.. This work is licensed under a Creative Commons Attribution 4.0 International License. .. http://creativecommons.org/licenses/by/4.0 .. (c) =================================== OPNFV Barometer Docker User Guide =================================== .. contents:: :depth: 3 :local: The intention of this user guide is to outline how to install and test the Barometer project's docker images. The `OPNFV docker hub `_ contains 5 docker images from the Barometer project: 1. `Collectd docker image `_ 2. `Influxdb docker image `_ 3. `Grafana docker image `_ 4. `Kafka docker image `_ 5. `VES application docker image `_ For description of images please see section `Barometer Docker Images Description`_ For steps to build and run Collectd image please see section `Build and Run Collectd Docker Image`_ For steps to build and run InfluxDB and Grafana images please see section `Build and Run InfluxDB and Grafana Docker Images`_ For steps to build and run VES and Kafka images please see section `Build and Run VES and Kafka Docker Images`_ For overview of running VES application with Kafka please see the `VES Application User Guide `_ Barometer Docker Images Description ----------------------------------- .. Describe the specific features and how it is realised in the scenario in a brief manner .. to ensure the user understand the context for the user guide instructions to follow. Barometer Collectd Image ^^^^^^^^^^^^^^^^^^^^^^^^ The barometer collectd docker image gives you a collectd installation that includes all the barometer plugins. .. note:: The Dockerfile is available in the docker/barometer-collectd directory in the barometer repo. The Dockerfile builds a CentOS 7 docker image. The container MUST be run as a privileged container. Collectd is a daemon which collects system performance statistics periodically and provides a variety of mechanisms to publish the collected metrics. It supports more than 90 different input and output plugins. Input plugins retrieve metrics and publish them to the collectd deamon, while output plugins publish the data they receive to an end point. Collectd also has infrastructure to support thresholding and notification. Collectd docker image has enabled the following collectd plugins (in addition to the standard collectd plugins): * hugepages plugin * Open vSwitch events Plugin * Open vSwitch stats Plugin * mcelog plugin * PMU plugin * RDT plugin * virt * SNMP Agent * Kafka_write plugin Plugins and third party applications in Barometer repository that will be available in the docker image: * Open vSwitch PMD stats * ONAP VES application * gnocchi plugin * aodh plugin * Legacy/IPMI InfluxDB + Grafana Docker Images ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ The Barometer project's InfluxDB and Grafana docker images are 2 docker images that database and graph statistics reported by the Barometer collectd docker. InfluxDB is an open-source time series database tool which stores the data from collectd for future analysis via Grafana, which is a open-source metrics anlytics and visualisation suite which can be accessed through any browser. VES + Kafka Docker Images ^^^^^^^^^^^^^^^^^^^^^^^^^ The Barometer project's VES application and Kafka docker images are based on a CentOS 7 image. Kafka docker image has a dependancy on `Zookeeper `_. Kafka must be able to connect and register with an instance of Zookeeper that is either running on local or remote host. Kafka recieves and stores metrics recieved from Collectd. VES application pulls latest metrics from Kafka which it normalizes into VES format for sending to a VES collector. Please see details in `VES Application User Guide `_ Installing Docker ----------------- .. Describe the specific capabilities and usage for feature. .. Provide enough information that a user will be able to operate the feature on a deployed scenario. On Ubuntu ^^^^^^^^^^ .. note:: * sudo permissions are required to install docker. * These instructions are for Ubuntu 16.10 To install docker: .. code:: bash $ sudo apt-get install curl $ sudo curl -fsSL https://get.docker.com/ | sh $ sudo usermod -aG docker $ sudo systemctl status docker Replace above with an appropriate user name. On CentOS ^^^^^^^^^^ .. note:: * sudo permissions are required to install docker. * These instructions are for CentOS 7 To install docker: .. code:: bash $ sudo yum remove docker docker-common docker-selinux docker-engine $ sudo