# Adding Timing Metadata ## listing_meta.json files `listing_meta.json` files are SEMI AUTO-GENERATED. The raw data may be edited manually, to add entries or change timing values. The list of tests in this file is **not** guaranteed to stay up to date. Use the generated `gen/*_variant_list*.json` if you need a complete list. The `subcaseMS` values are estimates. They can be set to 0 or omitted if for some reason you can't estimate the time (or there's an existing test with a long name and slow subcases that would result in query strings that are too long). It's OK if the number is estimated too high. These entries are estimates for the amount of time that subcases take to run, and are used as inputs into the WPT tooling to attempt to portion out tests into approximately same-sized chunks. High estimates are OK, they just may generate more chunks than necessary. To check for missing or 0 entries, run `tools/validate --print-metadata-warnings src/webgpu` and look at the resulting warnings. ### Performance Note this data is typically captured by developers using higher-end computers, so typical test machines might execute more slowly. For this reason, the WPT chunking should be configured to generate chunks much shorter than 5 seconds (a typical default time limit in WPT test executors) so they should still execute in under 5 seconds on lower-end computers. ## Problem When renaming or removing tests from the CTS you will see an error like this when running `npm test` or `npm run standalone`: ``` ERROR: Non-existent tests found in listing_meta.json. Please update: webgpu:api,operation,adapter,requestAdapter:old_test_that_got_renamed:* ``` ## Solution This means there is a stale line in `src/webgpu/listing_meta.json` that needs to be deleted, or updated to match the rename that you did. ## Problem You run `tools/validate --print-metadata-warnings src/webgpu` and want to fix the warnings. ## Solution 1 (manual, best for one-off updates of simple tests) If you're developing new tests and need to update this file, it is sometimes easiest to do so manually. Run your tests under your usual development workflow and see how long they take. In the standalone web runner `npm start`, the total time for a test case is reported on the right-hand side when the case logs are expanded. Record the average time per *subcase* across all cases of the test (you may need to compute this) into the `listing_meta.json` file. ## Solution 2 (semi-automated) There exists tooling in the CTS repo for generating appropriate estimates for these values, though they do require some manual intervention. The rest of this doc will be a walkthrough of running these tools. Timing data can be captured in bulk and "merged" into this file using the `merge_listing_times` tool. This is This is useful when a large number of tests change or otherwise a lot of tests need to be updated, but it also automates the manual steps above. The tool can also be used without any inputs to reformat `listing_meta.json`. Please read the help message of `merge_listing_times` for more information. ### Websocket Logger The first tool that needs to be run is `websocket-logger`, which receives data on a WebSocket channel at `localhost:59497` to capture timing data when CTS is run. This should be run in a separate process/terminal, since it needs to stay running throughout the following steps. In the `tools/websocket-logger/` directory: ``` npm ci npm start ``` The output from this command will indicate where the results are being logged, which will be needed later. For example: ``` ... Writing to wslog-2023-09-12T18-57-34.txt ... ``` See also [tools/websocket-logger/README.md](../tools/websocket-logger/README.md). ### Running CTS Now we need to run the specific cases in CTS that we need to time. This should be possible under any development workflow by logging through a side-channel (as long as its runtime environment, like Node, supports WebSockets). Regardless of development workflow, you need to enable logToWebSocket flag (`?log_to_web_socket=1` in browser, `--log-to-web-socket` on command line, or just hack it in by switching the default in `options.ts`). The most well-tested way to do this is using the standalone web runner. This requires serving the CTS locally. In the project root: ``` npm run standalone npm start ``` Once this is started you can then direct a WebGPU enabled browser to the specific CTS entry and run the tests, for example: ``` http://localhost:8080/standalone/?log_to_web_socket=1&q=webgpu:* ``` If the tests have a high variance in runtime, you can run them multiple times. The longest recorded time will be used. ### Merging metadata The final step is to merge the new data that has been captured into the JSON file. This can be done using the following command: ``` tools/merge_listing_times webgpu -- tools/websocket-logger/wslog-2023-09-12T18-57-34.txt tools/merge_listing_times webgpu -- tools/websocket-logger/wslog-*.txt ``` Or, you can point it to one of the log files from a specific invocation of websocket-logger. Now you just need to commit the pending diff in your repo.