------------------------------------------------------------+ |configuration | file: opnfv_yardstick_tc002.yaml | | | | | | Packet size 100 bytes. Total test duration 600 seconds. | | | One ping each 10 seconds. SLA RTT is set to maximum 10 ms. | +| | | +--------------+--------------------------------------------------------------+ |test tool | ping | | | | @@ -28,11 +35,13 @@ Yardstick Test Case Description TC002 | | doesn't need to be installed. It is also part of the | | | Yardstick Docker image. | | | (For example also a Cirros image can be downloaded from | -| | https://download.cirros-cloud.net, it includes ping) | +| | cirros-image_, it includes ping) | +| | | +--------------+--------------------------------------------------------------+ |references | Ping man page | | | | | | ETSI-NFV-TST001 | +| | | +--------------+--------------------------------------------------------------+ |applicability | Test case can be configured with different packet sizes, | | | burst sizes, ping intervals and test duration. | @@ -46,20 +55,24 @@ Yardstick Test Case Description TC002 | | than this. Some may suffer bad also close to this RTT, while | | | others may not suffer at all. It is a compromise that may | | | have to be tuned for different configuration purposes. | +| | | +--------------+--------------------------------------------------------------+ |pre-test | The test case image needs to be installed into Glance | |conditions | with ping included in it. | | | | | | No POD specific requirements have been identified. | -+--------------+------+----------------------------------+--------------------+ -|test sequence | step | description | result | -| +------+----------------------------------+--------------------+ -| | 1 | The hosts are installed, as | Logs are stored | -| | | server and client. Ping is | | -| | | invoked and logs are produced | | -| | | and stored. | | -+--------------+------+----------------------------------+--------------------+ +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The hosts are installed, as server and client. Ping is | +| | invoked and logs are produced and stored. | +| | | +| | Result: Logs are stored. | +| | | ++--------------+--------------------------------------------------------------+ |test verdict | Test should not PASS if any RTT is above the optional SLA | | | value, or if there is a test case execution problem. | +| | | +--------------+--------------------------------------------------------------+ - diff --git a/docs/configguide/yardstick_testcases/opnfv_yardstick_tc005.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc005.rst new file mode 100644 index 000000000..8b7474696 --- /dev/null +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc005.rst @@ -0,0 +1,72 @@ +************************************* +Yardstick Test Case Description TC005 +************************************* + +.. _fio: http://www.bluestop.org/fio/HOWTO.txt + ++-----------------------------------------------------------------------------+ +|Storage Performance | +| | ++--------------+--------------------------------------------------------------+ +|test case id | OPNFV_YARDSTICK_TC005_Storage Performance | +| | | ++--------------+--------------------------------------------------------------+ +|metric | IOPS, throughput and latency | +| | | ++--------------+--------------------------------------------------------------+ +|test purpose | To evaluate the IaaS storage performance with regards to | +| | IOPS, throughput and latency. | +| | The purpose is also to be able to spot trends. Test results, | +| | graphs and similar shall be stored for comparison reasons | +| | and product evolution understanding between different OPNFV | +| | versions and/or configurations. | +| | | ++--------------+--------------------------------------------------------------+ +|configuration | file: opnfv_yardstick_tc005.yaml | +| | | +| | IO types: read, write, randwrite, randread, rw | +| | IO block size: 4KB, 64KB, 1024KB, where each | +| | runs for 30 seconds(10 for ramp time, 20 for runtime). | +| | | +| | For SLA minimum read/write iops is set to 100, minimum | +| | read/write throughput is set to 400 KB/s, and maximum | +| | read/write latency is set to 20000 usec. | +| | | ++--------------+--------------------------------------------------------------+ +|test tool | fio | +| | | +| | (fio is not always part of a Linux distribution, hence it | +| | needs to be installed. As an example see the | +| | /yardstick/tools/ directory for how to generate a Linux | +| | image with fio included.) | +| | | ++--------------+--------------------------------------------------------------+ +|references | fio_ | +| | | +| | ETSI-NFV-TST001 | +| | | ++--------------+--------------------------------------------------------------+ +|applicability | Test can be configured with different read/write types, IO | +| | block size, IO depth, ramp time (runtime required for stable | +| | results) and test duration. Default values exist. | +| | | ++--------------+--------------------------------------------------------------+ +|pre-test | The test case image needs to be installed into Glance | +|conditions | with fio included in it. | +| | | +| | No POD specific requirements have been identified. | +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The hosts are installed, as server and client. fio is | +| | invoked and logs are produced and stored. | +| | | +| | Result: Logs are stored. | +| | | ++--------------+--------------------------------------------------------------+ +|test verdict | Fails only if SLA is not passed, or if there is a test case | +| | execution problem. | +| | | ++--------------+--------------------------------------------------------------+ diff --git a/docs/configguide/yardstick_testcases/opnfv_yardstick_tc006.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc006.rst new file mode 100644 index 000000000..b68315078 --- /dev/null +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc006.rst @@ -0,0 +1,139 @@ +************************************* +Yardstick Test Case Description TC006 +************************************* + +.. _DPDKpktgen: https://github.com/Pktgen/Pktgen-DPDK/ +.. _rfc2544: https://www.ietf.org/rfc/rfc2544.txt + ++-----------------------------------------------------------------------------+ +|Network Performance | +| | ++--------------+--------------------------------------------------------------+ +|test case id | OPNFV_YARDSTICK_TC006_Virtual Traffic Classifier Data Plane | +| | Throughput Benchmarking Test. | +| | | ++--------------+--------------------------------------------------------------+ +|metric | Throughput | +| | | ++--------------+--------------------------------------------------------------+ +|test purpose | To measure the throughput supported by the virtual Traffic | +| | Classifier according to the RFC2544 methodology for a | +| | user-defined set of vTC deployment configurations. | +| | | ++--------------+--------------------------------------------------------------+ +|configuration | file: file: opnfv_yardstick_tc006.yaml | +| | | +| | packet_size: size of the packets to be used during the | +| | throughput calculation. | +| | Allowe values: [64, 128, 256, 512, 1024, 1280, 1518] | +| | | +| | vnic_type: type of VNIC to be used. | +| | Allowed values are: | +| | - normal: for default OvS port configuration | +| | - direct: for SR-IOV port configuration | +| | Default value: None | +| | | +| | vtc_flavor: OpenStack flavor to be used for the vTC | +| | Default available values are: m1.small, m1.medium, | +| | and m1.large, but the user can create his/her own | +| | flavor and give it as input | +| | Default value: None | +| | | +| | vlan_sender: vlan tag of the network on which the vTC will | +| | receive traffic (VLAN Network 1). | +| | Allowed values: range (1, 4096) | +| | | +| | vlan_receiver: vlan tag of the network on which the vTC | +| | will send traffic back to the packet generator | +| | (VLAN Network 2). | +| | Allowed values: range (1, 4096) | +| | | +| | default_net_name: neutron name of the defaul network that | +| | is used for access to the internet from the vTC | +| | (vNIC 1). | +| | | +| | default_subnet_name: subnet name for vNIC1 | +| | (information available through Neutron). | +| | | +| | vlan_net_1_name: Neutron Name for VLAN Network 1 | +| | (information available through Neutron). | +| | | +| | vlan_subnet_1_name: Subnet Neutron name for VLAN Network 1 | +| | (information available through Neutron). | +| | | +| | vlan_net_2_name: Neutron Name for VLAN Network 2 | +| | (information available through Neutron). | +| | | +| | vlan_subnet_2_name: Subnet Neutron name for VLAN Network 2 | +| | (information available through Neutron). | +| | | ++--------------+--------------------------------------------------------------+ +|test tool | DPDK pktgen | +| | | +| | DPDK Pktgen is not part of a Linux distribution, | +| | hence it needs to be installed by the user. | +| | | ++--------------+--------------------------------------------------------------+ +|references | DPDK Pktgen: DPDKpktgen_ | +| | | +| | ETSI-NFV-TST001 | +| | | +| | RFC 2544: rfc2544_ | +| | | ++--------------+--------------------------------------------------------------+ +|applicability | Test can be configured with different flavors, vNIC type | +| | and packet sizes. Default values exist as specified above. | +| | The vNIC type and flavor MUST be specified by the user. | +| | | ++--------------+--------------------------------------------------------------+ +|pre-test | The vTC has been successfully instantiated and configured. | +| | The user has correctly assigned the values to the deployment | +| | configuration parameters. | +| | | +| | - Multicast traffic MUST be enabled on the