Tracie - Mesa Traces Continuous Integration System ================================================== Home of the Mesa trace testing effort. ### Traces definition file The trace definition file contains information about the traces to run along with their expected image checksums on each device, and optionally from where to download them. An example: ```yaml traces-db: download-url: https://minio-packet.freedesktop.org/mesa-tracie-public/ traces: - path: glmark2/jellyfish.rdc expectations: - device: gl-intel-0x3185 checksum: 58359ea4caf6ad44c6b65526881bbd17 - device: gl-vmware-llvmpipe checksum: d82267c25a0decdad7b563c56bb81106 - path: supertuxkart/supertuxkart-antediluvian-abyss.rdc expectations: - device: gl-intel-0x3185 checksum: ff827f7eb069afd87cc305a422cba939 ``` The `traces-db` entry can be absent, in which case it is assumed that the traces can be found in the `CWD/traces-db` directory. Traces that don't have an expectation for the current device are skipped during trace replay. Adding a new trace to the list involves commiting the trace to the git repo and adding an entry to the `traces` list. The reference checksums can be calculated with the [image_checksum.py](.gitlab-ci/tracie/image_checksum.py) script. Alternatively, an arbitrary checksum can be used, and during replay (see below) the scripts will report the mismatch and expected checksum. ### Trace-db download urls The trace-db:download-url property contains an HTTPS url from which traces can be downloaded, by appending traces:path properties to it. ### Enabling trace testing on a new device To enable trace testing on a new device: 1. Create a new job in .gitlab-ci.yml. The job will need to be tagged to run on runners with the appropriate hardware. 1. If you mean to test GL traces, use the `.traces-test-gl` template jobs as a base, and make sure you set a unique value for the `DEVICE_NAME` variable and the name of the Mesa driver as `DRIVER_NAME`: ```yaml my-hardware-gl-traces: extends: .traces-test-gl variables: DEVICE_NAME: "gl-myhardware" DRIVER_NAME: "mydriver" ``` 2. If you mean to test Vulkan traces, use the `.traces-test-vk` template jobs as a base, set the `VK_DRIVER` variable, and make sure you set a unique value for the `DEVICE_NAME` variable: ```yaml my-hardware-vk-traces: extends: .traces-test-vk variables: VK_DRIVER: "radeon" DEVICE_NAME: "vk-myhardware" DRIVER_NAME: "radv" ``` 2. Update the .gitlab-ci/traces-$DRIVER_NAME.yml file with expectations for the new device. Ensure that the device name used in the expectations matches the one set in the job. For more information, and tips about how to calculate the checksums, see the section describing the trace definition files. ### Trace files Tracie supports renderdoc (.rdc), apitrace (.trace) and gfxreconstruct (.gfxr) files. Trace files need to have the correct extension so that tracie can detect them properly. The trace files that are contained in public traces-db repositories must be legally redistributable. This is typically true for FOSS games and applications. Traces for proprietary games and application are typically not redistributable, unless specific redistribution rights have been granted by the publisher. Trace files in a given repository are expected to be immutable once committed for the first time, so any changes need to be accompanied by a change in the file name (eg. by appending a _v2 suffix to the file). ### Replaying traces Mesa traces CI uses a set of scripts to replay traces and check the output against reference checksums. The high level script [tracie.py](.gitlab-ci/tracie/tracie.py) accepts a traces definition file and the name of the device to be tested: tracie.py --file .gitlab-ci/traces-llvmpipe.yml --device-name gl-vmware-llvmpipe tracie.py copies the produced artifacts to the `$CI_PROJECT_DIR/result` directory. By default, created images from traces are only stored in case of a checksum mismatch. The `TRACIE_STORE_IMAGES` CI/environment variable can be set to `1` to force storing images, e.g., to get a complete set of reference images. At a lower level the [dump_trace_images.py](.gitlab-ci/tracie/dump_trace_images.py) script is called, which replays a trace, dumping a set of images in the process. By default only the image corresponding to the last frame of the trace is dumped, but this can be changed with the `--calls` parameter. The dumped images are stored in a subdirectory `test/` next to the trace file itself, with names of the form `tracefilename-callnum.png`. The full log of any commands used while dumping the images is also saved in a file in the 'test/' subdirectory, named after the trace name with '.log' appended. Examples: python3 dump_traces_images.py --device-name=gl-vmware-llvmpipe mytrace.trace python3 dump_traces_images.py --device-name=gl-vmware-llvmpipe --calls=2075,3300 mytrace.trace ### Running the replay scripts locally It's often useful, especially during development, to be able to run the scripts locally. Depending on the target 3D API, the scripts require a recent version of apitrace being in the path, and also the renderdoc python module being available, for GL traces. To ensure python3 can find the renderdoc python module you need to set `PYTHONPATH` to point to the location of `renderdoc.so` (binary python modules) and `LD_LIBRARY_PATH` to point to the location of `librenderdoc.so`. In the renderdoc build tree, both of these are in `renderdoc//lib`. Note that renderdoc doesn't install the `renderdoc.so` python module. In the case of Vulkan traces, the scripts need a recent version of gfxrecon-replay being in the path, and also the `VK_LAYER_LUNARG_screenshot` Vulkan layer from LunarG's VulkanTools. To ensure that this layer can be found when running the trace you need to set `VK_LAYER_PATH` to point to the location of `VkLayer_screenshot.json` and `LD_LIBRARY_PATH` to point to the location of `libVkLayer_screenshot.so`. In the case of DXGI traces, the scripts require Wine, a recent version of DXVK installed in the default `WINEPREFIX`, and a recent binary version of apitrace for Windows which should be reachable through Windows' `PATH` environment variable.