SIPssert Testing Framework is a tool used for facilitating the automation and testing of complex VoIP setups, that involve multiple types of components and various interactions between them. Its purpose is to provide a set of components that can be easily scripted (through YAML files) and orchestrate them in order to run, test/check their behavior and provide troubleshooting information to the goal of validating that a setup is running correctly for a particular set of defined scenarios. In a nutshell, SIPssert is a framework able to execute a set of tasks and check whether their execution lead to an expected behavior, defined in a scenario.
The framework relies on the Docker engine to manage the execution of different tasks that a scenario may require. Each task is an abstraction of a Docker container that controls the execution a specific component within the scenario (such as an OpenSIPS server, a SIPp, etc.).
It is written in Python and has a modular design, allowing you to run as a task any application that can be dockerized in a container. In order to facilitate and ease the scripting of a specific component, you can easily enhance the framework with a new task type by extending the Task interface.
Although the framework was initially created for defining and testing SIP setups, it can easily run any generic scenarios/setups.
The SIPssert Testing Framework has a hierarchical structure, illustrated below:
- At the top level, is the main
sipssert
application; at this level you can tune a set of run parameters (such as logging settings); you can find here more information on the configuration file. The application requires one or more tests sets to run. Thesipssert
application starts the engine controller, which then runs each tests set. - Each tests set provided as parameter represents a directory which
consists of multiple scenarios; it may also contain a
config.yml
file anddefine.yml
file that can tune information about a specific test set. - A scenario is a directory within a test set that contains all the requirements to run a certain scenario to test: application configuration files, provisioning data, and probably the most important, the scenario description YAML file; the scenario file contains multiple tasks.
- A task is the lowest entity of the framework, but probably the most important; it is the abstraction of a docker container that contains the entire logic a specific component of the test is performing. More information on this can be found in the Tasks section.
The execution of the sipssert
application consists of running and testing
the tests sets passed as parameter. Each set of tests (or scenarios) is run
sequentially. Moreover, each scenario within a tests set is run sequentially
(one-by-one) as well.
An optional set of tasks can be executed at the beginning and at the end of
each tests set. These tasks can be defined using the init_tasks
and
cleanup_tasks
in the Tests Set Configuration
file. Note that if any of the tasks within the init_tasks
list fails, the
scenarios for the tests set are no longer run, and the tests set is considered
as failed.
A scenario consists of a set of tasks; all the tasks within the set are implicitly run in parallel, however this behavior can be controlled through Tasks Dependencies. Similarly to tests set, each scenario can have a set of init and cleanup tasks; when used, all init tasks are run (in parallel) before running the scenario's tasks. If any of the init tasks fails, the scenario is no longer run and considered failed. If used, cleanup tasks are run (again, all in parallel) after all the scenarios tasks complete.
Running a task is equivalent with running a Docker container, with the properties and settings defined in the task's definition. When running a task set of a scenario, if one of the task is failed, all the subsequent tasks, that have not been started yet, are no longer executed. The exception is the cleanup tasks, that are executed all the time (since their status is not even accounted for).
The result of the testing is derived from the status of the task: the exit code
of the container running the task; if the exit code is 0
, the task is
considered successful, otherwise failed.
A scenario is considered successful if all its tasks, including the init ones, if present, have finished with successful codes. Cleanup tasks statuses are never considered.
As each task is executed in its own docker container, the application run within the task has limited access to its environment/OS, just as a regular docker container execution would be. For example, a task would not have access to the hosts file system. However, in order to facilitate access to shared information, when running a scenario, each task has the entire scenario directory mounted as a read-only directory. This way it can access any configuration files defined for the scenario on the host.
In terms of networking, scenarios/tests sets can be run in two different modes:
host
- tasks running with this network can access the entire host's networks; check more on Docker host networkbridge
- a custom, isolated LAN, where all tasks can talk to each other, but can only be reachable from external with explicit port forwarding; check more on Docker bridge network You can find more information about networking in the Tests Set Configuration description.