yum install -y yum-utils device-mapper-persistent-data lvm2 $ sudo yum-config-manager --add-repo https://download.docker.com/linux/centos/docker-ce.repo $ sudo yum-config-manager --enable docker-ce-edge $ sudo yum-config-manager --enable docker-ce-test $ sudo yum install docker-ce $ sudo usermod -aG docker $ sudo systemctl status docker Replace above with an appropriate user name. .. note:: If this is the first time you are installing a package from a recently added repository, you will be prompted to accept the GPG key, and the key’s fingerprint will be shown. Verify that the fingerprint is correct, and if so, accept the key. The fingerprint should match060A 61C5 1B55 8A7F 742B 77AA C52F EB6B 621E 9F35. Retrieving key from https://download.docker.com/linux/centos/gpg Importing GPG key 0x621E9F35: Userid : "Docker Release (CE rpm) " Fingerprint: 060a 61c5 1b55 8a7f 742b 77aa c52f eb6b 621e 9f35 From : https://download.docker.com/linux/centos/gpg Is this ok [y/N]: y Proxy Configuration: ^^^^^^^^^^^^^^^^^^^^ .. note:: This applies for both CentOS and Ubuntu. If you are behind an HTTP or HTTPS proxy server, you will need to add this configuration in the Docker systemd service file. 1. Create a systemd drop-in directory for the docker service: .. code:: bash $ sudo mkdir -p /etc/systemd/system/docker.service.d 2. Create a file called /etc/systemd/system/docker.service.d/http-proxy.conf that adds the HTTP_PROXY environment variable: .. code:: bash [Service] Environment="HTTP_PROXY=http://proxy.example.com:80/" Or, if you are behind an HTTPS proxy server, create a file called /etc/systemd/system/docker.service.d/https-proxy.conf that adds the HTTPS_PROXY environment variable: .. code:: bash [Service] Environment="HTTPS_PROXY=https://proxy.example.com:443/" Or create a single file with all the proxy configurations: /etc/systemd/system/docker.service.d/proxy.conf .. code:: bash [Service] Environment="HTTP_PROXY=http://proxy.example.com:80/" Environment="HTTPS_PROXY=https://proxy.example.com:443/" Environment="FTP_PROXY=ftp://proxy.example.com:443/" Environment="NO_PROXY=localhost" 3. Flush changes: .. code:: bash $ sudo systemctl daemon-reload 4. Restart Docker: .. code:: bash $ sudo systemctl restart docker 5. Check docker environment variables: .. code:: bash sudo systemctl show --property=Environment docker Test docker installation ^^^^^^^^^^^^^^^^^^^^^^^^ .. note:: This applies for both CentOS and Ubuntu. .. code:: bash $ sudo docker run hello-world The output should be something like: .. code:: bash Unable to find image 'hello-world:latest' locally latest: Pulling from library/hello-world 5b0f327be733: Pull complete Digest: sha256:07d5f7800dfe37b8c2196c7b1c524c33808ce2e0f74e7aa00e603295ca9a0972 Status: Downloaded newer image for hello-world:latest Hello from Docker! This message shows that your installation appears to be working correctly. To generate this message, Docker took the following steps: 1. The Docker client contacted the Docker daemon. 2. The Docker daemon pulled the "hello-world" image from the Docker Hub. 3. The Docker daemon created a new container from that image which runs the executable that produces the output you are currently reading. 4. The Docker daemon streamed that output to the Docker client, which sent it to your terminal. To try something more ambitious, you can run an Ubuntu container with: .. code:: bash $ docker run -it ubuntu bash Build and Run Collectd Docker Image ----------------------------------- Download the collectd docker image ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ If you wish to use a pre-built barometer image, you can pull the barometer image from https://hub.docker.com/r/opnfv/barometer-collectd/ .. code:: bash $ docker pull opnfv/barometer-collectd Build the collectd docker image ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ .. code:: bash $ git clone https://gerrit.opnfv.org/gerrit/barometer $ cd barometer/docker/barometer-collectd $ sudo docker build -t opnfv/barometer-collectd --build-arg http_proxy=`echo $http_proxy` \ --build-arg https_proxy=`echo $https_proxy` -f Dockerfile . .. note:: In the above mentioned ``docker build`` command, http_proxy & https_proxy arguments needs to be passed only if system is behind an HTTP or HTTPS proxy server. Check the docker images: .. code:: bash $ sudo docker images Output should contain a barometer-collectd image: .. code:: REPOSITORY TAG IMAGE