gristlabs_grist-core/test/split-tests.js

/**
 * This module handles splitting tests for parallelizing them. This module is imported by any run
 * of mocha, due by being listed in test/mocha.opts.
 *
 * It only does anything if TEST_SPLITS is set, which must have the form "3-of-8".
 *
 * If TEST_SPLITS is set to M-of-N, it is used to divide up all test suites in this mocha run into
 * N groups, and runs the Mth of them. Note that M is 1-based, i.e. in [1..N] range. To have all
 * tests run, each of the groups 1-of-N through N-of-N must run on the same total set of tests.
 *
 * The actual breaking into groups is informed by a timings file, defaulting to
 * test/timings-all.txt. This has the format "<top-suite> <file-suite-title> <duration-in-ms>".
 * Only those lines whose <top-suite> matches process.env.TEST_SUITE_FOR_TIMINGS will be used.
 *
 * The timings for test/timings-all.txt are prepared by our test reporter and written during
 * Jenkins run as the timings/timings-all.txt artifact. After tests are added or changed, if
 * timings may have changed significantly, it's good to update test/timings-all.txt, so that the
 * parallel groups can be evened out as much as possible.
 */

const fs = require('fs');
const { assert } = require('chai');

const testSuite = process.env.TEST_SUITE_FOR_TIMINGS || "unset_suite";
const timingsFile = process.env.TIMINGS_FILE || "test/timings-all.txt";

exports.mochaHooks = {
  beforeAll(done) {
    const testSplits = process.env.TEST_SPLITS;
    if (!testSplits) {
      return done();
    }
    const match = testSplits.match(/^(\d+)-of-(\d+)$/);
    if (!match) {
      assert.fail(`Invalid test split spec '${testSplits}': use format 'N-of-M'`);
    }

    const group = Number(match[1]);
    const groupCount = Number(match[2]);
    if (!(group >= 1 && group <= groupCount)) {
      assert.fail(`Invalid test split spec '${testSplits}': index must be in range 1..{groupCount}`);
    }

    const testParent = this.test.parent;
    const timings = getTimings();
    const groups = groupSuites(testParent.suites, timings, groupCount);

    testParent.suites = groups[group - 1];  // Convert to a 0-based index.
    console.log(`Split tests groups; will run group ${group} of ${groupCount}`);
    done();
  }
};

/**
 * Read timings from timingsFile into a Map mapping file-suite-title to duration.
 */
function getTimings() {
  const timings = new Map();
  try {
    const content = fs.readFileSync(timingsFile, {encoding: 'utf8'})
    for (const line of content.split(/\r?\n/)) {
      const [bigSuite, fileSuite, duration] = line.split(/\s+/);
      if (bigSuite === testSuite && !isNaN(Number(duration))) {
        timings.set(fileSuite, Number(duration));
      }
    }
  } catch (e) {
    if (e.code === 'ENOENT') {
      console.warn(`No timings found in ${timingsFile}; proceeding without timings`);
    } else {
      throw e;
    }
  }
  return timings;
}

/**
 * Splits suites into groups and returns the list of them.
 *
 * The algorithm to group tests into suites starts goes one by one from longest to shortest,
 * adding them to the least filled-up group.
 */
function groupSuites(suites, timings, groupCount) {
  // Calculate a fallback value for durations as the average of existing durations.
  const totalDuration = Array.from(timings.values()).reduce(((s, dur) => s + dur), 0);
  if (!totalDuration) {
    console.warn("No timings; assuming all tests are equally long");
  }
  const fallbackDuration = totalDuration ? totalDuration / timings.size : 1000;

  const groups = Array.from(Array(groupCount), () => []);
  const groupDurations = groups.map(() => 0);

  // Check for duplicate suite titles.
  const suitesByTitle = new Map(suites.map(s => [s.title, s]));
  for (const suite of suites) {
    if (suitesByTitle.get(suite.title) !== suite) {
      assert.fail(`Please fix duplicate suite title: ${suite.title}`);
    }
  }

  // Get timing for the given suite, falling back to fallbackDuration.
  function getTiming(suite) {
    const value = timings.get(suite.title);
    return (typeof value !== 'number' || isNaN(value)) ? fallbackDuration : value;
  }

  // Sort suites by descending duration.
  const sortedSuites = suites.slice().sort((a, b) => getTiming(b) - getTiming(a));

  for (const suite of sortedSuites) {
    // Pick a least-duration group.
    const index = groupDurations.indexOf(Math.min(...groupDurations));
    groups[index].push(suite);
    groupDurations[index] += getTiming(suite);
  }

