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CI pipeline
(Generated automatically by tools/generate_ci_docs.py. Do not edit by hand.)
It consists of multiple stages below, each having one or more jobs Latest CI pipeline of master branch can be seen at https://gitlab.com/satoshilabs/trezor/trezor-firmware/-/pipelines/master/latest
ENVIRONMENT stage - environment.yml
Connected with creating the testing image for CI.
Consists of 3 jobs below:
.environment
Environment job builds the ci/Dockerfile and pushes the built docker image
into our GitLab registry. Since modifications of this Dockerfile are very rare
this is a manual job which needs to be triggered on GitLab.
Almost all CI jobs run inside this docker image.
environment manual
environment scheduled
PREBUILD stage - prebuild.yml
Static checks on the code.
Consists of 6 jobs below:
style prebuild
Check the code for style correctness and perform some static code analysis.
Biggest part is the python one - using flake8, isort, black, pylint and pyright,
also checking Rust files by rustfmt and C files by clang-format.
Changelogs formats are checked.
common prebuild
Check validity of coin definitions and protobuf files.
gen prebuild
Check validity of auto-generated files.
editor prebuild
Checking format of .editorconfig files.
release commit messages prebuild
Checking the format of release commit messages.
changelog prebuild
Verifying that all commits changing some functionality have a changelog entry
or contain [no changelog] in the commit message.
BUILD stage - build.yml
All builds are published as artifacts so they can be downloaded and used.
Consists of 30 jobs below:
core fw regular build
Build of Core into firmware. Regular version. Are you looking for Trezor T firmware build? This is most likely it.
core fw regular debug build
Build of Core into firmware with enabled debug mode. In debug mode you can upload mnemonic seed, use debug link etc. which enables device tests. Storage on the device gets wiped on every start in this firmware.
core fw regular production build
core fw btconly build
Build of Core into firmware. Bitcoin-only version.
core fw btconly debug build
core fw btconly production build
core fw DISC1 build
core fw R debug build
core fw R build
core unix regular build
Non-frozen emulator build. This means you still need Python files present which get interpreted.
core unix regular asan build
core unix frozen regular build
Build of Core into UNIX emulator. Something you can run on your laptop. Frozen version. That means you do not need any other files to run it, it is just a single binary file that you can execute directly.
core unix frozen btconly debug build
Build of Core into UNIX emulator. Something you can run on your laptop. Frozen version. That means you do not need any other files to run it, it is just a single binary file that you can execute directly. See Emulator for more info. Debug mode enabled, Bitcoin-only version.
core unix frozen btconly debug asan build
core unix frozen debug build
Build of Core into UNIX emulator. Something you can run on your laptop. Frozen version. That means you do not need any other files to run it, it is just a single binary file that you can execute directly. Are you looking for a Trezor T emulator? This is most likely it.
core unix frozen R debug build
core unix frozen R debug build arm
core unix frozen debug asan build
core unix frozen debug build arm
core macos frozen regular build
crypto build
Build of our cryptographic library, which is then incorporated into the other builds.
legacy fw regular build
legacy fw regular debug build
legacy fw btconly build
legacy fw btconly debug build
legacy emu regular debug build
Regular version (not only Bitcoin) of above. Are you looking for a Trezor One emulator? This is most likely it.
legacy emu regular debug asan build
legacy emu regular debug build arm
legacy emu btconly debug build
Build of Legacy into UNIX emulator. Use keyboard arrows to emulate button presses. Bitcoin-only version.
legacy emu btconly debug asan build
TEST stage - test.yml
All the tests run test cases on the freshly built emulators from the previous BUILD stage.
Consists of 36 jobs below:
core unit python test
Python unit tests, checking core functionality.
core unit rust test
Rust unit tests.
core unit asan test
core device test
Device tests for Core. Running device tests and also comparing screens with the expected UI result. See artifacts for a comprehensive report of UI. See docs/tests/ui-tests for more info.
core device R test
core device asan test
core btconly device test
Device tests excluding altcoins, only for BTC.
core btconly device asan test
core monero test
Monero tests.
core monero asan test
core u2f test
Tests for U2F and HID.
core u2f asan test
core fido2 test
FIDO2 device tests.
core fido2 asan test
core click test
Click tests - UI. See docs/tests/click-tests for more info.
core click R test
Click tests. See docs/tests/click-tests for more info.
core click asan test
core upgrade test
Upgrade tests. See docs/tests/upgrade-tests for more info.
core upgrade asan test
core persistence test
Persistence tests - UI.
core persistence asan test
core hwi test
crypto test
legacy device test
Legacy device test - UI.
legacy asan test
legacy btconly test
legacy btconly asan test
legacy upgrade test
legacy upgrade asan test
legacy hwi test
python test
python support test
rust test
storage test
core unix memory profiler
connect test core
TEST-HW stage - test-hw.yml
Consists of 5 jobs below:
hardware core regular device test
Device tests that run against an actual physical Trezor T.
The device needs to have special bootloader, found in core/embed/bootloader_ci, that
makes it possible to flash firmware without confirmation on the touchscreen.
All hardware tests are run nightly on the master branch, as well as on push to branches
with whitelisted prefix. If you want hardware tests ran on your branch, make sure its
name starts with hw/.
Currently it's not possible to run all regular TT tests without getting into a state where the micropython heap is too fragmented and allocations fail (often manifesting as a stuck test case). For that reason some tests are skipped. See also: https://github.com/trezor/trezor-firmware/issues/1371
hardware core btconly device test
Also device tests on physical Trezor T but with Bitcoin-only firmware.
hardware core monero test
hardware legacy regular device test
Device tests executed on physical Trezor 1. This works thanks to tpmb, which is a small arduino device capable of pushing an actual buttons on the device.
hardware legacy btconly device test
Also device tests on physical Trezor 1 but with Bitcoin-only firmware.
POSTTEST stage - posttest.yml
Consists of 2 jobs below:
core unix coverage posttest
unix ui changes
DEPLOY stage - deploy.yml
Consists of 13 jobs below: