TestArchiver is a tool for archiving your test results to a SQL database.
And Epimetheus is the tool for browsing the results you archived.
Framework | Status | Fixture test status | Parser option |
---|---|---|---|
Robot Framework | Supported | Done | robot |
Mocha | Supported | Done | mocha-junit |
pytest | Supported | Done | pytest-junit |
PHPUnit | Supported | Done | php-junit |
JUnit | Experimental | Missing | junit |
xUnit | Experimental | Missing | xunit |
MSTest | Experimental | Missing | mstest |
Experimental status here means that there is a parser that can take in e.g. generic JUnit formatted output but there is no specific test set or any extensive testing or active development for the parser.
Contributions for output parsers or listeners for different testing frameworks are appreciated. Contributing simply a fixture test set (that can be used to generate output files for developing a specific parser) is extremely helpful for any new framework.
sudo -H python3 -m pip install testarchiver
SQLite default database for the archiver and is mainly useful for testing and demo purposes. Sqlite3 driver is part of the python standard library so there are no additional dependencies for trying out the archiver.
PostgreSQL is the currently supported database for real projects. For example Epimetheus service uses a PosrgreSQL database. For accessing PostgreSQL databases the script uses psycopg2 module: pip install psycopg2-binary
(comes with pip install)
The output files from different testing frameworks can be parsed into a database using test_archiver/output_parser.py
script.
testarchiver --database test_archive.db output.xml
Assuming that output.xml
is a output file generated by Robot Framework (the default parser option), this will create a SQLite database file named test_archive.db
that contains the results.
For list of other options: testarchiver --help
positional arguments:
output_files list of test output files to parse in to the test
archive
optional arguments:
-h, --help show this help message and exit
--version, -v show program's version number and exit
--config CONFIG_FILE Path to JSON config file containing database
credentials and other configurations. Options given on
command line will override options set in a config
file.
--format {robot,robotframework,xunit,junit,mocha-junit,pytest-junit,mstest,php-junit}
output format (default: robotframework)
--repository REPOSITORY
The repository of the test cases. Used to
differentiate between test with same name in different
projects.
--team TEAM Team name for the test series
--series SERIES Name of the test series (and optionally build number
'SERIES_NAME#BUILD_NUM' or build id
'SERIES_NAME#BUILD_ID')
--metadata NAME:VALUE
Adds given metadata to the test run. Expected format:
'NAME:VALUE'
Database connection:
--dbengine DB_ENGINE Database engine, postgresql or sqlite (default)
--database DATABASE database name
--host HOST database host name
--user USER database user
--pw PASSWORD, --password PASSWORD
database password
--port PORT database port (default: 5432)
--dont-require-ssl Disable the default behavior to require ssl from the
target database.
Schema updates:
--allow-minor-schema-updates
Allow TestArchiver to perform MINOR (backwards
compatible) schema updates the test archive
--allow-major-schema-updates
Allow TestArchiver to perform MAJOR (backwards
incompatible) schema updates the test archive
Limit archived data:
--no-keywords Do not archive keyword data
--no-keyword-stats Do not archive keyword statistics
--ignore-logs-below {TRACE,DEBUG,INFO,WARN}
Sets a cut off level for archived log messages. By
default archives all available log messages.
--ignore-logs Do not archive any log messages
Adjust timestamps:
--time-adjust-secs TIME_ADJUST_SECS
Adjust time in timestamps by given seconds. This can
be used to change time to utc before writing the
results to database, especially if the test system
uses local time, such as robot framework. For example
if test were run in Finland (GMT+3) in summer (+1hr),
calculate total hours by minutes and seconds and
invert to adjust in correct direction, i.e.
-(3+1)*60*60, so --time-adjust-secs -14400. This
option is useful if you are archiving in a different
location to where tests are run.If you are running
tests and archiving in same timezone, time-adjust-
with-system-timezone may be a better option. This
option may be used in conjunction with --time-adjust-
with-system-timezone if desired.