  // Sort each group alphabetically by title.
  for (const group of groups) {
    group.sort((a, b) => a.title < b.title ? -1 : 1);
  }
  return groups;
}
run grist-core test batches in parallel (#444) This sets up a framework for running tests in parallel. It increases the total time taken (since some steps are repeated) but reduces the turn-around time significantly overall. The main objective is to make it possible to release more test batches to grist-core without bringing CI to a crawl. The clever little test/split-test.js script is from the Grist Labs mono-repo and is Dmitry's work. I considered doing the build in one job, and copying it to test jobs, since it feels wasteful to repeat it. That may be worth trying, especially if we start getting jobs backing up (total concurrent Linux jobs on free plan is quoted at 20). It might also be worth looking at doing some tests in parallel on the same worker, perhaps using the relatively new MOCHA_WORKER_ID feature, since the tests are often not actually CPU or I/O bound. 2023-03-03 14:53:33 +00:00			`/**`
			`* This module handles splitting tests for parallelizing them. This module is imported by any run`
			`* of mocha, due by being listed in test/mocha.opts.`
			`*`
			`* It only does anything if TEST_SPLITS is set, which must have the form "3-of-8".`
			`*`
			`* If TEST_SPLITS is set to M-of-N, it is used to divide up all test suites in this mocha run into`
			`* N groups, and runs the Mth of them. Note that M is 1-based, i.e. in [1..N] range. To have all`
			`* tests run, each of the groups 1-of-N through N-of-N must run on the same total set of tests.`
			`*`
			`* The actual breaking into groups is informed by a timings file, defaulting to`
			`* test/timings-all.txt. This has the format "<top-suite> <file-suite-title> <duration-in-ms>".`
			`* Only those lines whose <top-suite> matches process.env.TEST_SUITE_FOR_TIMINGS will be used.`
			`*`
			`* The timings for test/timings-all.txt are prepared by our test reporter and written during`
			`* Jenkins run as the timings/timings-all.txt artifact. After tests are added or changed, if`
			`* timings may have changed significantly, it's good to update test/timings-all.txt, so that the`
			`* parallel groups can be evened out as much as possible.`
			`*/`

			`const fs = require('fs');`
			`const { assert } = require('chai');`

			`const testSuite = process.env.TEST_SUITE_FOR_TIMINGS \|\| "unset_suite";`
			`const timingsFile = process.env.TIMINGS_FILE \|\| "test/timings-all.txt";`