network. | +| | The Data network switches need to be configured in | +| | order to manage multicast traffic. | +| | - In the case of SR-IOV vNICs use, SR-IOV compatible NICs | +| | must be used on the compute node. | +| | - Yarsdtick needs to be installed on a host connected to the | +| | data network and the host must have 2 DPDK-compatible | +| | NICs. Proper configuration of DPDK and DPDK pktgen is | +| | required before to run the test case. | +| | (For further instructions please refer to the ApexLake | +| | documentation). | +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | Description and expected results | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The vTC is deployed, according to the user-defined | +| | configuration | +| | | ++--------------+--------------------------------------------------------------+ +|step 2 | The vTC is correctly deployed and configured as necessary | +| | The initialization script has been correctly executed and | +| | vTC is ready to receive and process the traffic. | +| | | ++--------------+--------------------------------------------------------------+ +|step 3 | Test case is executed with the selected parameters: | +| | - vTC flavor | +| | - vNIC type | +| | - packet size | +| | The traffic is sent to the vTC using the maximum available | +| | traffic rate for 60 seconds. | +| | | ++--------------+--------------------------------------------------------------+ +|step 4 | The vTC instance forwards all the packets back to the packet | +| | generator for 60 seconds, as specified by RFC 2544. | +| | | +| | Steps 3 and 4 are executed different times, with different | +| | rates in order to find the maximum supported traffic rate | +| | according to the current definition of throughput in RFC | +| | 2544. | +| | | ++--------------+--------------------------------------------------------------+ +|test verdict | The result of the test is a number between 0 and 100 which | +| | represents the throughput in terms of percentage of the | +| | available pktgen NIC bandwidth. | +| | | ++--------------+--------------------------------------------------------------+ diff --git a/docs/configguide/yardstick_testcases/opnfv_yardstick_tc007.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc007.rst new file mode 100644 index 000000000..a7a4776d5 --- /dev/null +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc007.rst @@ -0,0 +1,157 @@ +************************************* +Yardstick Test Case Description TC007 +************************************* + +.. _DPDKpktgen: https://github.com/Pktgen/Pktgen-DPDK/ +.. _rfc2544: https://www.ietf.org/rfc/rfc2544.txt + ++-----------------------------------------------------------------------------+ +|Network Performance | +| | ++--------------+--------------------------------------------------------------+ +|test case id | OPNFV_YARDSTICK_TC007_Virtual Traffic Classifier Data Plane | +| | Throughput Benchmarking Test in Presence of Noisy | +| | neighbours | +| | | ++--------------+--------------------------------------------------------------+ +|metric | Throughput | +| | | ++--------------+--------------------------------------------------------------+ +|test purpose | To measure the throughput supported by the virtual Traffic | +| | Classifier according to the RFC2544 methodology for a | +| | user-defined set of vTC deployment configurations in the | +| | presence of noisy neighbours. | +| | | ++--------------+--------------------------------------------------------------+ +|configuration | file: opnfv_yardstick_tc007.yaml | +| | | +| | packet_size: size of the packets to be used during the | +| | throughput calculation. | +| | Allowe values: [64, 128, 256, 512, 1024, 1280, 1518] | +| | | +| | vnic_type: type of VNIC to be used. | +| | Allowed values are: | +| | - normal: for default OvS port configuration | +| | - direct: for SR-IOV port configuration | +| | | +| | vtc_flavor: OpenStack flavor to be used for the vTC | +| | Default available values are: m1.small, m1.medium, | +| | and m1.large, but the user can create his/her own | +| | flavor and give it as input | +| | | +| | num_of_neighbours: Number of noisy neighbours (VMs) to be | +| | instantiated during the experiment. | +| | Allowed values: range (1, 10) | +| | | +| | amount_of_ram: RAM to be used by each neighbor. | +| | Allowed values: ['250M', '1G', '2G', '3G', '4G', '5G', | +| | '6G', '7G', '8G', '9G', '10G'] | +| | Deault value: 256M | +| | | +| | number_of_cores: Number of noisy neighbours (VMs) to be | +| | instantiated during the experiment. | +| | Allowed values: range (1, 10) | +| | Default value: 1 | +| | | +| | vlan_sender: vlan tag of the network on which the vTC will | +| | receive traffic (VLAN Network 1). | +| | Allowed values: range (1, 4096) | +| | | +| | vlan_receiver: vlan tag of the network on which the vTC | +| | will send traffic back to the packet generator | +| | (VLAN Network 2). | +| | Allowed values: range (1, 4096) | +| | | +| | default_net_name: neutron name of the defaul network that | +| | is used for access to the internet from the vTC | +| | (vNIC 1). | +| | | +| | default_subnet_name: subnet name for vNIC1 | +| | (information available through Neutron). | +| | | +| | vlan_net_1_name: Neutron Name for VLAN Network 1 | +| | (information available through Neutron). | +| | | +| | vlan_subnet_1_name: Subnet Neutron name for VLAN Network 1 | +| | (information available through Neutron). | +| | | +| | vlan_net_2_name: Neutron Name for VLAN Network 2 | +| | (information available through Neutron). | +| | | +| | vlan_subnet_2_name: Subnet Neutron name for VLAN Network 2 | +| | (information available through Neutron). | +| | | ++--------------+--------------------------------------------------------------+ +|test tool | DPDK pktgen | +| | | +| | DPDK Pktgen is not part of a Linux distribution, | +| | hence it needs to be installed by the user. | +| | | ++--------------+--------------------------------------------------------------+ +|references | DPDKpktgen_ | +| | | +| | ETSI-NFV-TST001 | +| | | +| | rfc2544_ | +| | | ++--------------+--------------------------------------------------------------+ +|applicability | Test can be configured with different flavors, vNIC type | +| | and packet sizes. Default values exist as specified above. | +| | The vNIC type and flavor MUST be specified by the user. | +| | | ++--------------+--------------------------------------------------------------+ +|pre-test | The vTC has been successfully instantiated and configured. | +| | The user has correctly assigned the values to the deployment | +| | configuration parameters. | +| | | +| | - Multicast traffic MUST be enabled on the network. | +| | The Data network switches need to be configured in | +| | order to manage multicast traffic. | +| | - In the case of SR-IOV vNICs use, SR-IOV compatible NICs | +| | must be used on the compute node. | +| | - Yarsdtick needs to be installed on a host connected to the | +| | data network and the host must have 2 DPDK-compatible | +| | NICs. Proper configuration of DPDK and DPDK pktgen is | +| | required before to run the test case. | +| | (For further instructions please refer to the ApexLake | +| | documentation). | +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | Description and expected results | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The noisy neighbours are deployed as required by the user. | +| | | ++--------------+--------------------------------------------------------------+ +|step 2 | The vTC is deployed, according to the configuration required | +| | by the user | +| | | ++--------------+--------------------------------------------------------------+ +|step 3 | The vTC is correctly deployed and configured as necessary. | +| | The initialization script has been correctly executed and | +| | the vTC is ready to receive and process the traffic. | +| | | ++--------------+--------------------------------------------------------------+ +|step 4 | Test case is executed with the parameters specified by the | +| | user: | +| | - vTC flavor | +| | - vNIC type | +| | - packet size | +| | The traffic is sent to the vTC using the maximum available | +| | traffic rate | +| | | ++--------------+--------------------------------------------------------------+ +|step 5 | The vTC instance forwards all the packets back to the | +| | packet generator for 60 seconds, as specified by RFC 2544. | +| | | +| | Steps 4 and 5 are executed different times with different | +| | with different traffic rates, in order to find the maximum | +| | supported traffic rate, accoring to the current definition | +| | of throughput in RFC 2544. | +| | | ++--------------+--------------------------------------------------------------+ +|test verdict | The result of the test is a number between 0 and 100 which | +| | represents the throughput in terms of percentage of the | +| | available pktgen NIC bandwidth. | +| | | ++--------------+--------------------------------------------------------------+ diff --git a/docs/yardstick/opnfv_yardstick_tc008.