ID CREATED SIZE opnfv/barometer-collectd latest 05f2a3edd96b 3 hours ago 1.2GB centos 7 196e0ce0c9fb 4 weeks ago 197MB centos latest 196e0ce0c9fb 4 weeks ago 197MB hello-world latest 05a3bd381fc2 4 weeks ago 1.84kB Run the collectd docker image ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ .. code:: bash $ sudo docker run -tid --net=host -v `pwd`/../src/collectd_sample_configs:/opt/collectd/etc/collectd.conf.d \ -v /var/run:/var/run -v /tmp:/tmp --privileged opnfv/barometer-collectd /run_collectd.sh .. note:: The docker collectd image contains configuration for all the collectd plugins. In the command above we are overriding /opt/collectd/etc/collectd.conf.d by mounting a host directory `pwd`/../src/collectd_sample_configs that contains only the sample configurations we are interested in running. *It's important to do this if you don't have DPDK, or RDT installed on the host*. Sample configurations can be found at: https://github.com/opnfv/barometer/tree/master/src/collectd/collectd_sample_configs To make some changes when the container is running run: .. code:: bash sudo docker exec -ti opnfv/barometer-collectd /bin/bash Check your docker image is running .. code:: bash sudo docker ps Build and Run InfluxDB and Grafana docker images ------------------------------------------------ Overview ^^^^^^^^ The barometer-influxdb image is based on the influxdb:1.3.7 image from the influxdb dockerhub. To view detils on the base image please visit `https://hub.docker.com/_/influxdb/ `_ Page includes details of exposed ports and configurable enviromental variables of the base image. The barometer-grafana image is based on grafana:4.6.3 image from the grafana dockerhub. To view details on the base image please visit `https://hub.docker.com/r/grafana/grafana/ `_ Page includes details on exposed ports and configurable enviromental variables of the base image. The barometer-grafana image includes pre-configured source and dashboards to display statistics exposed by the barometer-collectd image. The default datasource is an influxdb database running on localhost but the address of the influxdb server can be modified when launching the image by setting the environmental variables influxdb_host to IP or hostname of host on which influxdb server is running. Additional dashboards can be added to barometer-grafana by mapping a volume to /opt/grafana/dashboards. Incase where a folder is mounted to this volume only files included in this folder will be visible inside barometer-grafana. To ensure all default files are also loaded please ensure they are included in volume folder been mounted. Appropriate example are given in section `Run the Grafana docker image`_ Download the InfluxDB and Grafana docker images ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ If you wish to use pre-built barometer project's influxdb and grafana images, you can pull the images from https://hub.docker.com/r/opnfv/barometer-influxdb/ and https://hub.docker.com/r/opnfv/barometer-grafana/ .. note:: If your preference is to build images locally please see sections `Build InfluxDB Docker Image`_ and `Build Grafana Docker Image`_ .. code:: bash $ docker pull opnfv/barometer-influxdb $ docker pull opnfv/barometer-grafana .. note:: If you have pulled the pre-built barometer-influxdb and barometer-grafana images there is no requirement to complete steps outlined in sections `Build InfluxDB Docker Image`_ and `Build Grafana Docker Image`_ and you can proceed directly to section `Run the Influxdb and Grafana Images`_ If you wish to run the barometer-influxdb and barometer-grafana images via Docker Compose proceed directly to section `Docker Compose`_. Build InfluxDB docker image ^^^^^^^^^^^^^^^^^^^^^^^^^^^ Build influxdb image from Dockerfile .. code:: bash $ cd barometer/docker/barometer-influxdb $ sudo docker build -t opnfv/barometer-influxdb --build-arg http_proxy=`echo $http_proxy` \ --build-arg https_proxy=`echo $https_proxy` -f Dockerfile . .. note:: In the above mentioned ``docker build`` command, http_proxy & https_proxy arguments needs to be passed only if system is behind an HTTP or HTTPS proxy server. Check the docker images: .. code:: bash $ sudo docker images Output should contain an influxdb image: .. code:: REPOSITORY TAG IMAGE ID CREATED SIZE opnfv/barometer-influxdb latest 1e4623a59fe5 3 days ago 191MB Build Grafana docker image ^^^^^^^^^^^^^^^^^^^^^^^^^^ Build Grafana image