(core) bump mocha version to allow parallel tests; move more tests to core Summary: This uses a newer version of mocha in grist-core so that tests can be run in parallel. That allows more tests to be moved without slowing things down overall. Tests moved are venerable browser tests; only the ones that "just work" or worked without too much trouble to are moved, in order to keep the diff from growing too large. Will wrestle with more in follow up. Parallelism is at the file level, rather than the individual test. The newer version of mocha isn't needed for grist-saas repo; tests are parallelized in our internal CI by other means. I've chosen to allocate files to workers in a cruder way than our internal CI, based on initial characters rather than an automated process. The automated process would need some reworking to be compatible with mocha running in parallel mode. Test Plan: this diff was tested first on grist-core, then ported to grist-saas so saas repo history will correctly track history of moved files. Reviewers: jarek Reviewed By: jarek Subscribers: jarek Differential Revision: https://phab.getgrist.com/D3927 2023-06-27 06:11:08 +00:00			`exports.mochaHooks = {`
			`beforeAll(done) {`
			`const testSplits = process.env.TEST_SPLITS;`
			`if (!testSplits) {`
			`return done();`
			`}`
			`const match = testSplits.match(/^(\d+)-of-(\d+)$/);`
			`if (!match) {`
			assert.fail(`Invalid test split spec '${testSplits}': use format 'N-of-M'`);
			`}`
run grist-core test batches in parallel (#444) This sets up a framework for running tests in parallel. It increases the total time taken (since some steps are repeated) but reduces the turn-around time significantly overall. The main objective is to make it possible to release more test batches to grist-core without bringing CI to a crawl. The clever little test/split-test.js script is from the Grist Labs mono-repo and is Dmitry's work. I considered doing the build in one job, and copying it to test jobs, since it feels wasteful to repeat it. That may be worth trying, especially if we start getting jobs backing up (total concurrent Linux jobs on free plan is quoted at 20). It might also be worth looking at doing some tests in parallel on the same worker, perhaps using the relatively new MOCHA_WORKER_ID feature, since the tests are often not actually CPU or I/O bound. 2023-03-03 14:53:33 +00:00
(core) bump mocha version to allow parallel tests; move more tests to core Summary: This uses a newer version of mocha in grist-core so that tests can be run in parallel. That allows more tests to be moved without slowing things down overall. Tests moved are venerable browser tests; only the ones that "just work" or worked without too much trouble to are moved, in order to keep the diff from growing too large. Will wrestle with more in follow up. Parallelism is at the file level, rather than the individual test. The newer version of mocha isn't needed for grist-saas repo; tests are parallelized in our internal CI by other means. I've chosen to allocate files to workers in a cruder way than our internal CI, based on initial characters rather than an automated process. The automated process would need some reworking to be compatible with mocha running in parallel mode. Test Plan: this diff was tested first on grist-core, then ported to grist-saas so saas repo history will correctly track history of moved files. Reviewers: jarek Reviewed By: jarek Subscribers: jarek Differential Revision: https://phab.getgrist.com/D3927 2023-06-27 06:11:08 +00:00			`const group = Number(match[1]);`
			`const groupCount = Number(match[2]);`
			`if (!(group >= 1 && group <= groupCount)) {`
			assert.fail(`Invalid test split spec '${testSplits}': index must be in range 1..{groupCount}`);
			`}`
run grist-core test batches in parallel (#444) This sets up a framework for running tests in parallel. It increases the total time taken (since some steps are repeated) but reduces the turn-around time significantly overall. The main objective is to make it possible to release more test batches to grist-core without bringing CI to a crawl. The clever little test/split-test.js script is from the Grist Labs mono-repo and is Dmitry's work. I considered doing the build in one job, and copying it to test jobs, since it feels wasteful to repeat it. That may be worth trying, especially if we start getting jobs backing up (total concurrent Linux jobs on free plan is quoted at 20). It might also be worth looking at doing some tests in parallel on the same worker, perhaps using the relatively new MOCHA_WORKER_ID feature, since the tests are often not actually CPU or I/O bound. 2023-03-03 14:53:33 +00:00
(core) bump mocha version to allow parallel tests; move more tests to core Summary: This uses a newer version of mocha in grist-core so that tests can be run in parallel. That allows more tests to be moved without slowing things down overall. Tests moved are venerable browser tests; only the ones that "just work" or worked without too much trouble to are moved, in order to keep the diff from growing too large. Will wrestle with more in follow up. Parallelism is at the file level, rather than the individual test. The newer version of mocha isn't needed for grist-saas repo; tests are parallelized in our internal CI by other means. I've chosen to allocate files to workers in a cruder way than our internal CI, based on initial characters rather than an automated process. The automated process would need some reworking to be compatible with mocha running in parallel mode. Test Plan: this diff was tested first on grist-core, then ported to grist-saas so saas repo history will correctly track history of moved files. Reviewers: jarek Reviewed By: jarek Subscribers: jarek Differential Revision: https://phab.getgrist.com/D3927 2023-06-27 06:11:08 +00:00			`const testParent = this.test.parent;`
			`const timings = getTimings();`
			`const groups = groupSuites(testParent.suites, timings, groupCount);`
run grist-core test batches in parallel (#444) This sets up a framework for running tests in parallel. It increases the total time taken (since some steps are repeated) but reduces the turn-around time significantly overall. The main objective is to make it possible to release more test batches to grist-core without bringing CI to a crawl. The clever little test/split-test.js script is from the Grist Labs mono-repo and is Dmitry's work. I considered doing the build in one job, and copying it to test jobs, since it feels wasteful to repeat it. That may be worth trying, especially if we start getting jobs backing up (total concurrent Linux jobs on free plan is quoted at 20). It might also be worth looking at doing some tests in parallel on the same worker, perhaps using the relatively new MOCHA_WORKER_ID feature, since the tests are often not actually CPU or I/O bound. 2023-03-03 14:53:33 +00:00
(core) bump mocha version to allow parallel tests; move more tests to core Summary: This uses a newer version of mocha in grist-core so that tests can be run in parallel. That allows more tests to be moved without slowing things down overall. Tests moved are venerable browser tests; only the ones that "just work" or worked without too much trouble to are moved, in order to keep the diff from growing too large. Will wrestle with more in follow up. Parallelism is at the file level, rather than the individual test. The newer version of mocha isn't needed for grist-saas repo; tests are parallelized in our internal CI by other means. I've chosen to allocate files to workers in a cruder way than our internal CI, based on initial characters rather than an automated process. The automated process would need some reworking to be compatible with mocha running in parallel mode. Test Plan: this diff was tested first on grist-core, then ported to grist-saas so saas repo history will correctly track history of moved files. Reviewers: jarek Reviewed By: jarek Subscribers: jarek Differential Revision: https://phab.getgrist.com/D3927 2023-06-27 06:11:08 +00:00			`testParent.suites = groups[group - 1]; // Convert to a 0-based index.`
			console.log(`Split tests groups; will run group ${group} of ${groupCount}`);
			`done();`
			`}`
			`};`
run grist-core test batches in parallel (#444) This sets up a framework for running tests in parallel. It increases the total time taken (since some steps are repeated) but reduces the turn-around time significantly overall. The main objective is to make it possible to release more test batches to grist-core without bringing CI to a crawl. The clever little test/split-test.js script is from the Grist Labs mono-repo and is Dmitry's work. I considered doing the build in one job, and copying it to test jobs, since it feels wasteful to repeat it. That may be worth trying, especially if we start getting jobs backing up (total concurrent Linux jobs on free plan is quoted at 20). It might also be worth looking at doing some tests in parallel on the same worker, perhaps using the relatively new MOCHA_WORKER_ID feature, since the tests are often not actually CPU or I/O bound. 2023-03-03 14:53:33 +00:00
			`/**`
			`* Read timings from timingsFile into a Map mapping file-suite-title to duration.`
			`*/`
			`function getTimings() {`
			`const timings = new Map();`
			`try {`
			`const content = fs.readFileSync(timingsFile, {encoding: 'utf8'})`
			`for (const line of content.split(/\r?\n/)) {`
			`const [bigSuite, fileSuite, duration] = line.split(/\s+/);`
			`if (bigSuite === testSuite && !isNaN(Number(duration))) {`
			`timings.set(fileSuite, Number(duration));`
			`}`
			`}`
			`} catch (e) {`
			`if (e.code === 'ENOENT') {`
			console.warn(`No timings found in ${timingsFile}; proceeding without timings`);
			`} else {`
			`throw e;`
			`}`
			`}`
			`return timings;`
			`}`