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc008.rst index f4971fbad..e176e633a 100644 --- a/docs/yardstick/opnfv_yardstick_tc008.rst +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc008.rst @@ -1,12 +1,18 @@ ************************************* Yardstick Test Case Description TC008 ************************************* + +.. _pktgen: https://www.kernel.org/doc/Documentation/networking/pktgen.txt + +-----------------------------------------------------------------------------+ -|Network Performance | -+==============+==============================================================+ +|Packet Loss Extended Test | +| | ++--------------+--------------------------------------------------------------+ |test case id | OPNFV_YARDSTICK_TC008_NW PERF, Packet loss Extended Test | +| | | +--------------+--------------------------------------------------------------+ |metric | Number of flows, packet size and throughput | +| | | +--------------+--------------------------------------------------------------+ |test purpose | To evaluate the IaaS network performance with regards to | | | flows and throughput, such as if and how different amounts | @@ -20,6 +26,7 @@ Yardstick Test Case Description TC008 | | graphs ans similar shall be stored for comparison reasons and| | | product evolution understanding between different OPNFV | | | versions and/or configurations. | +| | | +--------------+--------------------------------------------------------------+ |configuration | file: opnfv_yardstick_tc008.yaml | | | | @@ -34,6 +41,7 @@ Yardstick Test Case Description TC008 | | The client and server are distributed on different HW. | | | | | | For SLA max_ppm is set to 1000. | +| | | +--------------+--------------------------------------------------------------+ |test tool | pktgen | | | | @@ -42,30 +50,36 @@ Yardstick Test Case Description TC008 | | image. | | | As an example see the /yardstick/tools/ directory for how | | | to generate a Linux image with pktgen included.) | +| | | +--------------+--------------------------------------------------------------+ -|references |https://www.kernel.org/doc/Documentation/networking/pktgen.txt| +|references | pktgen_ | +| | | +| | ETSI-NFV-TST001 | | | | -| |ETSI-NFV-TST001 | +--------------+--------------------------------------------------------------+ |applicability | Test can be configured with different packet sizes, amount | | | of flows and test duration. Default values exist. | | | | -| |SLA (optional): | -| | max_ppm: The number of packets per million packets sent | -| | that are acceptable to lose, i.e. not received. | +| | SLA (optional): max_ppm: The number of packets per million | +| | packets sent that are acceptable to loose, not received. | +| | | +--------------+--------------------------------------------------------------+ |pre-test | The test case image needs to be installed into Glance | |conditions | with pktgen included in it. | | | | | | No POD specific requirements have been identified. | -+--------------+------+----------------------------------+--------------------+ -|test sequence | step | description | result | -| +------+----------------------------------+--------------------+ -| | 1 | The hosts are installed, as | Logs are stored | -| | | server and client. pktgen is | | -| | | invoked and logs are produced | | -| | | and stored. | | -+--------------+------+----------------------------------+--------------------+ +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The hosts are installed, as server and client. pktgen is | +| | invoked and logs are produced and stored. | +| | | +| | Result: Logs are stored. | +| | | ++--------------+--------------------------------------------------------------+ |test verdict | Fails only if SLA is not passed, or if there is a test case | | | execution problem. | +| | | +--------------+--------------------------------------------------------------+ diff --git a/docs/yardstick/opnfv_yardstick_tc009.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc009.rst index 07d7fbfea..e4002a884 100644 --- a/docs/yardstick/opnfv_yardstick_tc009.rst +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc009.rst @@ -1,12 +1,18 @@ ************************************* Yardstick Test Case Description TC009 ************************************* + +.. _pktgen: https://www.kernel.org/doc/Documentation/networking/pktgen.txt + +-----------------------------------------------------------------------------+ -|Network Performance | -+==============+==============================================================+ +|Packet Loss | +| | ++--------------+--------------------------------------------------------------+ |test case id | OPNFV_YARDSTICK_TC009_NW PERF, Packet loss | +| | | +--------------+--------------------------------------------------------------+ -|metric | Number of flows and throughput | +|metric | Number of flows, packets lost and throughput | +| | | +--------------+--------------------------------------------------------------+ |test purpose | To evaluate the IaaS network performance with regards to | | | flows and throughput, such as if and how different amounts | @@ -20,6 +26,7 @@ Yardstick Test Case Description TC009 | | graphs ans similar shall be stored for comparison reasons and| | | product evolution understanding between different OPNFV | | | versions and/or configurations. | +| | | +--------------+--------------------------------------------------------------+ |configuration | file: opnfv_yardstick_tc009.yaml | | | | @@ -33,6 +40,7 @@ Yardstick Test Case Description TC009 | | The client and server are distributed on different HW. | | | | | | For SLA max_ppm is set to 1000. | +| | | +--------------+--------------------------------------------------------------+ |test tool | pktgen | | | | @@ -41,30 +49,36 @@ Yardstick Test Case Description TC009 | | image. | | | As an example see the /yardstick/tools/ directory for how | | | to generate a Linux image with pktgen included.) | +| | | +--------------+--------------------------------------------------------------+ -|references |https://www.kernel.org/doc/Documentation/networking/pktgen.txt| +|references | pktgen_ | +| | | +| | ETSI-NFV-TST001 | | | | -| |ETSI-NFV-TST001 | +--------------+--------------------------------------------------------------+ |applicability | Test can be configured with different packet sizes, amount | | | of flows and test duration. Default values exist. | | | | -| |SLA (optional): | -| | max_ppm: The number of packets per million packets sent | -| | that are acceptable to lose, i.e. not received. | +| | SLA (optional): max_ppm: The number of packets per million | +| | packets sent that are acceptable to loose, not received. | +| | | +--------------+--------------------------------------------------------------+ |pre-test | The test case image needs to be installed into Glance | |conditions | with pktgen included in it. | | | | | | No POD specific requirements have been identified. | -+--------------+------+----------------------------------+--------------------+ -|test sequence | step | description | result | -| +------+----------------------------------+--------------------+ -| | 1 | The hosts are installed, as | Logs are stored | -| | | server and client. pktgen is | | -| | | invoked and logs are produced | | -| | | and stored. | | -+--------------+------+----------------------------------+--------------------+ +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The hosts are installed, as server and client. pktgen is | +| | invoked and logs are produced and stored. | +| | | +| | Result: logs are stored. | +| | | ++--------------+--------------------------------------------------------------+ |test verdict | Fails only if SLA is not passed, or if there is a test case | | | execution problem. | +| | | +--------------+--------------------------------------------------------------+ diff --git a/docs/yardstick/opnfv_yardstick_tc010.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc010.rst index c2f8eb4e2..ebb74ea30 100644 --- a/docs/yardstick/opnfv_yardstick_tc010.rst +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc010.rst @@ -1,17 +1,23 @@ - ************************************* Yardstick Test Case Description TC010 ************************************* + +.. _man-pages: http://manpages.ubuntu.com/manpages/trusty/lat_mem_rd.8.html + +-----------------------------------------------------------------------------+ |Memory Latency | -+==============+==============================================================+ +| | ++--------------+--------------------------------------------------------------+ |test case id | OPNFV_YARDSTICK_TC010_Memory Latency | +| | | +--------------+--------------------------------------------------------------+ |metric | Latency in nanoseconds | +| | | +--------------+--------------------------------------------------------------+ |test purpose | Measure the memory read latency for varying memory sizes and | | | strides. Whole memory hierarchy is measured including all | | | levels of cache. | +| | | +--------------+--------------------------------------------------------------+ |configuration | File: opnfv_yardstick_tc010.yaml | | | | @@ -21,6 +27,7 @@ Yardstick Test Case Description TC010 | | * Iterations: 10 - test is run 10 times iteratively. | | | * Interval: 1 - there is 1 second delay between each | | | iteration. | +| | | +--------------+--------------------------------------------------------------+ |test tool | Lmbench | | | | @@ -28,38 +35,43 @@ Yardstick Test Case Description TC010 | | test uses lat_mem_rd tool from that suite. | | | Lmbench is not always part of a Linux distribution, hence it | | | needs to be installed in the test image | -| | (See :ref:`guest-image` for how to generate a Linux image | -| | for Glance with Lmbench included). | +| | | +--------------+--------------------------------------------------------------+ -|references |* http://manpages.ubuntu.com/manpages/trusty/lat_mem_rd.8.html| +|references | man-pages_ | +| | | +| | McVoy, Larry W.,and Carl Staelin. "lmbench: Portable Tools | +| | for Performance Analysis." USENIX annual technical | +| | conference 1996. | | | | -| |* McVoy, Larry W., and Carl Staelin. "lmbench: Portable Tools | -| | for Performance Analysis." *USENIX annual technical | -| | conference*. 