예제 #1
0
func getLabels(target *core.BuildTarget, prefix string, minState core.BuildTargetState) []string {
	if target.State() < minState {
		log.Fatalf("get_labels called on a target that is not yet built: %s", target.Label)
	}
	labels := map[string]bool{}
	done := map[*core.BuildTarget]bool{}
	var getLabels func(*core.BuildTarget)
	getLabels = func(t *core.BuildTarget) {
		for _, label := range t.Labels {
			if strings.HasPrefix(label, prefix) {
				labels[strings.TrimSpace(strings.TrimPrefix(label, prefix))] = true
			}
		}
		done[t] = true
		if !t.OutputIsComplete || t == target {
			for _, dep := range t.Dependencies() {
				if !done[dep] {
					getLabels(dep)
				}
			}
		}
	}
	getLabels(target)
	ret := make([]string, len(labels))
	i := 0
	for label := range labels {
		ret[i] = label
		i++
	}
	sort.Strings(ret)
	return ret
}
예제 #2
0
func (m *metrics) record(target *core.BuildTarget, duration time.Duration) {
	if target.Results.NumTests > 0 {
		// Tests have run
		m.cacheCounter.WithLabelValues(b(target.Results.Cached)).Inc()
		m.testCounter.WithLabelValues(b(target.Results.Failed == 0)).Inc()
		if target.Results.Cached {
			m.cacheHistogram.WithLabelValues().Observe(duration.Seconds())
		} else if target.Results.Failed == 0 {
			m.testHistogram.WithLabelValues().Observe(duration.Seconds())
		}
	} else {
		// Build has run
		state := target.State()
		m.cacheCounter.WithLabelValues(b(state == core.Cached)).Inc()
		m.buildCounter.WithLabelValues(b(state != core.Failed), b(state != core.Reused)).Inc()
		if state == core.Cached {
			m.cacheHistogram.WithLabelValues().Observe(duration.Seconds())
		} else if state != core.Failed && state >= core.Built {
			m.buildHistogram.WithLabelValues().Observe(duration.Seconds())
		}
	}
	m.newMetrics = true
}
예제 #3
0
func test(tid int, state *core.BuildState, label core.BuildLabel, target *core.BuildTarget) {
	startTime := time.Now()
	hash, err := build.RuntimeHash(state, target)
	if err != nil {
		state.LogBuildError(tid, label, core.TargetTestFailed, err, "Failed to calculate target hash")
		return
	}
	// Check the cached output files if the target wasn't rebuilt.
	hash = core.CollapseHash(hash)
	hashStr := base64.RawURLEncoding.EncodeToString(hash)
	resultsFileName := fmt.Sprintf(".test_results_%s_%s", label.Name, hashStr)
	coverageFileName := fmt.Sprintf(".test_coverage_%s_%s", label.Name, hashStr)
	outputFile := path.Join(target.TestDir(), "test.results")
	coverageFile := path.Join(target.TestDir(), "test.coverage")
	cachedOutputFile := path.Join(target.OutDir(), resultsFileName)
	cachedCoverageFile := path.Join(target.OutDir(), coverageFileName)
	needCoverage := state.NeedCoverage && !target.NoTestOutput

	cachedTest := func() {
		log.Debug("Not re-running test %s; got cached results.", label)
		coverage := parseCoverageFile(target, cachedCoverageFile)
		results, err := parseTestResults(target, cachedOutputFile, true)
		target.Results.Duration = time.Since(startTime).Seconds()
		target.Results.Cached = true
		if err != nil {
			state.LogBuildError(tid, label, core.TargetTestFailed, err, "Failed to parse cached test file %s", cachedOutputFile)
		} else if results.Failed > 0 {
			panic("Test results with failures shouldn't be cached.")
		} else {
			logTestSuccess(state, tid, label, results, coverage)
		}
	}

	moveAndCacheOutputFiles := func(results core.TestResults, coverage core.TestCoverage) bool {
		// Never cache test results when given arguments; the results may be incomplete.
		if len(state.TestArgs) > 0 {
			log.Debug("Not caching results for %s, we passed it arguments", label)
			return true
		}
		if err := moveAndCacheOutputFile(state, target, hash, outputFile, cachedOutputFile, resultsFileName, dummyOutput); err != nil {
			state.LogTestResult(tid, label, core.TargetTestFailed, results, coverage, err, "Failed to move test output file")
			return false
		}
		if needCoverage || core.PathExists(coverageFile) {
			if err := moveAndCacheOutputFile(state, target, hash, coverageFile, cachedCoverageFile, coverageFileName, dummyCoverage); err != nil {
				state.LogTestResult(tid, label, core.TargetTestFailed, results, coverage, err, "Failed to move test coverage file")
				return false
			}
		}
		for _, output := range target.TestOutputs {
			tmpFile := path.Join(target.TestDir(), output)
			outFile := path.Join(target.OutDir(), output)
			if err := moveAndCacheOutputFile(state, target, hash, tmpFile, outFile, output, ""); err != nil {
				state.LogTestResult(tid, label, core.TargetTestFailed, results, coverage, err, "Failed to move test output file")
				return false
			}
		}
		return true
	}

	needToRun := func() bool {
		if target.State() == core.Unchanged && core.PathExists(cachedOutputFile) {
			// Output file exists already and appears to be valid. We might still need to rerun though
			// if the coverage files aren't available.
			if needCoverage && !core.PathExists(cachedCoverageFile) {
				return true
			}
			return false
		}
		// Check the cache for these artifacts.
		if state.Cache == nil {
			return true
		}
		cache := *state.Cache
		if !cache.RetrieveExtra(target, hash, resultsFileName) {
			return true
		}
		if needCoverage && !cache.RetrieveExtra(target, hash, coverageFileName) {
			return true
		}
		for _, output := range target.TestOutputs {
			if !cache.RetrieveExtra(target, hash, output) {
				return true
			}
		}
		return false
	}

