<!--
-Copyright 2020 ETSI
+Copyright ETSI
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
## Prerequisites
-* **Robot Framework**
-* **Packages**: ssh ping yq git
-* **Python3 packages**: haikunator requests robotframework robotframework-seleniumlibrary robotframework-requests robotframework-jsonlibrary robotframework-sshlibrary
-* Clone **osm-packages** from gitlab
-* Environment config file for your infrastructure [envfile.rc]
+- OSM running
+- VIM already registered in OSM
+- K8s cluster already registered in OSM (for tests involving a K8s cluster)
-## Installing
+## Quickstart (run tests using docker)
-This bash script can be used to setup your environment to execute the tests.
+### Configure the environment file
+
+```
+export OSM_HOSTNAME=<OSM_IP_ADDRESS>
+export VIM_TARGET=<VIM_REGISTERED_AT_OSM>
+export VIM_MGMT_NET=<NAME_OF_THE_MGMT_NETWORK_IN_THE_VIM>
+export K8S_CREDENTIALS= # path to the kubeconfig file of the K8s cluster to be tested
+export OS_CLOUD= # OpenStack Cloud defined in $HOME/.config/openstack/clouds.yaml or in /etc/openstack/clouds.yaml
+```
+
+### Create the docker container
```bash
-PACKAGES_FOLDER=osm-packages
-add-apt-repository -y ppa:rmescandon/yq && apt update && apt install yq git iputils-ping ssh -y
-pip install haikunator requests robotframework robotframework-seleniumlibrary robotframework-requests robotframework-jsonlibrary \
- robotframework-sshlibrary
-snap install charm
-# Download community packages
-git clone https://osm.etsi.org/gitlab/vnf-onboarding/osm-packages.git ${PACKAGES_FOLDER}
+docker build -f docker/Dockerfile -t osmtests .
```
-envfile.rc
+### Run the tests
```bash
-# VIM Setup
-OS_USERNAME=<openstack_username>
-OS_PASSWORD=<openstack_password>
-OS_TENANT_NAME=<openstack_tenant_name>
-OS_AUTH_URL=<openstack_authorization_url>
-OS_TENANT_ID=<openstack_tenant_id>
+docker run --rm=true --name tests -t --env-file envconfig.rc \
+ -v ~/.config/openstack/clouds.yaml:/etc/openstack/clouds.yaml \
+ -v ~/tests/reports:/robot-systest/reports \
+ osmtests \
+ -t sol003_01
+```
-# OSM Setup
-OSM_HOSTNAME=<osm_ip_address>
-VIM_TARGET=<osm_vim_name>
-VIM_MGMT_NET=<osm_vim_mgmt_name>
+You can use a different robot tag instead of `sol003_01`. The whole list of tags are gathered below in this README.
-# Clouds file datacenter
-OS_CLOUD=<datacenter_in_clouds_file>
-# SDNCs file
-OS_SDNC=<SDN_controller_in_sdncs_file>
+## How to mount local tests folder for developing purposes
-# K8S config file
-K8S_CREDENTIALS=<path_to_kubeconfig>
+The following line will mount the required files for SOL003_01 testuite and will execute the test `sol003_01`
-# Juju data file
-JUJU_DATA=<path_to_jujudata>
+```bash
+docker run --rm=true --name tests -t --env-file envconfig.rc \
+ -v ~/.config/openstack/clouds.yaml:/etc/openstack/clouds.yaml \
+ -v ~/tests/reports:/robot-systest/reports \
+ -v ~/tests/robot-systest/lib/sol003_common_lib.robot:/robot-systest/lib/sol003_common_lib.robot \
+ osmtests \
+ -t sol003_01
+```
-# The following set of environment variables will be used in host
-# of the robot framework. Not needed for docker execution
+Relevant volumes to be mounted are:
-# Folder where Robot tests are stored
-ROBOT_DEVOPS_FOLDER=robot-systest
+- <path_to_reports> [OPTIONAL]: the absolute path to reports location in the host
+- <path_to_clouds.yaml> [OPTIONAL]: the absolute path to the clouds.yaml file in the host
+- <path_to_sdncs.yaml> [OPTIONAL]: the absolute path to the sdncs.yaml file in the host
+- <path_to_kubeconfig> [OPTIONAL]: the kubeconfig file to be used for k8s clusters
-# Folder to save alternative DUT environments (optional)
-ENVIRONMENTS_FOLDER=environments
+Other relevant options to run tests are:
-# Folder where all required packages are stored
-PACKAGES_FOLDER=osm-packages
+- `--env-file`: It is the environmental file where is described the OSM target and VIM
+- `-o <osmclient_version>` [OPTIONAL]: It is used to specify a particular osmclient version. Default: latest
+- `-p <package_branch>` [OPTIONAL]: OSM packages repository branch. Default: master
+- `-t <testing_tags>` [OPTIONAL]: Robot tests tags. [sanity, regression, particular_test]. Default: sanity
-# Folder where test results should be exported
-ROBOT_REPORT_FOLDER=results
-```
-## Deployment
+## How to run tests from a host
-It is possible to run the tests directly from the repository or using a docker container with the tests
+### Installing
-1. Docker container creation:
+This bash script can be used to setup your environment to execute the tests.