from Dockerfile .. code:: bash $ cd barometer/docker/barometer-grafana $ sudo docker build -t opnfv/barometer-grafana --build-arg http_proxy=`echo $http_proxy` \ --build-arg https_proxy=`echo $https_proxy` -f Dockerfile . .. note:: In the above mentioned ``docker build`` command, http_proxy & https_proxy arguments needs to be passed only if system is behind an HTTP or HTTPS proxy server. Check the docker images: .. code:: bash $ sudo docker images Output should contain an influxdb image: .. code:: REPOSITORY TAG IMAGE ID CREATED SIZE opnfv/barometer-grafana latest 05f2a3edd96b 3 hours ago 1.2GB Run the Influxdb and Grafana Images ----------------------------------- Run the InfluxDB docker image ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ .. code:: bash $ sudo docker run -tid --net=host -v /var/lib/influxdb:/var/lib/influxdb -p 8086:8086 -p 25826:25826 opnfv/barometer-influxdb To make some changes when the container is running run: .. code:: bash sudo docker exec -ti opnfv/barometer-influxdb /bin/bash Check your docker image is running .. code:: bash sudo docker ps Run the Grafana docker image ^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Connecting to an influxdb instance running on local system and adding own custom dashboards .. code:: bash $ sudo docker run -tid --net=host -v /var/lib/grafana:/var/lib/grafana -v ${PWD}/dashboards:/opt/grafana/dashboards \ -p 3000:3000 opnfv/barometer-grafana Connecting to an influxdb instance running on remote system with hostname of someserver and IP address of 192.168.121.111 .. code:: bash $ sudo docker run -tid --net=host -v /var/lib/grafana:/var/lib/grafana -p 3000:3000 -e \ influxdb_host=someserver --add-host someserver:192.168.121.111 opnfv/barometer-grafana To make some changes when the container is running run: .. code:: bash sudo docker exec -ti opnfv/barometer-grafana /bin/bash Check your docker image is running .. code:: bash sudo docker ps Connect to :3000 with a browser and log into grafana: admin/admin Build and Run VES and Kafka Docker Images ------------------------------------------ Download VES and Kafka docker images ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ If you wish to use pre-built barometer project's VES and kafka images, you can pull the images from https://hub.docker.com/r/opnfv/barometer-ves/ and https://hub.docker.com/r/opnfv/barometer-kafka/ .. note:: If your preference is to build images locally please see sections `Build the Kafka Image`_ and `Build VES Image`_ .. code:: bash $ docker pull opnfv/barometer-kafka $ docker pull opnfv/barometer-ves .. note:: If you have pulled the pre-built images there is no requirement to complete steps outlined in sections `Build Kafka Docker Image`_ and `Build VES Docker Image`_ and you can proceed directly to section `Run Kafka Docker Image`_ If you wish to run the docker images via Docker Compose proceed directly to section `Docker Compose`_. Build Kafka docker image ^^^^^^^^^^^^^^^^^^^^^^^^ Build Kafka docker image: .. code:: bash $ cd barometer/docker/barometer-kafka $ sudo docker build -t opnfv/barometer-kafka --build-arg http_proxy=`echo $http_proxy` \ --build-arg https_proxy=`echo $https_proxy` -f Dockerfile . .. note:: In the above mentioned ``docker build`` command, http_proxy & https_proxy arguments needs to be passed only if system is behind an HTTP or HTTPS proxy server. Check the docker images: .. code:: bash $ sudo docker images Output should contain a barometer image: .. code:: REPOSITORY TAG IMAGE ID CREATED SIZE opnfv/barometer-kafka latest 05f2a3edd96b 3 hours ago 1.2GB Build VES docker image ^^^^^^^^^^^^^^^^^^^^^^ Build VES application docker image: .. code:: bash $ cd barometer/docker/barometer-ves $ sudo docker build -t opnfv/barometer-ves --build-arg http_proxy=`echo $http_proxy` \ --build-arg https_proxy=`echo $https_proxy` -f Dockerfile . .. note:: In the above mentioned ``docker build`` command, http_proxy & https_proxy arguments needs to be passed only if system is behind an HTTP or HTTPS proxy server. Check the docker images: .. code:: bash $ sudo docker images Output should contain a barometer image: .. code:: REPOSITORY TAG IMAGE ID CREATED SIZE opnfv/barometer-ves latest 05f2a3edd96b 3 hours ago 1.2GB Run Kafka docker image ^^^^^^^^^^^^^^^^^^^^^^ .. note:: Before running Kafka an instance of Zookeeper must be running for the Kafka broker to register with. Zookeeper can be running locally