1996. | +--------------+--------------------------------------------------------------+ -|applicability | Test can be configured with different | -| | * strides; | -| | * stop_size; | -| | * iterations and intervals; | +|applicability | Test can be configured with different: | +| | | +| | * strides; | +| | * stop_size; | +| | * iterations and intervals. | | | | | | There are default values for each above-mentioned option. | | | | -| | * SLA (optional). | -| | max_latency: The maximum memory latency that is | -| | accepted. | +| | SLA (optional) : max_latency: The maximum memory latency | +| | that is accepted. | +| | | +--------------+--------------------------------------------------------------+ |pre-test | The test case image needs to be installed into Glance | |conditions | with Lmbench included in the image. | | | | | | No POD specific requirements have been identified. | -+--------------+------+----------------------------------+--------------------+ -|test sequence | step | description | result | -| +------+----------------------------------+--------------------+ -| | 1 | The host is installed as client. | Logs are stored | -| | | Lmbench's lat_mem_rd tool is | | -| | | invoked and logs are produced and| | -| | | stored. | | -+--------------+------+----------------------------------+--------------------+ +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The host is installed as client. Lmbench's lat_mem_rd tool | +| | is invoked and logs are produced and stored. | +| | | +| | Result: logs are stored. | +| | | ++--------------+--------------------------------------------------------------+ |test verdict | Test fails if the measured memory latency is above the SLA | | | value or if there is a test case execution problem. | +| | | +--------------+--------------------------------------------------------------+ diff --git a/docs/yardstick/opnfv_yardstick_tc012.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc012.rst index b5768c0c5..e7889c14e 100644 --- a/docs/yardstick/opnfv_yardstick_tc012.rst +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc012.rst @@ -2,21 +2,26 @@ Yardstick Test Case Description TC012 ************************************* +.. _man-pages: http://manpages.ubuntu.com/manpages/trusty/bw_mem.8.html + +-----------------------------------------------------------------------------+ |Memory Bandwidth | -+==============+==============================================================+ +| | ++--------------+--------------------------------------------------------------+ |test case id | OPNFV_YARDSTICK_TC012_Memory Bandwidth | +| | | +--------------+--------------------------------------------------------------+ |metric | Megabyte per second (MBps) | +| | | +--------------+--------------------------------------------------------------+ |test purpose | Measure the rate at which data can be read from and written | | | to the memory (this includes all levels of memory). | +| | | +--------------+--------------------------------------------------------------+ |configuration | File: opnfv_yardstick_tc012.yaml | | | | -| | * SLA (optional): 15000 (MBps) | -| | min_bw: The minimum amount of memory bandwidth that is | -| | accepted. | +| | * SLA (optional): 15000 (MBps) min_bw: The minimum amount of | +| | memory bandwidth that is accepted. | | | * Size: 10 240 kB - test allocates twice that size (20 480kB)| | | zeros it and then measures the time it takes to copy from | | | one side to another. | @@ -27,42 +32,50 @@ Yardstick Test Case Description TC012 | | * Iterations: 10 - test is run 10 times iteratively. | | | * Interval: 1 - there is 1 second delay between each | | | iteration. | +| | | +--------------+--------------------------------------------------------------+ |test tool | Lmbench | | | | | | Lmbench is a suite of operating system microbenchmarks. This | | | test uses bw_mem tool from that suite. | | | Lmbench is not always part of a Linux distribution, hence it | -| | needs to be installed in the test image | -| | (See :ref:`guest-image` for how to generate a Linux image | -| | for Glance with Lmbench included). | +| | needs to be installed in the test image. | +| | | +--------------+--------------------------------------------------------------+ -|references | * http://manpages.ubuntu.com/manpages/trusty/bw_mem.8.html | +|references | man-pages_ | +| | | +| | McVoy, Larry W., and Carl Staelin. "lmbench: Portable Tools | +| | for Performance Analysis." USENIX annual technical | +| | conference. 1996. | | | | -| | * McVoy, Larry W., and Carl Staelin. "lmbench: Portable Tools| -| | for Performance Analysis." | -| | * USENIX annual technical conference. 1996. | +--------------+--------------------------------------------------------------+ -|applicability | Test can be configured with different | -| | * memory sizes; | -| | * memory operations (such as rd, wr, rdwr, cp, frd, fwr, | -| | fcp, bzero, bcopy); | -| | * number of warmup iterations; | -| | * iterations and intervals. | +|applicability | Test can be configured with different: | +| | | +| | * memory sizes; | +| | * memory operations (such as rd, wr, rdwr, cp, frd, fwr, | +| | fcp, bzero, bcopy); | +| | * number of warmup iterations; | +| | * iterations and intervals. | | | | | | There are default values for each above-mentioned option. | +| | | +--------------+--------------------------------------------------------------+ |pre-test | The test case image needs to be installed into Glance | |conditions | with Lmbench included in the image. | | | | | | No POD specific requirements have been identified. | -+--------------+------+----------------------------------+--------------------+ -|test sequence | step | description | result | -| +------+----------------------------------+--------------------+ -| | 1 | The host is installed as client. | Logs are stored | -| | | Lmbench's bw_mem tool is invoked | | -| | | and logs are produced and stored.| | -+--------------+------+----------------------------------+--------------------+ +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The host is installed as client. Lmbench's bw_mem tool is | +| | invoked and logs are produced and stored. | +| | | +| | Result: logs are stored. | +| | | ++--------------+--------------------------------------------------------------+ |test verdict | Test fails if the measured memory bandwidth is below the SLA | | | value or if there is a test case execution problem. | +| | | +--------------+--------------------------------------------------------------+ diff --git a/docs/configguide/yardstick_testcases/opnfv_yardstick_tc014.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc014.rst new file mode 100644 index 000000000..68d36ecd2 --- /dev/null +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc014.rst @@ -0,0 +1,69 @@ +************************************* +Yardstick Test Case Description TC014 +************************************* + +.. _unixbench: https://github.com/kdlucas/byte-unixbench/blob/master/UnixBench + ++-----------------------------------------------------------------------------+ +|Processing speed | +| | ++--------------+--------------------------------------------------------------+ +|test case id | OPNFV_YARDSTICK_TC014_Processing speed | +| | | ++--------------+--------------------------------------------------------------+ +|metric | score of single cpu running, score of parallel running | +| | | ++--------------+--------------------------------------------------------------+ +|test purpose | To evaluate the IaaS processing speed with regards to score | +| | of single cpu running and parallel running | +| | The purpose is also to be able to spot trends. Test results, | +| | graphs and similar shall be stored for comparison reasons | +| | and product evolution understanding between different OPNFV | +| | versions and/or configurations. | +| | | ++--------------+--------------------------------------------------------------+ +|configuration | file: opnfv_yardstick_tc014.yaml | +| | | +| | run_mode: Run unixbench in quiet mode or verbose mode | +| | test_type: dhry2reg, whetstone and so on | +| | | +| | For SLA with single_score and parallel_score, both can be | +| | set by user, default is NA | +| | | ++--------------+--------------------------------------------------------------+ +|test tool | unixbench | +| | | +| | (unixbench is not always part of a Linux distribution, hence | +| | it needs to be installed. As an example see the | +| | /yardstick/tools/ directory for how to generate a Linux | +| | image with unixbench included.) | +| | | ++--------------+--------------------------------------------------------------+ +|references | unixbench_ | +| | | +| | ETSI-NFV-TST001 | +| | | ++--------------+--------------------------------------------------------------+ +|applicability | Test can be configured with different test types, dhry2reg, | +| | whetstone and so on. | +| | | ++--------------+--------------------------------------------------------------+ +|pre-test | The test case image needs to be installed into Glance | +|conditions | with unixbench included in it. | +| | | +| | No POD specific requirements have been identified. | +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The hosts are installed, as a client. unixbench is | +| | invoked and logs are produced and stored. | +| | | +| | Result: Logs are stored. | +| | | ++--------------+--------------------------------------------------------------+ +|test verdict | Fails only if SLA is not passed, or if there is a test case | +| | execution problem. | +| | | ++--------------+--------------------------------------------------------------+ diff --git a/docs/configguide/yardstick_testcases/opnfv_yardstick_tc020.