diff options
Diffstat (limited to 'docs/testing/user')
-rw-r--r-- | docs/testing/user/configguide/configuration.rst | 98 | ||||
-rw-r--r-- | docs/testing/user/userguide/qpi-compute.rst | 100 |
2 files changed, 103 insertions, 95 deletions
diff --git a/docs/testing/user/configguide/configuration.rst b/docs/testing/user/configguide/configuration.rst index 78e96492..8cc891f0 100644 --- a/docs/testing/user/configguide/configuration.rst +++ b/docs/testing/user/configguide/configuration.rst @@ -18,66 +18,52 @@ to configure OPNFV with this specific installer Installing QTIP using Docker ============================ +QTIP docker image +----------------- + QTIP has a Docker images on the docker hub. Pulling opnfv/qtip docker image from docker hub: :: - docker pull opnfv/qtip + docker pull opnfv/qtip:stable -Verify that opnfv/qtip has been downloaded. It should be listed as an image by +Verify that ``opnfv/qtip`` has been downloaded. It should be listed as an image by running the following command. :: docker images -Make dir to store the QTIP image which will be used to create vm in cloud. -:: - - mkdir $HOME/imgstore -Run and enter the Docker instance: -:: - envs="INSTALLER_TYPE={INSTALLER_TYPE} -e INSTALLER_IP={INSTALLER_IP} --e NODE_NAME={NODE_NAME}" - docker run --name qtip -id -e $envs -v "$HOME/imgstore:/home/opnfv/imgstore" opnfv/qtip - docker exec -i -t qtip /bin/bash +Run and enter the docker instance +--------------------------------- -Now you are in the container and QTIP can be found in the /repos/qtip and can -be navigated to using the following command. +1. If you want to run benchmarks: :: - cd repos/qtip - - -OpenStack parameters and credentials -==================================== + envs="INSTALLER_TYPE={INSTALLER_TYPE} -e INSTALLER_IP={INSTALLER_IP}" + docker run --name qtip -id -e $envs opnfv/qtip + docker exec -i -t qtip /bin/bash +``INSTALLER_TYPE`` should be one of OPNFV installer, e.g. apex, compass, daisy, fuel +and joid. Currenty, QTIP only supports installer fuel. -Environment variables ---------------------- +``INSTALLER_IP`` is the ip address of the installer that can be accessed by QTIP. -Before running QTIP it is necessary to export OpenStack environment variables -from the OpenStack *openrc* file. This can be done by running the following -command. +2. If you do not want to run any benchmarks: :: - source scripts/get_env_info.sh -n {INSTALLER_TYPE} -i {INSTALLER_IP} - source opnfv-creds.sh - -This provides a ``opnfv-creds.sh`` file which can be sources to get the -environment variables. - - -QTIP default key pair ----------------------- + docker run --name qtip -id opnfv/qtip + docker exec -i -t qtip /bin/bash -QTIP uses a SSH key pair to connect to the guest image. You should generate key pair -before running QTIP test. And put key pair in the ``config/`` directory. +Now you are in the container and QTIP can be found in the ``/repos/qtip`` and can +be navigated to using the following command. :: - ssh-keygen -t rsa -N "" -f config/QtipKey -q + cd repos/qtip +Environment configuration +========================= Hardware configuration ---------------------- @@ -91,46 +77,14 @@ Jumphost configuration Installer Docker on Jumphost, which is used for running Qtip image. -The first step is to install docker: -:: +You can refer to these links: - sudo apt-key adv --keyserver hkp://p80.pool.sks-keyservers.net:80 - --recv-keys 58118E89F3A912897C070ADBF76221572C52609D - - -Add an entry for your Ubuntu operating system: -:: - - Open the /etc/apt/sources.list.d/docker.list file in your favorite editor. - -If the file doesn’t exist, create it. - -Remove any existing entries. - -Add an entry for your Ubuntu operating system. - -On Ubuntu Trusty 14.04 (LTS) -:: - - deb https://apt.dockerproject.org/repo ubuntu-trusty main - -Update the package manager -:: - - sudo apt-get update - -Install Docker: -:: - - sudo apt-get install docker-engine - -Starting Docker Daemon: -:: +Ubuntu: https://docs.docker.com/engine/installation/linux/ubuntu/ - sudo service docker start +Centos: https://docs.docker.com/engine/installation/linux/centos/ Platform components configuration --------------------------------- -Describe the configuration of each component in the installer +Describe the configuration of each component in the installer. diff --git a/docs/testing/user/userguide/qpi-compute.rst b/docs/testing/user/userguide/qpi-compute.rst index 369240c9..d64925bd 100644 --- a/docs/testing/user/userguide/qpi-compute.rst +++ b/docs/testing/user/userguide/qpi-compute.rst @@ -4,24 +4,69 @@ .. (c) 2016 ZTE Corp. -Compute Suite -============= +Compute QPI +=========== Introduction ------------ -The QTIP testing suite aims to benchmark the compute components of an OPNFV platform. +The compute QPI aims to benchmark the compute components of an OPNFV platform. Such components include, the CPU performance, the memory performance. -Additionally virtual computing performance provided by the Hypervisor (KVM) installed as part of OPNFV platforms would be benchmarked too. -The test suite consists of both synthetic and application specific benchmarks to test compute components. +The compute QPI consists of both synthetic and application specific benchmarks to +test compute components. -All the compute benchmarks could be run in 2 scenarios: +All the compute benchmarks could be run in the scenario: +On Baremetal Machines provisioned by an OPNFV installer (Host machines) -1. On Baremetal Machines provisioned by an OPNFV installer (Host machines) -2. On Virtual Machines brought up through OpenStack on an OPNFV platform +Note: The Compute benchmank constains relatively old benchmarks such as dhrystone +and whetstone. The suite would be updated for better benchmarks such as Linbench for +the OPNFV E release. -Note: The Compute benchmank suite constains relatively old benchmarks such as dhrystone and whetstone. The suite would be updated for better benchmarks such as Linbench for the OPNFV C release. +Getting start with compute QPI +------------------------------ + +Notice: All descriptions are based on QTIP container. + +Inventory File +^^^^^^^^^^^^^^ + +QTIP uses Ansible to trigger benchmark test. Ansible uses an inventory file to +determine what hosts to work against. QTIP can automatically generate a inventory +file via OPNFV installer. Users also can write their own inventory infomation into +``/home/opnfv/qtip/hosts``. This file is just a text file containing a list of host +IP addresses. For example: +:: + + [hosts] + 10.20.0.11 + 10.20.0.12 + +QTIP key Pair +^^^^^^^^^^^^^ + +QTIP use a SSH key pair to connect to remote hosts. When users execute compute QPI, +QTIP will generate a key pair named *QtipKey* under ``/home/opnfv/qtip/`` and pass +public key to remote hosts. + +If environment variable *CI_DEBUG* is set to *true*, users should delete it by +manual. If *CI_DEBUG* is not set or set to *false*, QTIP will delete the key from +remote hosts before the execution ends. Please make sure the key deleted from remote +hosts or it can introduce a security flaw. + +Commands to run compute QPI +^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +In a QTIP container, you can run compute QPI by using QTIP CLI: +:: + + mkdir result + qtip plan run <plan_name> -p $PWD/result + +QTIP generates results in the ``$PWD/result`` directory are listed down under the +timestamp name. + +you can get more details from *userguide/cli.rst*. Benchmarks ---------- @@ -31,13 +76,15 @@ The benchmarks include: Dhrystone 2.1 ^^^^^^^^^^^^^ -Dhrystone is a synthetic benchmark for measuring CPU performance. It uses integer calculations to evaluate CPU capabilities. -Both Single CPU performance is measured along multi-cpu performance. +Dhrystone is a synthetic benchmark for measuring CPU performance. It uses integer +calculations to evaluate CPU capabilities. Both Single CPU performance is measured +along multi-cpu performance. Dhrystone, however, is a dated benchmark and has some short comings. Written in C, it is a small program that doesn't test the CPU memory subsystem. -Additionally, dhrystone results could be modified by optimizing the compiler and insome cases hardware configuration. +Additionally, dhrystone results could be modified by optimizing the compiler and +insome cases hardware configuration. References: http://www.eembc.org/techlit/datasheets/dhrystone_wp.pdf @@ -56,7 +103,9 @@ http://www.netlib.org/benchmark/whetstone.c OpenSSL Speed ^^^^^^^^^^^^^ -OpenSSL Speed can be used to benchmark compute performance of a machine. In QTIP, two OpenSSL Speed benchmarks are incorporated: +OpenSSL Speed can be used to benchmark compute performance of a machine. In QTIP, +two OpenSSL Speed benchmarks are incorporated: + 1. RSA signatunes/sec signed by a machine 2. AES 128-bit encryption throughput for a machine for cipher block sizes @@ -67,8 +116,9 @@ https://www.openssl.org/docs/manmaster/apps/speed.html RAMSpeed ^^^^^^^^ -RAMSpeed is used to measure a machine's memory perfomace. -The problem(array)size is large enough to ensure Cache Misses so that the main machine memory is used. +RAMSpeed is used to measure a machine's memory perfomace. The problem(array)size is +large enough to ensure Cache Misses so that the main machine memory is used. + INTmem and FLOATmem benchmarks are executed in 4 different scenarios: a. Copy: a(i)=b(i) @@ -76,7 +126,8 @@ b. Add: a(i)=b(i)+c(i) c. Scale: a(i)=b(i)*d d. Tniad: a(i)=b(i)+c(i)*d -INTmem uses integers in these four benchmarks whereas FLOATmem uses floating points for these benchmarks. +INTmem uses integers in these four benchmarks whereas FLOATmem uses floating points +for these benchmarks. References: @@ -87,15 +138,18 @@ https://www.ibm.com/developerworks/community/wikis/home?lang=en#!/wiki/W51a7ffcf DPI ^^^ -nDPI is a modified variant of OpenDPI, Open source Deep packet Inspection, that is maintained by ntop. -An example application called *pcapreader* has been developed and is available for use along nDPI. +nDPI is a modified variant of OpenDPI, Open source Deep packet Inspection, that +is maintained by ntop. An example application called *pcapreader* has been developed +and is available for use along nDPI. -A sample .pcap file is passed to the *pcapreader* application. -nDPI classifies traffic in the pcap file into different categories based on string matching. -The *pcapreader* application provides a throughput number for the rate at which traffic was classified, indicating a machine's computational performance. -The results are run 10 times and an average is taken for the obtained number. +A sample .pcap file is passed to the *pcapreader* application. nDPI classifies traffic +in the pcap file into different categories based on string matching. The *pcapreader* +application provides a throughput number for the rate at which traffic was classified, +indicating a machine's computational performance. The results are run 10 times and an +average is taken for the obtained number. -*nDPI may provide non consistent results and was added to Brahmaputra for experimental purposes* +*nDPI may provide non consistent results and was added to Brahmaputra for experimental +purposes* References: |