--time-adjust-with-system-timezone
Adjust the time in timestamps by the system timezone
(including daylight savings adjust). If you are
archiving tests in the same timezone as you are
running tests, setting this option will ensure time
written to the database is in UTC/GMT time. This
assumes that if multiple computers are used that their
timezone and daylight savings settings are identical.
Take care also that you do not run tests just before a
daylight savings time adjust and archive just after,
as times will be out by one hour. This could easily
happen if long running tests cross a timezone adjust
boundary. This option may be used in conjunction with
--time-adjust-secs.
ChangeEngine:
--change-engine-url CHANGE_ENGINE_URL
Starts a listener that feeds results to ChangeEngine
--execution-context EXECUTION_CONTEXT
To separate data from different build pipelines for
ChangeEngine prioritization. Example if same changes
or tests may be used to verify app in Android and iOS
platforms, then it would be good to separate the
result from different builds pipelines/platforms. The
ChangeEngine prioritization might not give correct
result if different results from different platforms
are mixed together.
Schema and data model (NOTICE: this points to latest version)
There are meta data that are useful to add with the results. Some testing frameworks allow adding metadata to your test results and for those frameworks (e.g. Robot Framework) it is recommended to add that metadata already to the tests so the same information is also available in the results. Additional metadata can be added when parsing the results using the --metadata
option. Metadata given during the parsing is linked to the top level test suite.
--metadata NAME:VALUE
In the data model, each test result file is represented as single test run. These test runs are linked and organized into builds in in different result series. Depending on the situation the series can be e.g. CI build jobs or different branches. By default if no series is specified the results are linked to a default series with autoincrementing build numbers. Different test runs (from different testing frameworks or parallel executions) that belong together can be organized into the same build. Different test series are additionally organized by team. Series name and build number/id are separated by #
.
Some examples using the --series
and --team
options of testarchiver
--series ${JENKINS_JOB_NAME}#${BUILD_NUMBER}
--series "UI tests"#<commit hash>
--series ${CURRENT_BRANCH}#${BUILD_ID} --team Team-A
--series manually_run
Each build will have a build number in the series. If the build number is specified then that number is used. If the build number/id is omitted then the build number will be checked from the previous build in that series and incremented. If the build number/id is not a number it is considered a build identifier string. If that id is new to the series the build number is incremented just as if it no build number was specified. If the same build id is found in the same test series then the results are added under that same previously archived build.
If the tests are executed in a CI environment the build number/id is an excellent way to link the archived results to the actual builds.
The series can also be indicated using metadata. Any metadata with name prefixed with series
are interpreted as series information. This is especially useful when using listeners. For example when using Robot Framework metadata --metadata team:A-Team --metadata series:JENKINS_JOB_NAME#BUILD_NUMBER
Some test frameworks use local time in their timestamps. For archiving into databases this can be problematic if tests are viewed and or run in different timezones. To address this two ways to adjust the time back to GMT/UTC are provided.
The first allows the user to apply an adjustment of a fixed time in seconds of their choosing. This is useful for cases where tests were already run and the place/timezone where they were run are known. This option is useful if you are archiving in a different location to where tests are run. The time value provided as an option is added to the timestamp. Care must be taken with places where summer time is different (usually +1hr).
For example if test were run in Finland (GMT+2), plus 1 hour in summer, calculate total hours by minutes and seconds and invert to adjust in correct direction, i.e. -(2+1)6060, so --time-adjust-secs -10800 in summer time, and -7200 otherwise.
The second provides for automated adjustment based on the system timezone and/or daylight savings if it applies. This is useful if the tests and archiving are performed in the same place and time. This assumes that if multiple computers are used that their timezone and daylight savings settings are identical. Care must also be taken that tests are not run just before a daylight savings time adjust and archived just after as times will be out by one hour. This could easily happen if long running tests cross a timezone adjust boundary. This can be set using --time-adjust-with-system-timezone.
The ArchiverRobotListener allows for the second option if its adjust_with_system_timezone argument is set to True.