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc020.rst new file mode 100644 index 000000000..9a5130f71 --- /dev/null +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc020.rst @@ -0,0 +1,136 @@ +************************************* +Yardstick Test Case Description TC020 +************************************* + +.. _DPDKpktgen: https://github.com/Pktgen/Pktgen-DPDK/ +.. _rfc2544: https://www.ietf.org/rfc/rfc2544.txt + ++-----------------------------------------------------------------------------+ +|Network Performance | +| | ++--------------+--------------------------------------------------------------+ +|test case id | OPNFV_YARDSTICK_TC0020_Virtual Traffic Classifier | +| | Instantiation Test | +| | | ++--------------+--------------------------------------------------------------+ +|metric | Failure | +| | | ++--------------+--------------------------------------------------------------+ +|test purpose | To verify that a newly instantiated vTC is 'alive' and | +| | functional and its instantiation is correctly supported by | +| | the infrastructure. | +| | | ++--------------+--------------------------------------------------------------+ +|configuration | file: opnfv_yardstick_tc020.yaml | +| | | +| | vnic_type: type of VNIC to be used. | +| | Allowed values are: | +| | - normal: for default OvS port configuration | +| | - direct: for SR-IOV port configuration | +| | Default value: None | +| | | +| | vtc_flavor: OpenStack flavor to be used for the vTC | +| | Default available values are: m1.small, m1.medium, | +| | and m1.large, but the user can create his/her own | +| | flavor and give it as input | +| | Default value: None | +| | | +| | vlan_sender: vlan tag of the network on which the vTC will | +| | receive traffic (VLAN Network 1). | +| | Allowed values: range (1, 4096) | +| | | +| | vlan_receiver: vlan tag of the network on which the vTC | +| | will send traffic back to the packet generator | +| | (VLAN Network 2). | +| | Allowed values: range (1, 4096) | +| | | +| | default_net_name: neutron name of the defaul network that | +| | is used for access to the internet from the vTC | +| | (vNIC 1). | +| | | +| | default_subnet_name: subnet name for vNIC1 | +| | (information available through Neutron). | +| | | +| | vlan_net_1_name: Neutron Name for VLAN Network 1 | +| | (information available through Neutron). | +| | | +| | vlan_subnet_1_name: Subnet Neutron name for VLAN Network 1 | +| | (information available through Neutron). | +| | | +| | vlan_net_2_name: Neutron Name for VLAN Network 2 | +| | (information available through Neutron). | +| | | +| | vlan_subnet_2_name: Subnet Neutron name for VLAN Network 2 | +| | (information available through Neutron). | +| | | ++--------------+--------------------------------------------------------------+ +|test tool | DPDK pktgen | +| | | +| | DPDK Pktgen is not part of a Linux distribution, | +| | hence it needs to be installed by the user. | +| | | ++--------------+--------------------------------------------------------------+ +|references | DPDKpktgen_ | +| | | +| | ETSI-NFV-TST001 | +| | | +| | rfc2544_ | +| | | ++--------------+--------------------------------------------------------------+ +|applicability | Test can be configured with different flavors, vNIC type | +| | and packet sizes. Default values exist as specified above. | +| | The vNIC type and flavor MUST be specified by the user. | +| | | ++--------------+--------------------------------------------------------------+ +|pre-test | The vTC has been successfully instantiated and configured. | +| | The user has correctly assigned the values to the deployment | +| | configuration parameters. | +| | | +| | - Multicast traffic MUST be enabled on the network. | +| | The Data network switches need to be configured in | +| | order to manage multicast traffic. | +| | Installation and configuration of smcroute is required | +| | before to run the test case. | +| | (For further instructions please refer to the ApexLake | +| | documentation). | +| | - In the case of SR-IOV vNICs use, SR-IOV compatible NICs | +| | must be used on the compute node. | +| | - Yarsdtick needs to be installed on a host connected to the | +| | data network and the host must have 2 DPDK-compatible | +| | NICs. Proper configuration of DPDK and DPDK pktgen is | +| | required before to run the test case. | +| | (For further instructions please refer to the ApexLake | +| | documentation). | +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | Description and expected results | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The vTC is deployed, according to the configuration provided | +| | by the user. | +| | | ++--------------+--------------------------------------------------------------+ +|step 2 | The vTC is correctly deployed and configured as necessary. | +| | The initialization script has been correctly executed and | +| | the vTC is ready to receive and process the traffic. | +| | | ++--------------+--------------------------------------------------------------+ +|step 3 | Test case is executed with the parameters specified by the | +| | the user: | +| | - vTC flavor | +| | - vNIC type | +| | A constant rate traffic is sent to the vTC for 10 seconds. | +| | | ++--------------+--------------------------------------------------------------+ +|step 4 | The vTC instance tags all the packets and sends them back to | +| | the packet generator for 10 seconds. | +| | | +| | The framework checks that the packet generator receives | +| | back all the packets with the correct tag from the vTC. | +| | | ++--------------+--------------------------------------------------------------+ +|test verdict | The vTC is deemed to be successfully instantiated if all | +| | packets are sent back with the right tag as requested, | +| | else it is deemed DoA (Dead on arrival) | +| | | ++--------------+--------------------------------------------------------------+ diff --git a/docs/configguide/yardstick_testcases/opnfv_yardstick_tc021.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc021.rst new file mode 100644 index 000000000..a493ddfc0 --- /dev/null +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc021.rst @@ -0,0 +1,152 @@ +************************************* +Yardstick Test Case Description TC021 +************************************* + +.. _DPDKpktgen: https://github.com/Pktgen/Pktgen-DPDK/ +.. _rfc2544: https://www.ietf.org/rfc/rfc2544.txt + ++-----------------------------------------------------------------------------+ +|Network Performance | +| | ++--------------+--------------------------------------------------------------+ +|test case id | OPNFV_YARDSTICK_TC0021_Virtual Traffic Classifier | +| | Instantiation Test in Presence of Noisy Neighbours | +| | | ++--------------+--------------------------------------------------------------+ +|metric | Failure | +| | | ++--------------+--------------------------------------------------------------+ +|test purpose | To verify that a newly instantiated vTC is 'alive' and | +| | functional and its instantiation is correctly supported by | +| | the infrastructure in the presence of noisy neighbours. | +| | | ++--------------+--------------------------------------------------------------+ +|configuration | file: opnfv_yardstick_tc021.yaml | +| | | +| | vnic_type: type of VNIC to be used. | +| | Allowed values are: | +| | - normal: for default OvS port configuration | +| | - direct: for SR-IOV port configuration | +| | Default value: None | +| | | +| | vtc_flavor: OpenStack flavor to be used for the vTC | +| | Default available values are: m1.small, m1.medium, | +| | and m1.large, but the user can create his/her own | +| | flavor and give it as input | +| | Default value: None | +| | | +| | num_of_neighbours: Number of noisy neighbours (VMs) to be | +| | instantiated during the experiment. | +| | Allowed values: range (1, 10) | +| | | +| | amount_of_ram: RAM to be used by each neighbor. | +| | Allowed values: ['250M', '1G', '2G', '3G', '4G', '5G', | +| | '6G', '7G', '8G', '9G', '10G'] | +| | Deault value: 256M | +| | | +| | number_of_cores: Number of noisy neighbours (VMs) to be | +| | instantiated during the experiment. | +| | Allowed values: range (1, 10) | +| | Default value: 1 | +| | | +| | vlan_sender: vlan tag of the network on which the vTC will | +| | receive traffic (VLAN Network 1). | +| | Allowed values: range (1, 4096) | +| | | +| | vlan_receiver: vlan tag of the network on which the vTC | +| | will send traffic back to the packet generator | +| | (VLAN Network 2). | +| | Allowed values: range (1, 4096) | +| | | +| | default_net_name: neutron name of the defaul network that | +| | is used for access to the internet from the vTC | +| | (vNIC 1). | +| | | +| | default_subnet_name: subnet name for vNIC1 | +| | (information available through Neutron). | +| | | +| | vlan_net_1_name: Neutron Name for VLAN Network 1 | +| | (information available through Neutron). | +| | | +| | vlan_subnet_1_name: Subnet Neutron name for VLAN Network 1 | +| | (information available through Neutron). | +| | | +| | vlan_net_2_name: Neutron Name for VLAN Network 2 | +| | (information available through Neutron). | +| | | +| | vlan_subnet_2_name: Subnet Neutron name for VLAN Network 2 | +| | (information available through Neutron). | +| | | ++--------------+--------------------------------------------------------------+ +|test tool | DPDK pktgen | +| | | +| | DPDK Pktgen is not part of a Linux distribution, | +| | hence it needs to be installed by the user. | +| | | ++--------------+--------------------------------------------------------------+ +|references | DPDK Pktgen: DPDK Pktgen: DPDKpktgen_ | +| | | +| | ETSI-NFV-TST001 | +| | | +| | RFC 2544: rfc2544_ | +| | | ++--------------+--------------------------------------------------------------+ +|applicability | Test can be configured with different flavors, vNIC type | +| | and packet sizes. Default values exist as specified above. | +| | The vNIC type and flavor MUST be specified by the