or on a remote platform. Kafka's broker_id and address of its zookeeper instance can be configured by setting values for environmental variables 'broker_id' and 'zookeeper_node'. In instance where 'broker_id' and/or 'zookeeper_node' is not set the default setting of broker_id=0 and zookeeper_node=localhost is used. In intance where Zookeeper is running on same node as Kafka and there is a one to one relationship between Zookeeper and Kafka, default setting can be used. The docker argument `add-host` adds hostname and IP address to /etc/hosts file in container Run zookeeper docker image: .. code:: bash $ sudo docker run -tid --net=host -p 2181:2181 31z4/zookeeper Run kafka docker image which connects with a zookeeper instance running on same node with a 1:1 relationship .. code:: bash $ sudo docker run -tid --net=host opnfv/barometer_image Run kafka docker image which connects with a zookeeper instance running on a node with IP address of 192.168.121.111 using broker ID of 1 .. code:: bash $ sudo docker run -tid --net=host --env broker_id=1 --env zookeeper_node=zookeeper --add-host \ zookeeper:192.168.121.111 opnfv/barometer_image Run VES Application docker image ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ .. note:: VES application uses configuration file ves_app_config.conf from directory barometer/3rd_party/collectd-ves-app/ves_app/config/ and host.yaml file from barometer/3rd_party/collectd-ves-app/ves_app/yaml/ by default. If you wish to use a custom config file it should be mounted to mount point /opt/ves/config/ves_app_config.conf. To use an alternative yaml file from folder barometer/3rd_party/collectd-ves-app/ves_app/yaml the name of the yaml file to use should be passed as an additional command. If you wish to use a custom file the file should be mounted to mount point /opt/ves/yaml/ Please see examples below Run VES docker image with default configuration .. code:: bash $ sudo docker run -tid --net=host opnfv/barometer-ves Run VES docker image with guest.yaml files from barometer/3rd_party/collectd-ves-app/ves_app/yaml/ .. code:: bash $ sudo docker run -tid --net=host opnfv/barometer-ves guest.yaml Run VES docker image with using custom config and yaml files. In example below yaml/ folder cotains file named custom.yaml .. code:: bash $ sudo docker run -tid --net=host -v ${PWD}/custom.config:/opt/ves/config/ves_app_config.conf \ -v ${PWD}/yaml/:/opt/ves/yaml/ opnfv/barometer-ves custom.yaml Docker Compose -------------- Install docker-compose ^^^^^^^^^^^^^^^^^^^^^^ On the node where you want to run influxdb + grafana or the node where you want to run the VES app zookeeper and Kafka containers together: .. note:: The default configuration for all these containers is to run on the localhost. If this is not the model you want to use then please make the appropriate configuration changes before launching the docker containers. 1. Start by installing docker compose .. code:: bash $ sudo curl -L https://github.com/docker/compose/releases/download/1.17.0/docker-compose-`uname -s`-`uname -m` -o /usr/bin/docker-compose .. note:: Use the latest Compose release number in the download command. The above command is an example, and it may become out-of-date. To ensure you have the latest version, check the Compose repository release page on GitHub. 2. Apply executable permissions to the binary: .. code:: bash $ sudo chmod +x /usr/bin/docker-compose 3. Test the installation. .. code:: bash $ sudo docker-compose --version Run the InfluxDB and Grafana containers using docker compose ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Launch containers: .. code:: bash $ cd barometer/docker/compose/influxdb-grafana/ $ sudo docker-compose up -d Check your docker images are running .. code:: bash $ sudo docker ps Connect to :3000 with a browser and log into grafana: admin/admin Run the Kafka, zookeeper and VES containers using docker compose ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Launch containers: .. code:: bash $ cd barometer/docker/compose/ves/ $ sudo docker-compose up -d Check your docker images are running .. code:: bash $ sudo docker ps Testing the docker image ^^^^^^^^^^^^^^^^^^^^^^^^ TODO References ^^^^^^^^^^^ .. [1] https://docs.docker.com/engine/admin/systemd/#httphttps-proxy .. [2] https://docs.docker.com/engine/installation/linux/docker-ce/centos/#install-using-the-repository .. [3] https://docs.docker.com/engine/userguide/