Troubleshooting incidents of a specific testing run can be done at multiple levels, from logging to network inspection. More information about this can be found in the Troubleshooting page.
By default, the SIPssert Testing Framework logs at standard output only the progress of the testing: the scenario that is being run along with their statuses. However, it can be tuned to display more information about internal events, as well as application logs. More information can be found in the Logging page.
Tasks are the abstraction of a docker container, and their purpose is to simplify the configuration and execution of the application the are executing, by providing simple to use settings that can tune their behavior. You can find more information about task here.
The current tasks types available in the framework are
- OpenSIPS: Runs OpenSIPS SIP Server
- OpenSIPS CLI: Executes commands using the OpenSIPS CLI tool
- OpenSIPS MI: Executes MI commands using the Python OpenSIPS module
- SIPp: Runs SIPp scenarios
- UAC SIPp: Executes a SIPp User Agent Client scenario
- UAC SIPp Stir and Shaken: Executes a SIPp User Agent Client for Stir and Shaken scenarios
- UAS SIPp: Executes a SIPp User Agent Server scenario
- SipExer: Executes a SipExer User Agent, including WebRTC scenarios
- Asterisk: Runs an Asterisk PBX
- AMI Client: Executes an Asterisk AMI Client
- OSS API: Runs a command using the OpenSIPS Solutions API
- MySQL client: Runs a MySQL Client
- MySQL: Runs a MySQL Server
- PostgreSQL: Runs a PostgreSQL Server
- RTPProxy: Runs RTPProxy Media Proxy Server
- Sleep: Sleeps for a certain amount of time
- Generic: Runs a generic task/container
python3-docker
library for controlling the Docker engine
Clone the repository and navigate to it's content, then run:
python3 setup.py install --user clean
for a local user install, or
sudo python3 setup.py install
for a system wide install.
In order to run a test suite, simply run the sipssert
tool, followed by the
tests set directory. Example:
sipssert /home/tests/opensips
The tool supports multiple tests sets passed as arguments, and will run each tests set sequentially (see Execution).
The SIPssert tool also accepts as parameters the following values:
-h|--help
- used to display information about runningsipssert
-l|--logs-dir DIR
- directory where the logging files should be stored (Default islogs/
)-c|--config CONFIG
- Run Configuration file (Default is `run.yml')-t|--test [SET/]TEST
- pattern that specifies which scenarios/tests should be run; ifSET
is specified, only tests within that test set are being matched-e|--exclude [SET/]TEST
- similar to-t/--test
, but specifies the tests that should be excluded from the execution; if both include and exclude match a test, the test will not be run-E|--extra-var key=value
- set additional variable as key-value pair; you can set extra-var arg multiple times.-n|--no-delete
- do not delete the resources after run (NOTICE: you will have to manually delete both containers and networks)-x|--no-trace
- do not trace call-v|--version
- prints the current version
The SIPssert Testing Framework provides a simple way of defining testing scenario through YAML files. You can find more information about running scenarios here.
In order to run sipssert
without installing it, you have to export the
PYTHONPATH
variable to the root of the sipssert
package. If you are in
the root of the project, simply do:
export PYTHONPATH=.
bin/sipssert path/to/tests/set
Note that running the tool might require priviledged access, thus you may want
to run the tool using sudo (as oposed to running it as root
); to do that, you
need to preserve the PYTHONPATH
variable while lifting the privileges:
sudo -E env PYTHONPATH=. bin/sipssert path/to/tests/set
Alternatively, configure sudo to bypass the PYTHONPATH
variable: add in the
/etc/sudoers.d/python
(or directly in /etc/sudoers
) the following line:
Defaults env_keep += "PYTHONPATH"
Then run the application using sudo:
sudo bin/sipssert path/to/tests/set
Feel free to contribute to this project with any Task, or functionality you find useful by opening a pull request.
The sipssert
source code is licensed under the GNU General Public License v3.0
All documentation files (i.e. .md
extension) are licensed under the Creative Common License 4.0
© 2023 - OpenSIPS Solutions