user. | +| | | ++--------------+--------------------------------------------------------------+ +|pre-test | The vTC has been successfully instantiated and configured. | +| | The user has correctly assigned the values to the deployment | +| | configuration parameters. | +| | | +| | - Multicast traffic MUST be enabled on the network. | +| | The Data network switches need to be configured in | +| | order to manage multicast traffic. | +| | Installation and configuration of smcroute is required | +| | before to run the test case. | +| | (For further instructions please refer to the ApexLake | +| | documentation). | +| | - In the case of SR-IOV vNICs use, SR-IOV compatible NICs | +| | must be used on the compute node. | +| | - Yarsdtick needs to be installed on a host connected to the | +| | data network and the host must have 2 DPDK-compatible | +| | NICs. Proper configuration of DPDK and DPDK pktgen is | +| | required before to run the test case. | +| | (For further instructions please refer to the ApexLake | +| | documentation). | +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | Description and expected results | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The noisy neighbours are deployed as required by the user. | +| | | ++--------------+--------------------------------------------------------------+ +|step 2 | The vTC is deployed, according to the configuration provided | +| | by the user. | +| | | ++--------------+--------------------------------------------------------------+ +|step 3 | The vTC is correctly deployed and configured as necessary. | +| | The initialization script has been correctly executed and | +| | the vTC is ready to receive and process the traffic. | +| | | ++--------------+--------------------------------------------------------------+ +|step 4 | Test case is executed with the selected parameters: | +| | - vTC flavor | +| | - vNIC type | +| | A constant rate traffic is sent to the vTC for 10 seconds. | +| | | ++--------------+--------------------------------------------------------------+ +|step 5 | The vTC instance tags all the packets and sends them back to | +| | the packet generator for 10 seconds. | +| | | +| | The framework checks if the packet generator receives back | +| | all the packets with the correct tag from the vTC. | +| | | ++--------------+--------------------------------------------------------------+ +|test verdict | The vTC is deemed to be successfully instantiated if all | +| | packets are sent back with the right tag as requested, | +| | else it is deemed DoA (Dead on arrival) | +| | | ++--------------+--------------------------------------------------------------+ diff --git a/docs/configguide/yardstick_testcases/opnfv_yardstick_tc027.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc027.rst new file mode 100644 index 000000000..56c8227df --- /dev/null +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc027.rst @@ -0,0 +1,67 @@ +************************************* +Yardstick Test Case Description TC027 +************************************* + +.. _ipv6: https://wiki.opnfv.org/ipv6_opnfv_project + ++-----------------------------------------------------------------------------+ +|IPv6 connectivity between nodes on the tenant network | +| | ++--------------+--------------------------------------------------------------+ +|test case id | OPNFV_YARDSTICK_TC002_IPv6 connectivity | +| | | ++--------------+--------------------------------------------------------------+ +|metric | RTT, Round Trip Time | +| | | ++--------------+--------------------------------------------------------------+ +|test purpose | To do a basic verification that IPv6 connectivity is within | +| | acceptable boundaries when ipv6 packets travel between hosts | +| | located on same or different compute blades. | +| | The purpose is also to be able to spot trends. Test results, | +| | graphs and similar shall be stored for comparison reasons and| +| | product evolution understanding between different OPNFV | +| | versions and/or configurations. | +| | | ++--------------+--------------------------------------------------------------+ +|configuration | file: opnfv_yardstick_tc027.yaml | +| | | +| | Packet size 56 bytes. | +| | SLA RTT is set to maximum 10 ms. | +| | | ++--------------+--------------------------------------------------------------+ +|test tool | ping6 | +| | | +| | Ping6 is normally part of Linux distribution, hence it | +| | doesn't need to be installed. | +| | | ++--------------+--------------------------------------------------------------+ +|references | ipv6_ | +| | | +| | ETSI-NFV-TST001 | +| | | ++--------------+--------------------------------------------------------------+ +|applicability | Test case can be configured with different run step | +| | you can run setup, run benchmakr, teardown independently | +| | SLA is optional. The SLA in this test case serves as an | +| | example. Considerably lower RTT is expected. | +| | | ++--------------+--------------------------------------------------------------+ +|pre-test | The test case image needs to be installed into Glance | +|conditions | with ping6 included in it. | +| | | +| | No POD specific requirements have been identified. | +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The hosts are installed, as server and client. Ping is | +| | invoked and logs are produced and stored. | +| | | +| | Result: Logs are stored. | +| | | ++--------------+--------------------------------------------------------------+ +|test verdict | Test should not PASS if any RTT is above the optional SLA | +| | value, or if there is a test case execution problem. | +| | | ++--------------+--------------------------------------------------------------+ diff --git a/docs/configguide/yardstick_testcases/opnfv_yardstick_tc037.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc037.rst new file mode 100644 index 000000000..5c91f6bf1 --- /dev/null +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc037.rst @@ -0,0 +1,99 @@ +************************************* +Yardstick Test Case Description TC037 +************************************* + +.. _cirros: https://download.cirros-cloud.net +.. _pktgen: https://www.kernel.org/doc/Documentation/networking/pktgen.txt + ++-----------------------------------------------------------------------------+ +|Latency, CPU Load, Throughput, Packet Loss | +| | ++--------------+--------------------------------------------------------------+ +|test case id | OPNFV_YARDSTICK_TC037_Latency,CPU Load,Throughput,Packet Loss| +| | | ++--------------+--------------------------------------------------------------+ +|metric | Number of flows, latency, throughput, CPU load, packet loss | +| | | ++--------------+--------------------------------------------------------------+ +|test purpose | To evaluate the IaaS network performance with regards to | +| | flows and throughput, such as if and how different amounts | +| | of flows matter for the throughput between hosts on different| +| | compute blades. Typically e.g. the performance of a vSwitch | +| | depends on the number of flows running through it. Also | +| | performance of other equipment or entities can depend | +| | on the number of flows or the packet sizes used. | +| | The purpose is also to be able to spot trends. Test results, | +| | graphs ans similar shall be stored for comparison reasons and| +| | product evolution understanding between different OPNFV | +| | versions and/or configurations. | +| | | ++--------------+--------------------------------------------------------------+ +|configuration | file: opnfv_yardstick_tc037.yaml | +| | | +| | Packet size: 64 bytes | +| | Number of ports: 1, 10, 50, 100, 300, 500, 750 and 1000. | +| | The amount configured ports map from 2 up to 1001000 flows, | +| | respectively. Each port amount is run two times, for 20 | +| | seconds each. Then the next port_amount is run, and so on. | +| | During the test CPU load on both client and server, and the | +| | network latency between the client and server are measured. | +| | The client and server are distributed on different HW. | +| | For SLA max_ppm is set to 1000. | +| | | ++--------------+--------------------------------------------------------------+ +|test tool | pktgen | +| | | +| | (Pktgen is not always part of a Linux distribution, hence it | +| | needs to be installed. It is part of the Yardstick Glance | +| | image. | +| | As an example see the /yardstick/tools/ directory for how | +| | to generate a Linux image with pktgen included.) | +| | | +| | ping | +| | | +| | Ping is normally part of any Linux distribution, hence it | +| | doesn't need to be installed. It is also part of the | +| | Yardstick Glance image. | +| | (For example also a cirros_ image can be downloaded, it | +| | includes ping) | +| | | +| | mpstat | +| | | +| | (Mpstat is not always part of a Linux distribution, hence it | +| | needs to be installed. It is part of the Yardstick Glance | +| | image. | +| | | ++--------------+--------------------------------------------------------------+ +|references | Ping and Mpstat man pages | +| | | +| | pktgen_ | +| | | +| | ETSI-NFV-TST001 | +| | | ++--------------+--------------------------------------------------------------+ +|applicability | Test can be configured with different packet sizes, amount | +| | of flows and test duration. Default values exist. | +| | | +| | SLA (optional): max_ppm: The number of packets per million | +| | packets sent that are acceptable to loose, not received. | +| | | ++--------------+--------------------------------------------------------------+ +|pre-test | The test case image needs to be installed into Glance | +|conditions | with pktgen included in it. | +| | | +| | No POD specific requirements have been identified. | +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The hosts are installed, as server and client. pktgen is | +| | invoked and logs are produced and stored. | +| | | +| | Result: Logs are stored. | +| | | ++--------------+--------------------------------------------------------------+ +|test verdict | Fails only if SLA is not passed, or if there is a test case | +| | execution problem. | +| | | ++--------------+--------------------------------------------------------------+ diff --git a/docs/configguide/yardstick_testcases/opnfv_yardstick_tc038.