Introduction
(please scroll to bottom for test results) ERP5 is used for many critical applications. Our customers depend on it to run their every day business, and they can not accept having regularly bugs coming again and again. Every software issue could have important consequences, especially if you think about banking, aerospace applications and many others. Therefore Nexedi considers the quality as one of its top priorities and runs automated testing since the early age of ERP5.
Unit / Functional / Deployment and Scalability Tests
While the code of ERP5 is evolving, more and more tests are added. When issues are reported, we write the test and fix the problem. Like this we make sure that the same issue is not going to happen again. Also, when new features are done, tests are added to make sure we will provide a well working experience. We have both unit tests and functional tests. Unit tests are used to test isolated software component, while functional tests are used to verify scenarios closer to user experience.
Development policy
We tried for years to keep the quantity of failures as low as possible. While the size of ERP5 was growing up, it started to be more and more time consuming to track regressions. In particular, it's quite common that a change in some part of the code generates a regression in another place that seems unrelated without detailed analysis. And then it happened that we had several errors, and it was difficult to see new ones.
Therefore, after our switch to git, we introduced the rule "contributions must not introduce ANY regression". So we started by fixing test failures, we checked all random issues, and we started to reject any code introducing failures. The idea is simply to check all unit tests before contributing changes to the central place. This can easily be done thanks to our Testing Infrastructure.
Thanks to this rule, about any revision of ERP5 could be considered as stable. This is a really great success. With a quantity of test growing, we have nearly 0 errors/failures all the time.
Testing Infrastructure
We are using what we call "ERP5 Test Nodes". They are processes installed on many different machines thanks to SlapOS cloud tools. We define several lists of tests to run, and ERP5 test nodes will look regularly to several code repositories to detect new commits, then they launch software constructions and finally tests are automatically run. Theses days we are using about 180 CPU cores to run tests for our various projects and for different versions.
Description of tests
Please find below a short description of all tests currently running:
- ERP5.UnitTest-Master
A unit test suite which covers all ERP5 code base.
- ERP5.CodingStyleTest-Master
Static code and configuration analysis for every business templates.
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ERP5.ScalabilityTest-Master
Tests how scalable an ERP5 instance is by simulating heavy intensive operations against a set of cluster configurations
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ERP5.PerformanceTest-Master
Tests pure ERP5 performance like creating and storing an object which should happen without any regressions for a already predefined time set
- ERP5.StandaloneDeploymentScriptTest-Debian.Buster / ERP5.StandaloneDeploymentScriptTest-Debian.Buster.Master / ERP5.StandaloneDeploymentScriptTest-Debian.Bullseye
A deployment test which assures that we can install ERP5 into a Debian Buster (10) / Bullseye (11) OS. The "Master" variant tests additionally that we can install the latest software release (from master branch), instantiate the product and apply a default automatic configuration. The non "Master" variant uses latest "frozen" version without automatic configuration testing. The non "Master" variant is much faster as software release compilation is downloaded pre-compiled from shacache.
- Pygolang.UnitTest-Master.Python2 / Pygolang.UnitTest-Master.Python3
A unit test which covers Pygolang ( Go-like features for Python and Cython )
- Wendelin.UnitTest-Master
A unit test suite which covers Wendelin (Big Data Platform) code base
- Wendelin.CodingStyleTest-Master
Static code and configuration analysis for Wendelin business templates.
- Wendelin.core.UnitTest-ZODB4-wc2 / Wendelin.core.UnitTest-ZODB5
A unit test suite which covers wendelin.core, Out-of-Core processing module from Wendelin (Big Data Platform), for both ZODB4 and ZODB5.
- Wendelin.StandaloneDeploymentScriptTest-Debian.Buster / Wendelin.StandaloneDeploymentScriptTest-Debian.Buster.Master / Wendelin.StandaloneDeploymentScriptTest-Debian.Bullseye
Tests installing Wendelin inside Debian Buster (10) / Bullseye (11) OS.
- NEO.UnitTest-Master / NEO.UnitTest-Master.ZODB3 / NEO.UnitTest-Master.ZODB5
A unit test suite which covers the NEO (distributed, redundant and transactional storage DB)
- Zodbtools.UnitTest-Master.ZODB4.Python2 / Zodbtools.UnitTest-Master.ZODB4.wc2.Python2 / Zodbtools.UnitTest-Master.ZODB5.Python2 / Zodbtools.UnitTest-Master.ZODB6.Python3
A unit test suite for zodbtools , running for ZODB4, ZODB4 with wendelin.core2 support and ZODB5 on python 2 and ZODB6 on python 3
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SlapOS.Theia.ResilienceTest-Master-Peertube
Tests that the data produced by Peertube Software Release inside a resilient Theia is correctly backup-ed and restored in a backup Theia, in order to ensure a disaster recovery
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SlapOS.Theia.ResilienceTest-Master-ERP5
Tests that the data produced by ERP5 Software Release inside a resilient Theia is correctly backup-ed and restored in a backup Theia, in order to ensure a disaster recovery
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SlapOS.Theia.ResilienceTest-Master-Gitlab
Tests that the data produced by Gitlab Software Release inside a resilient Theia is correctly backup-ed and restored in a backup Theia, in order to ensure a disaster recovery
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SlapOS.Buildout.UnitTest-Master.Python2 / SlapOS.Buildout.UnitTest-Master.Python3
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SlapOS.KVM.ResilienceTest-Master
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SlapOS-Master.StandaloneDeploymentScriptTest-Debian.Buster / SlapOS-Master.StandaloneDeploymentScriptTest-Debian.Bullseye
Tests slapos' master installation on Debian Buster (10) / Bullseye (11) OS
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nxdtest.UnitTest-Master.Python2 / nxdtest.UnitTest-Master.Python3
Tox-like tool to run tests for a project under Nexedi testing infrastructure
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Beremiz.IntegrationTest-Master
An integration test suite which simulates the proper running of a Beremiz runtime environment controlling a virtual coupler device.
Test Results
You can find below the result of automatic test of ERP5 code. Hopefully you are able to see many test results at 0 errors/failures for several thousands of tests. Since we are humans and not perfect, it might happen that a change introduces a regression. But in this case, you could be sure that we will quickly look and solve it.