To ensure any of the optional adjustments are traceable, two meta data values are added to the suites' test run.
If time-adjust-secs is set to a value, time_adjust_secs with that value is written to the suite_metadata table.
If --time-adjust-with-system-timezone
option is included, then the addition of the time-adjust-secs and the
system timezone is written to the suite_metadata tables as time_adjust_secs_total.
e.g with command line
output_parser.py --time-adjust-secs -3600 --time-adjust-with-system-timezone ...
the following values would be added to suite_metadata table for (GMT+2)
- time_adjust_secs with value -3600
- time_adjust_secs_total with -10800.
This example is mimicking adding daylight savings (1hr = 3600 secs) onto a system offset secs of 7200 (GMT+2). i.e. if the computer being used had the 'daylight savings' setting of and you want to manually add it during archiving.
-
2.4.0 (2021-04-28)
- Updates to support archiving Robot Framework 4.0
- Fixes bug in execution path calculation for log messages
-
2.3.0 (2021-03-16)
- Better support for feeding changes and execution context for ChangeEngine
--changes
for feeding changes information--execution-id
Identifier or version of the tested application for given execution-context. Stored in ChangeEngine and returned bylast_update
query.
- Better support for feeding changes and execution context for ChangeEngine
-
2.2.0 (2020-12-21)
- Ability to adjust times as reported by timestamps in test results.
--time-adjust-secs
allows for manual adjustment of the timestamps with given value--time-adjust-with-system-timezone
allows for automatic adjustment of timestamps by timezone and/or daylight savings.
- Support for parsing PHPUnit output
- ChangeEngine:
- Listener ignores skipped tests
- Adds test type to all parsers
--execution-context
option for setting the execution context for the results
- diff2change_context_list.py now uses the term change context instead of simply context for clarity
- Adds Dockerfiles for an empty database and database with sample data generated from project's tests
- Ability to adjust times as reported by timestamps in test results.
-
2.1.0 (2020-09-16)
- New options for controlling archiving of keywords and log messages
--no-keywords
for ignoring all keyword data--no-keyword-stats
for not collecting keyword statistics data--ignore-logs
for not collecting any log message data--ignore-logs-below
for ignoring all log messages below the given log level
- New options for controlling archiving of keywords and log messages
-
2.0.0 (2020-09-04)
- Distribution as pip package
pip3 install testarchiver
and it installs:testarchiver
script (aka: output_parser.py)testarchive_schematool
script (aka: database.py)diff2change_context_list.py
scripttest_archiver
module
- Functionality for managing schema updates
- TestArchiver version has to match with the schema version
- TestArchiver can apply schema updates when explicitly allowed
- Updates are divided to major and minor updates
- Minor updates are backwards compatible for applications reading the database
- Major updates are backwards incompatible for applications reading the database
- Major schema update #1:
- Adds
schema_updates
table for recording schema updates - Adds
schema_version
column totest_run
table to make schema incompatible with old versions TestArchiver - Adds index for log messages for query performance
- Adds
- Renamed
output_parser.py
cli option--change_engine_url
to--change-engine-url
- Record an execution path for test cases, suites and log messages.
- The path explains the position of the item in its test run.
- E.g.
s1-s2-t3
means the third test in the second subsuite of the top suite.
- Minor schema update #2:
- Adds
execution_path
column totest_result
,suite_result
andlog_message
tables
- Adds
- Renamed Robot Framework listener
ArchiverListener.py
asArchiverRobotListener.py
for clarity
- Distribution as pip package
-
1.2.0 (2020-08-18)
- Important database integrity fix when using sqlite database
- Record test criticality (Robot Framework specific)
- Redesign of configurations management
- Allows using both config file and command line arguments uniformly
- CLI arguments override options set in config file
-
1.1.3 (2020-06-09)
- Performance fix for the schema existence check
- Improved error messages:
- Error when trying to archive results that have already been archived
- Error when psycopg2 module is not found