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc038.rst new file mode 100644 index 000000000..93c2cf3d8 --- /dev/null +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc038.rst @@ -0,0 +1,99 @@ +************************************* +Yardstick Test Case Description TC038 +************************************* + +.. _cirros: https://download.cirros-cloud.net +.. _pktgen: https://www.kernel.org/doc/Documentation/networking/pktgen.txt + ++-----------------------------------------------------------------------------+ +|Latency, CPU Load, Throughput, Packet Loss (Extended measurements) | +| | ++--------------+--------------------------------------------------------------+ +|test case id | OPNFV_YARDSTICK_TC038_Latency,CPU Load,Throughput,Packet Loss| +| | | ++--------------+--------------------------------------------------------------+ +|metric | Number of flows, latency, throughput, CPU load, packet loss | +| | | ++--------------+--------------------------------------------------------------+ +|test purpose | To evaluate the IaaS network performance with regards to | +| | flows and throughput, such as if and how different amounts | +| | of flows matter for the throughput between hosts on different| +| | compute blades. Typically e.g. the performance of a vSwitch | +| | depends on the number of flows running through it. Also | +| | performance of other equipment or entities can depend | +| | on the number of flows or the packet sizes used. | +| | The purpose is also to be able to spot trends. Test results, | +| | graphs ans similar shall be stored for comparison reasons and| +| | product evolution understanding between different OPNFV | +| | versions and/or configurations. | +| | | ++--------------+--------------------------------------------------------------+ +|configuration | file: opnfv_yardstick_tc038.yaml | +| | | +| | Packet size: 64 bytes | +| | Number of ports: 1, 10, 50, 100, 300, 500, 750 and 1000. | +| | The amount configured ports map from 2 up to 1001000 flows, | +| | respectively. Each port amount is run ten times, for 20 | +| | seconds each. Then the next port_amount is run, and so on. | +| | During the test CPU load on both client and server, and the | +| | network latency between the client and server are measured. | +| | The client and server are distributed on different HW. | +| | For SLA max_ppm is set to 1000. | +| | | ++--------------+--------------------------------------------------------------+ +|test tool | pktgen | +| | | +| | (Pktgen is not always part of a Linux distribution, hence it | +| | needs to be installed. It is part of the Yardstick Glance | +| | image. | +| | As an example see the /yardstick/tools/ directory for how | +| | to generate a Linux image with pktgen included.) | +| | | +| | ping | +| | | +| | Ping is normally part of any Linux distribution, hence it | +| | doesn't need to be installed. It is also part of the | +| | Yardstick Glance image. | +| | (For example also a cirros_ image can be downloaded, it | +| | includes ping) | +| | | +| | mpstat | +| | | +| | (Mpstat is not always part of a Linux distribution, hence it | +| | needs to be installed. It is part of the Yardstick Glance | +| | image. | +| | | ++--------------+--------------------------------------------------------------+ +|references | Ping and Mpstat man pages | +| | | +| | pktgen_ | +| | | +| | ETSI-NFV-TST001 | +| | | ++--------------+--------------------------------------------------------------+ +|applicability | Test can be configured with different packet sizes, amount | +| | of flows and test duration. Default values exist. | +| | | +| | SLA (optional): max_ppm: The number of packets per million | +| | packets sent that are acceptable to loose, not received. | +| | | ++--------------+--------------------------------------------------------------+ +|pre-test | The test case image needs to be installed into Glance | +|conditions | with pktgen included in it. | +| | | +| | No POD specific requirements have been identified. | +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | The hosts are installed, as server and client. pktgen is | +| | invoked and logs are produced and stored. | +| | | +| | Result: Logs are stored. | +| | | ++--------------+--------------------------------------------------------------+ +|test verdict | Fails only if SLA is not passed, or if there is a test case | +| | execution problem. | +| | | ++--------------+--------------------------------------------------------------+ diff --git a/docs/configguide/yardstick_testcases/opnfv_yardstick_tc040.rst b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc040.rst new file mode 100644 index 000000000..044ccf193 --- /dev/null +++ b/docs/configguide/yardstick_testcases/opnfv_yardstick_tc040.rst @@ -0,0 +1,60 @@ +************************************* +Yardstick Test Case Description TC040 +************************************* + +.. _Parser: https://wiki.opnfv.org/parser + ++-----------------------------------------------------------------------------+ +|Verify Parser Yang-to-Tosca | +| | ++--------------+--------------------------------------------------------------+ +|test case id | OPNFV_YARDSTICK_TC040 Verify Parser Yang-to-Tosca | +| | | ++--------------+--------------------------------------------------------------+ +|metric | 1. tosca file which is converted from yang file by Parser | +| | 2. result whether the output is same with expected outcome | ++--------------+--------------------------------------------------------------+ +|test purpose | To verify the function of Yang-to-Tosca in Parser. | +| | | ++--------------+--------------------------------------------------------------+ +|configuration | file: opnfv_yardstick_tc040.yaml | +| | | +| | yangfile: the path of the yangfile which you want to convert | +| | toscafile: the path of the toscafile which is your expected | +| | outcome. | +| | | ++--------------+--------------------------------------------------------------+ +|test tool | Parser | +| | | +| | (Parser is not part of a Linux distribution, hence it | +| | needs to be installed. As an example see the | +| | /yardstick/benchmark/scenarios/parser/parser_setup.sh for | +| | how to install it manual. Of course, it will be installed | +| | and uninstalled automatically when you run this test case | +| | by yardstick) | ++--------------+--------------------------------------------------------------+ +|references | Parser_ | +| | | +| | | ++--------------+--------------------------------------------------------------+ +|applicability | Test can be configured with different path of yangfile and | +| | toscafile to fit your real environment to verify Parser | +| | | ++--------------+--------------------------------------------------------------+ +|pre-test | No POD specific requirements have been identified. | +|conditions | it can be run without VM | +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | parser is installed without VM, running Yang-to-Tosca module | +| | to convert yang file to tosca file, validating output against| +| | expected outcome. | +| | | +| | Result: Logs are stored. | ++--------------+--------------------------------------------------------------+ +|test verdict | Fails only if output is different with expected outcome | +| | or if there is a test case execution problem. | +| | | ++--------------+--------------------------------------------------------------+ diff --git a/docs/configguide/yardstick_testcases/testcase_description_v2_template.rst b/docs/configguide/yardstick_testcases/testcase_description_v2_template.rst new file mode 100644 index 000000000..1b8754b05 --- /dev/null +++ b/docs/configguide/yardstick_testcases/testcase_description_v2_template.rst @@ -0,0 +1,64 @@ +.. Template to be used for test case descriptions in Yardstick Project. + Write one .rst per test case. + Upload the .rst for the test case in /docs/source/yardstick directory. + Review in Gerrit. + +************************************* +Yardstick Test Case Description TCXXX +************************************* + ++-----------------------------------------------------------------------------+ +|test case slogan e.g. Network Latency | +| | ++--------------+--------------------------------------------------------------+ +|test case id | e.g. OPNFV_YARDSTICK_TC001_NW Latency | +| | | ++--------------+--------------------------------------------------------------+ +|metric | what will be measured, e.g. latency | +| | | ++--------------+--------------------------------------------------------------+ +|test purpose | describe what is the purpose of the test case | +| | | ++--------------+--------------------------------------------------------------+ +|configuration | what .yaml file to use, state SLA if applicable, state | +| | test duration, list and describe the scenario options used in| +| | this TC and also list the options using default values. | +| | | ++--------------+--------------------------------------------------------------+ +|test tool | e.g. ping | +| | | ++--------------+--------------------------------------------------------------+ +|references | e.g. RFCxxx, ETSI-NFVyyy | +| | | ++--------------+--------------------------------------------------------------+ +|applicability | describe variations