```bash
-docker build -f docker/Dockerfile -t osmtests .
+sudo apt-get update
+sudo apt-get install ssh ping yq git
+# Python packages used for the tests
+python3 -m pip install -r requirements.txt
+python3 -m pip install -r requirements-dev.txt
+# Download community packages
+git clone https://osm.etsi.org/gitlab/vnf-onboarding/osm-packages.git
```
-Options:
+### Configure the environment
-* --env-file: It is the environmental file where is described the OSM target and VIM
-* -o <osmclient_version> [OPTIONAL]: It is used to specify a particular osmclient version. Default: latest
-* -p <package_branch> [OPTIONAL]: OSM packages repository branch. Default: master
-* -t <testing_tags> [OPTIONAL]: Robot tests tags. [sanity, regression, particular_test]. Default: sanity
+Create a file `envfile.rc` copying from `envconfig-local.rc` and set the required variables.
-Volumes:
+### Running the tests
+
+```bash
+source envfile.rc
+mkdir reports
+robot -d reports -i <testing_tags> testsuite/
+```
+
+## How to run tests from an environment identical to OSM CICD
+
+```bash
+git clone https://osm.etsi.org/gerrit/osm/devops
+git clone https://osm.etsi.org/gerrit/osm/IM
+git clone https://osm.etsi.org/gerrit/osm/osmclient
+git clone https://osm.etsi.org/gerrit/osm/tests
+# run HTTP server to server artifacts
+devops/tools/local-build.sh --install-qhttpd
+# generate debian packages locally that will be served by the HTTP server
+devops/tools/local-build.sh --module IM,osmclient,tests stage-2
+# create docker image and store it locally as opensourcemano/tests:devel
+devops/tools/local-build.sh --module tests
+```
-* <path_to_reports> [OPTIONAL]: It is the absolute path to reports location in the host
-* <path_to_clouds.yaml> [OPTIONAL]: It is the absolute path to the clouds.yaml file in the host
-* <path_to_sdncs.yaml> [OPTIONAL]: It is the absolute path to the sdncs.yaml file in the host
-* <path_to_kubeconfig> [OPTIONAL]: It is the kubeconfig file to be used for k8s clusters
-* <path_to_jujudata> [OPTIONAL]: It is the jujudata file to be used for juju cli
+Then, run the tests:
```bash
docker run --rm=true -t osmtests --env-file <env_file> \
-v <path_to_clouds.yaml>:/robot-systest/clouds.yaml \
-v <path_to_sdncs.yaml>:/robot-systest/sdncs.yaml \
-v <path_to_kubeconfig>:/root/.kube/config \
- -v <path_to_jujudata>:/root/.local/share/juju \
-o <osmclient_version> \
-p <package_branch> \
-t <testing_tags>
```
-1. Running the tests manually:
-
-The way of executing the tests is via the following command:
-
-```bash
-source envfile.rc
-robot -d reports -i <testing_tags> testsuite/
-```
-
## Test tags
-All tests in the testsuites have tags. Tags allow to run only a set of tests
-identified by a tag. Several tags can be specified when running robot in the
-following way:
+All tests in the testsuites have tags. Tags allow to run only a set of tests identified by a tag. Several tags can be specified when running robot in the following way:
```bash
robot -i <tag_01> -i <tag_02> testsuite/
- A tag per testsuite using its mnemonic (e.g. `basic_01`)
- Cluster tag for each of the statistically similar tests:
- `cluster_main`: `basic_01`, `basic_05`, `basic_08`, `basic_09`, `basic_15`,
- `basic_16`, basic_17`, `hackfest_basic`, `hackfest_multivdu`,
+ `basic_16`, `basic_17`, `hackfest_basic`, `hackfest_multivdu`,
`hackfest_cloudinit`, `quotas_01`
- `cluster_ee_config`: `basic_06`, `basic_07`, `basic_11`, `basic_12`,
