Mendoza is a tool designed to offer a more flexible approach to UI Tests parallelization. It allows to dispatch tests execution on an unlimited number of remote machines significantly reducing the time required to run your test suites.
The tools functionality can be extended by adding plugins allowing to heavily customize several steps in the dispatching pipeline.
The outcome of a test session will be a set of log files (.json, .html) and a single .xcresult bunble that will contain all results as if all tests were run on a single machine.
A snapshot of a session running on 8 concurrent nodes (each running 2 simulators at once) can be seen below.
Features | |
---|---|
🏃♀️ | Makes UI Test execution super fast! |
👨🏻💻 | Written in Swift |
🔌 | Supports plugins (written in Swift!) |
🔍 | Wide set of result formats |
🤖 | Supports both iOS and macOS projects |
While the tool is particularly designed for remote execution it enhances local execution as well.
The basic idea is simple: you compile a project on one machine, distribute the compiled package (test bundle) to a number of specified remote nodes, execute a subset of tests on each node and collect the results back together as if they were run on a single machine. On iOS projects, depending on the node hardware configuration, you can also run multiple simulators at once.
Mendoza hides all the complexity behind a single test
command by leveraging built in command line tools to perform each of the aforementioned steps. To get an idea of what’s under the hood take a look here.
You'll need to install Mendoza on all nodes you'll use to distribute tests.
brew install Subito-it/made/mendoza
NOTE
You'll get a warning that sshpass was removed for security reasons. You can still install a copy by running
brew install hudochenkov/sshpass/sshpass
see repo. Please consider that sshpass is used only if you choose to connect to remote nodes via username/password authentication which is not the recommended way. When possible you should use ssh key based authentication.
Or you can build manually from sources
To build Mendoza make sure to install libssh2:
brew install libssh2
git clone https://github.com/Subito-it/Mendoza.git
cd Mendoza
swift package update
swift package generate-xcodeproj
xed .
From the target selection select the Mendoza project and add /usr/local/include
to 'Header Search Paths' and /usr/local/lib
to 'Library Search Paths'.
mendoza test --project SomeProject.xcworkspace --scheme SomeScheme --local_destination_path=/Users/SomeUser/Desktop --device_name="iPhone 8" --device_runtime="12.1"
mendoza test --project SomeProject.xcworkspace --scheme SomeScheme --local_destination_path=/Users/SomeUser/Desktop
This will compile your project, distribute the test bundles, execute the tests, collect the results together on the destination node that was specified during setup and generate a set of output files.
Inside your project folder run
mendoza configuration init
this will prompt you with a series of (fairly self-explanatory) questions and produce a configuration file that you will feed to the test
command as follows:
mendoza test --project SomeProject.xcworkspace --scheme SomeScheme --remote_nodes_configuration configuration_file_generated_above.json --device_name="iPhone 8" --device_runtime="12.1"
mendoza test --project SomeProject.xcworkspace --scheme SomeScheme --remote_nodes_configuration configuration_file_generated_above.json
This will compile your project, distribute the test bundles, execute the tests, collect the results together on the destination node that was specified during setup and generate a set of output files.
Generates a new configuration file required to execute tests remotely. you will be prompted with a series of (fairly self-explanatory) questions which will produce a json configuration file as an output.
When setting up nodes you'll be asked:
- label that identifies the node
- address
- authentication method
iOS projects only
- concurrent simulators: manually enter the number of concurrent simulators to use at once. The rule of thumb is that you can run 1 simulator per physical CPU core. Specifying more that one simulator per core will work but this will result in slower total execution time because the node will be over-utilized.
The destination node is the node that will be responsible to collect all the result logs.
The credentials and passwords you will be asked during initialization are stored locally in your Keychain (see configuration file and security paragraph). This means that if the configuration was generated on a different machine you may be missing those credentials/passwords. The configuration authentication
command will prompt and store missing credentials/password in your local Keychain.
This command allows to create a plugin template script that will be used during the execution of the tests. Refer to the plugins paragraph.
Will launch tests as specified in the configuration files.
Mendoza will write a set of log files containing information about the test session:
- test_details.json: provides a detailed insight of the test session
- test_result.json: the list of tests that passed/failed in json format
- test_result.html: the list of tests that passed/failed in html format
- repeated_test_result.json: the list of tests that had to be repeated in json format
- repeated_test_result.html: the list of tests that had to be repeated in html format
- merged.xcresult: the result bundle containing all test data. Can be opened with Xcode
- coverage.json: the coverage summary file generated by running `xcrun llvm-cov export --summary-only -instr-profile [path] [executable_path]
- coverage.html: the coverage html file generated by running `xcrun llvm-cov show --format=html -instr-profile [path] [executable_path]
If you're interested in seeing the specific actions that made a test fail can manually inspect the merged.xcresult using Xcode. Alternatively you may also consider using Cachi which is able to parse and present results in a web browser.
Plugins allow to customize various steps of Mendoza's pipeline. This opens up to several optimizations that are stricly related to your own specific workflows.
A plugin is initialized with the plugin init
command. The plugin file that is generated contains a struct with a single handle()
method with a signature that depends on the plugin. The types in the signature are showed as comments above the struct definition.
The following plugins are available:
extract
: allows to specify the test methods that should be performed in every test filesorting
: plugin to add estimated execution time to test casesevent
: plugin to perform actions (e.g. notifications) based on dispatching eventsprecompilation
: plugin to perform actions before compilation startspostcompilation
: plugin to perform actions after compilation completesteardown
: plugin to perform actions at the end of the dispatch process
You should definitely consider using swift sh if your plugins requires additional dependencies.
By default test methods will be extracted from all files in the UI testing target. This should work most of the times however in some advanced cases this could not be the desired behaviour, for example if there is some custom tagging to run tests on specific devices (e.g. only iPhone/iPad). This plugin allows to override the default behaviour and put in place a custom implementation
See an example TestExtractionPlugin.swift.
By default test cases will be executed randomly because Mendoza has no information about the execution time of test cases. Mendoza can significantly improve total execution time of test if you provide an estimate of the execution time of tests.
Using tools like Cachi you can automatically store and retrieve tests statistics.
See an example TestSortingPlugin.swift.
This plugin will be invoked during the different steps of Mendoza's pipeline. You'll be notified when compilation starts/ends, when tests bundles start/end being distributed and so on. Based on these event you could for example send notifications.
Your project might be so heavily customized that you might need to perform some changes to the project before the compilation of the UI testing target begins.
If you're using a precompilation plugin you might also need a post compilation plugin to restore any change previously made.
This plugin allows to perform custom actions once the test session ends. You'll get some result information as input in order to perform action accoring to the test session outcome
The files used by Mendoza internally to execute plugins won't be deleted when you run tests passing the --plugin_debug
flag. After a test session, in the same folder of your plugins, you'll find 2 additional files: one with the same filename of the plugin but prefixed with an underscore and a file with a .debug extension. The .debug file will invoke the plugin file and pass arguments to it.
An easy way to debug a plugins is to create a new macOS command line tool project in Xcode, copy paste the content of the _Pluginfile.swft and add the arguments to the scheme settings. From there you can use Xcode to run an debug the plugin.
The configure init
command will generate a configuration file containing all the information needed to compile, execute and distribute tests to a set of specified remote nodes. You can create different configuration files to test different test targets or use different remote nodes.
All the access credentials and passwords that are requested during initialization are stored locally in the current user’s Keychain. This means that you may be asked to update them by running configure authentication
if something doesn’t match with what is specified in the configuration file (e.g. access credentials to a remote node).
It is suggested that nodes are configured as follows:
Set MaxSessions
to 100 in /etc/ssh/sshd_config
launchctl limit maxfiles 64000 524288
/usr/sbin/sysctl -w kern.maxprocperuid=4096 kern.maxproc=2500
/usr/sbin/sysctl -w kern.tty.ptmx_max=999
By default Mendoza will build dynamically linking to libssh2 and libssl@3, which can be installed by running brew install openssl@3 libssh2
. You can however create multi arch libraries that can be then linked statically by running the ./build_libs.rb
script and then using the Shout-Static
package (which is commented in the Package.swift) instead of the default one.
Contributions are welcome! If you have a bug to report, feel free to help out by opening a new issue or sending a pull request.
Mendoza is available under the Apache License, Version 2.0. See the LICENSE file for more info.