of the test case which can be | +| | performend, e.g. run the test for different packet sizes | +| | | ++--------------+--------------------------------------------------------------+ +|pre-test | describe configuration in the tool(s) used to perform | +|conditions | the measurements (e.g. fio, pktgen), POD-specific | +| | configuration required to enable running the test | +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | use this to describe tests that require sveveral steps e.g | +| | collect logs. | +| | | +| | Result: what happens in this step e.g. logs collected | +| | | ++--------------+--------------------------------------------------------------+ +|step 2 | remove interface | +| | | +| | Result: interface down. | +| | | ++--------------+--------------------------------------------------------------+ +|step N | what is done in step N | +| | | +| | Result: what happens | +| | | ++--------------+--------------------------------------------------------------+ +|test verdict | expected behavior, or SLA, pass/fail criteria | +| | | ++--------------+--------------------------------------------------------------+ diff --git a/docs/templates/testcase_description_v2_template.rst b/docs/templates/testcase_description_v2_template.rst index da90f561e..1b8754b05 100644 --- a/docs/templates/testcase_description_v2_template.rst +++ b/docs/templates/testcase_description_v2_template.rst @@ -9,37 +9,56 @@ Yardstick Test Case Description TCXXX +-----------------------------------------------------------------------------+ |test case slogan e.g. Network Latency | -+==============+==============================================================+ +| | ++--------------+--------------------------------------------------------------+ |test case id | e.g. OPNFV_YARDSTICK_TC001_NW Latency | +| | | +--------------+--------------------------------------------------------------+ |metric | what will be measured, e.g. latency | +| | | +--------------+--------------------------------------------------------------+ |test purpose | describe what is the purpose of the test case | +| | | +--------------+--------------------------------------------------------------+ |configuration | what .yaml file to use, state SLA if applicable, state | | | test duration, list and describe the scenario options used in| | | this TC and also list the options using default values. | +| | | +--------------+--------------------------------------------------------------+ |test tool | e.g. ping | +| | | +--------------+--------------------------------------------------------------+ |references | e.g. RFCxxx, ETSI-NFVyyy | +| | | +--------------+--------------------------------------------------------------+ |applicability | describe variations of the test case which can be | | | performend, e.g. run the test for different packet sizes | +| | | +--------------+--------------------------------------------------------------+ |pre-test | describe configuration in the tool(s) used to perform | |conditions | the measurements (e.g. fio, pktgen), POD-specific | | | configuration required to enable running the test | -+--------------+------+----------------------------------+--------------------+ -|test sequence | step | description | result | -| +------+----------------------------------+--------------------+ -| | 1 | use this to describe tests that | what happens in | -| | | require several steps e.g. | this step | -| | | step 1 collect logs | e.g. logs collected| -| +------+----------------------------------+--------------------+ -| | 2 | remove interface | interface down | -| +------+----------------------------------+--------------------+ -| | N | what is done in step N | what happens | -+--------------+------+----------------------------------+--------------------+ +| | | ++--------------+--------------------------------------------------------------+ +|test sequence | description and expected result | +| | | ++--------------+--------------------------------------------------------------+ +|step 1 | use this to describe tests that require sveveral steps e.g | +| | collect logs. | +| | | +| | Result: what happens in this step e.g. logs collected | +| | | ++--------------+--------------------------------------------------------------+ +|step 2 | remove interface | +| | | +| | Result: interface down. | +| | | ++--------------+--------------------------------------------------------------+ +|step N | what is done in step N | +| | | +| | Result: what happens | +| | | ++--------------+--------------------------------------------------------------+ |test verdict | expected behavior, or SLA, pass/fail criteria | +| | | +--------------+--------------------------------------------------------------+ diff --git a/docs/user_guides/framework/03-installation.rst b/docs/userguide/yardstick_framework/03-installation.rst index d2cae36b8..31f8a922e 100644 --- a/docs/user_guides/framework/03-installation.rst +++ b/docs/userguide/yardstick_framework/03-installation.rst @@ -92,7 +92,8 @@ via the OpenStack Dashboard. Example command: :: - glance image-create --name yardstick-trusty-server --is-public true \ + glance --os-image-api-version 1 image-create \ + --name yardstick-trusty-server --is-public true \ --disk-format qcow2 --container-format bare \ --file /tmp/workspace/yardstick/yardstick-trusty-server.img diff --git a/docs/user_guides/framework/index.rst b/docs/userguide/yardstick_framework/index.rst index f982c30ff..f982c30ff 100644 --- a/docs/user_guides/framework/index.rst +++ b/docs/userguide/yardstick_framework/index.rst diff --git a/docs/vTC/README.rst b/docs/vTC/README.rst deleted file mode 100644 index ae6fefa59..000000000 --- a/docs/vTC/README.rst +++ /dev/null @@ -1,87 +0,0 @@ -========================== -Virtual Traffic Classifier -========================== - -Overview -======== - -The virtual Traffic Classifier VNF [1], comprises in the current version of -1 VNFC [2]. The VNFC contains both the Traffic Inspection module, and the -Traffic forwarding module, needed to run the VNF. The exploitation of DPI -methods for traffic classification is built around two basic assumptions: - -(i) third parties unaffiliated with either source or recipient are able to -inspect each IP packet’s payload and -(ii) the classifier knows the relevant syntax of each application’s packet -payloads (protocol signatures, data patterns, etc.). - -The proposed DPI based approach will only use an indicative, small number of -the initial packets from each flow in order to identify the content and not -inspect each packet. - -In this respect it follows the Packet Based per Flow State (PBFS). -This method uses a table to track each session based on the 5-tuples -(src address,dest address,src port,dest port,transport protocol) -that is maintained for each flow. - -Concepts -======== - -Traffic Inspection: The process of packet analysis and application -identification of network traffic that passes through the vTC. - -Traffic Forwarding: The process of packet forwarding from an incoming -network interface to a pre-defined outgoing network interface. - -Traffic Rule Application: The process of packet tagging, based on a -predefined set of rules. Packet tagging may include e.g. ToS field -modification. - -Architecture -============ - -The Traffic Inspection module is the most computationally intensive component -of the VNF. It implements filtering and packet matching algorithms in order to -support the enhanced traffic forwarding capability of the VNF. The component -supports a flow table (exploiting hashing algorithms for fast indexing of -flows) and an inspection engine for traffic classification. - -The implementation used for these experiments exploits the nDPI library. -The packet capturing mechanism is implemented using libpcap. When the DPI -engine identifies a new flow, the flow register is updated with the -appropriate information and transmitted across the Traffic Forwarding module, -which then applies any required policy updates. - -The Traffic Forwarding moudle is responsible for routing and packet forwarding. -It accepts incoming network traffic, consults the flow table for classification -information for each incoming flow and then applies pre-defined policies -marking e.g. type of Service/Differentiated Services Code Point (TOS/DSCP) -multimedia traffic for QoS enablement on the forwarded traffic. -It is assumed that the traffic is forwarded using the default policy until it -is identified and new policies are enforced. - -The expected response delay is considered to be negligible,as only a small -number of packets are required to identify each flow. - -Graphical Overview -================== - -Install -======= - -run the build.sh with root privileges - -Run -=== - -sudo ./pfbridge -a eth1 -b eth2 - -Custom Image -============ - -TBD - -Development Environment -======================= - -Ubuntu 14.04 >= VM diff --git a/docs/vTC/abbreviations.rst b/docs/vTC/abbreviations.rst deleted file mode 100644 index a713ee66b..000000000 --- a/docs/vTC/abbreviations.rst +++ /dev/null @@ -1,5 +0,0 @@ -Abbreviations for the virtual Traffic Classifier -================================================ - -[1] VNF - Virtual Network Function -[2] VNFC - Virtual Network Function Component diff --git a/docs/yardstick/index.rst b/docs/yardstick/index.rst deleted file mode 100644 index b14670bdd..000000000 --- a/docs/yardstick/index.rst +++ /dev/null @@ -1,21 +0,0 @@ -====================== -Yardstick Config Guide -====================== - -Test Case Descriptions -====================== - -.. toctree:: - :maxdepth: 1 - - opnfv_yardstick_tc001.rst - opnfv_yardstick_tc002.rst - -Templates -========= - -.. toctree:: - :maxdepth: 1 - - ../templates/Yardstick_task_templates - ../templates/testcase_description_v2_template |