	// Don't cache when doing multiple runs, presumably the user explicitly wants to check it.
	if state.NumTestRuns <= 1 && !needToRun() {
		cachedTest()
		return
	}
	// Remove any cached test result file.
	if err := RemoveCachedTestFiles(target); err != nil {
		state.LogBuildError(tid, label, core.TargetTestFailed, err, "Failed to remove cached test files")
		return
	}
	numSucceeded := 0
	numFlakes := 0
	numRuns, successesRequired := calcNumRuns(state.NumTestRuns, target.Flakiness)
	var resultErr error
	resultMsg := ""
	var coverage core.TestCoverage
	for i := 0; i < numRuns && numSucceeded < successesRequired; i++ {
		if numRuns > 1 {
			state.LogBuildResult(tid, label, core.TargetTesting, fmt.Sprintf("Testing (%d of %d)...", i+1, numRuns))
		}
		out, err := prepareAndRunTest(tid, state, target)
		duration := time.Since(startTime).Seconds()
		startTime = time.Now() // reset this for next time

		// This is all pretty involved; there are lots of different possibilities of what could happen.
		// The contract is that the test must return zero on success or non-zero on failure (Unix FTW).
		// If it's successful, it must produce a parseable file named "test.results" in its temp folder.
		// (alternatively, this can be a directory containing parseable files).
		// Tests can opt out of the file requirement individually, in which case they're judged only
		// by their return value.
		// But of course, we still have to consider all the alternatives here and handle them nicely.
		target.Results.Output = string(out)
		if err != nil && target.Results.Output == "" {
			target.Results.Output = err.Error()
		}
		target.Results.TimedOut = err == context.DeadlineExceeded
		coverage = parseCoverageFile(target, coverageFile)
		target.Results.Duration += duration
		if !core.PathExists(outputFile) {
			if err == nil && target.NoTestOutput {
				target.Results.NumTests += 1
				target.Results.Passed += 1
				numSucceeded++
			} else if err == nil {
				target.Results.NumTests++
				target.Results.Failed++
				target.Results.Failures = append(target.Results.Failures, core.TestFailure{
					Name:   "Missing results",
					Stdout: string(out),
				})
				resultErr = fmt.Errorf("Test failed to produce output results file")
				resultMsg = fmt.Sprintf("Test apparently succeeded but failed to produce %s. Output: %s", outputFile, string(out))
				numFlakes++
			} else {
				target.Results.NumTests++
				target.Results.Failed++
				target.Results.Failures = append(target.Results.Failures, core.TestFailure{
					Name:   "Test failed with no results",
					Stdout: string(out),
				})
				numFlakes++
				resultErr = err
				resultMsg = fmt.Sprintf("Test failed with no results. Output: %s", string(out))
			}
		} else {
			results, err2 := parseTestResults(target, outputFile, false)
			if err2 != nil {
				resultErr = err2
				resultMsg = fmt.Sprintf("Couldn't parse test output file: %s. Stdout: %s", err2, string(out))
				numFlakes++
			} else if err != nil && results.Failed == 0 {
				// Add a failure result to the test so it shows up in the final aggregation.
				target.Results.Failed = 1
				target.Results.Failures = append(results.Failures, core.TestFailure{
					Name:   "Return value",
					Type:   fmt.Sprintf("%s", err),
					Stdout: string(out),
				})
				numFlakes++
				resultErr = err
				resultMsg = fmt.Sprintf("Test returned nonzero but reported no errors: %s. Output: %s", err, string(out))
			} else if err == nil && results.Failed != 0 {
				resultErr = fmt.Errorf("Test returned 0 but still reported failures")
				resultMsg = fmt.Sprintf("Test returned 0 but still reported failures. Stdout: %s", string(out))
				numFlakes++
			} else if results.Failed != 0 {
				resultErr = fmt.Errorf("Tests failed")
				resultMsg = fmt.Sprintf("Tests failed. Stdout: %s", string(out))
				numFlakes++
			} else {
				numSucceeded++
				if !state.ShowTestOutput {
					// Save a bit of memory, if we're not printing results on success we will never use them again.
					target.Results.Output = ""
				}
			}
		}
	}
	if numSucceeded >= successesRequired {
		target.Results.Failures = nil // Remove any failures, they don't count
		target.Results.Failed = 0     // (they'll be picked up as flakes below)
		if numSucceeded > 0 && numFlakes > 0 {
			target.Results.Flakes = numFlakes
		}
		// Success, clean things up
		if moveAndCacheOutputFiles(target.Results, coverage) {
			logTestSuccess(state, tid, label, target.Results, coverage)
		}
		// Clean up the test directory.
		if state.CleanWorkdirs {
			if err := os.RemoveAll(target.TestDir()); err != nil {
				log.Warning("Failed to remove test directory for %s: %s", target.Label, err)
			}
		}
	} else {
		state.LogTestResult(tid, label, core.TargetTestFailed, target.Results, coverage, resultErr, resultMsg)
	}
}