			`/**`
			`* Splits suites into groups and returns the list of them.`
			`*`
			`* The algorithm to group tests into suites starts goes one by one from longest to shortest,`
			`* adding them to the least filled-up group.`
			`*/`
			`function groupSuites(suites, timings, groupCount) {`
			`// Calculate a fallback value for durations as the average of existing durations.`
			`const totalDuration = Array.from(timings.values()).reduce(((s, dur) => s + dur), 0);`
			`if (!totalDuration) {`
			`console.warn("No timings; assuming all tests are equally long");`
			`}`
			`const fallbackDuration = totalDuration ? totalDuration / timings.size : 1000;`

			`const groups = Array.from(Array(groupCount), () => []);`
			`const groupDurations = groups.map(() => 0);`

			`// Check for duplicate suite titles.`
			`const suitesByTitle = new Map(suites.map(s => [s.title, s]));`
			`for (const suite of suites) {`
			`if (suitesByTitle.get(suite.title) !== suite) {`
			assert.fail(`Please fix duplicate suite title: ${suite.title}`);
			`}`
			`}`

			`// Get timing for the given suite, falling back to fallbackDuration.`
			`function getTiming(suite) {`
			`const value = timings.get(suite.title);`
			`return (typeof value !== 'number' \|\| isNaN(value)) ? fallbackDuration : value;`
			`}`

			`// Sort suites by descending duration.`
			`const sortedSuites = suites.slice().sort((a, b) => getTiming(b) - getTiming(a));`

			`for (const suite of sortedSuites) {`
			`// Pick a least-duration group.`
			`const index = groupDurations.indexOf(Math.min(...groupDurations));`
			`groups[index].push(suite);`
			`groupDurations[index] += getTiming(suite);`
			`}`

			`// Sort each group alphabetically by title.`
			`for (const group of groups) {`
			`group.sort((a, b) => a.title < b.title ? -1 : 1);`
			`}`
			`return groups;`
			`}`