`basic_13`, `basic_14`, `k8s_05`, `k8s_06`
- `cluster_relations`: `basic_11`, `basic_13`, `basic_14`
- `cluster_epa`: `epa_01`, `epa_02`, `epa_03`, `epa_04`, `epa_05`
- - `cluster_k8s`: `k8s_01`, `k8s_02`, `k8s_03`, `k8s_04`, `k8s_07`, `k8s_08`, `sa_08`
+ - `cluster_k8s`: `k8s_01`, `k8s_02`, `k8s_03`, `k8s_04`, `k8s_05`, `k8s06`,
+ `k8s_07`, `k8s_08`, `k8s_09`, `k8s_10`, `k8s_11`, `sa_08`
- `cluster_k8s_charms`: `k8s_05`, `k8s_06`
- `cluster_sa`: `sa_01`, `sa_02`, `sa_07`
- `cluster_slices`: `slice_01`, `slice_02`
+ - `cluster_heal`: `heal_01`, `heal_02`, `heal_03`, `heal_04`
+ - `cluster_sol003`: `sol003_01`
- daily: for all testsuites that will run in the daily job
- regression: for all testsuites that should pass in the current stable branch
- sanity: for all testsuites that should be passed by each commit in the
stage3 to be successfully verified by Jenkins, currently `basic_07`,
- `basic_11`, `k8s_03`, `k8s_04`, `sa_02`
+ `basic_11`, `k8s_03`, `k8s_04`, `sa_02`, `hackfest_basic`, `hackfest_cloudinit`
In addition, the tag "cleanup" exists in those tests that perform
any deletion. In that way, it can be invoked to retry the deletion if
the tests were forcefully stopped.
+- For helping in the migration tests and other scenarios in which you don't want
+to destroy the deployments immediately, the following tags are used:
+ - `prepare`: for the tests that are used to deploy the network
+ services under test
+ - `verify`: for the tests that perform the actual testing, or changes for
+ additional verifications (e.g. scaling).
+ - `cleanup`: already described above.
+
+ So, for instance, you could first deploy a number of network services executing
+ the tests with "prepare" tag, migrate to another OSM version, and then
+ check the behavior executing with the "verify" tag. Finally, use the "cleanup"
+ tag.
+
+## Post-processing Robot output files
+
+The output files of Robot include tyipically three files:
+
+- `report.html`: overview of the test execution results in HTML format
+- `log.html`: details about the executed test cases in HTML format
+- `output.xml`: all the test execution results in machine readable XML format
+
+More information about these files [here](https://robotframework.org/robotframework/latest/RobotFrameworkUserGuide.html#output-file).
+
+It is possible to use the tool `rebot`, included as part of the Robot Framework, to post-process the output file `output.xml`.
+
+```bash
+# To re-generate log and report from output.xml:
+rebot [-d <output_folder>] output.xml
+
+# To re-generate log and report (and optionally new output.xml) to include only certain tags:
+rebot [-d <output_folder>] -i <tag1> -i <tag2> ... -i <tagN> [-o <new_output_xml>] output.xml
+
+# To re-generate log and report (and optionally new output.xml) excluding certain tags:
+rebot [-d <output_folder>] -e <tag1> -e <tag2> ... -e <tagN> [-o <new_output_xml>] output.xml
+
+# To merge several test executions:
+rebot [-d <output_folder>] --merge output1.xml output2.xml ... outputN.xml
+```
+
+More information about post-processing Robot output files [here](https://robotframework.org/robotframework/latest/RobotFrameworkUserGuide.html#post-processing-outputs)
+
## Built With
* [Python](www.python.org/) - The language used
This project is licensed under the Apache2 License - see the [LICENSE.md](LICENSE) file for details
-## Acknowledgments