// +build ignore // Run tests for all the remotes // // Run with go run test_all.go package main import ( "flag" "log" "os" "os/exec" "regexp" "runtime" "strings" "time" "github.com/ncw/rclone/fs" _ "github.com/ncw/rclone/fs/all" // import all fs "github.com/ncw/rclone/fstest" ) var ( remotes = []string{ "TestAmazonCloudDrive:", "TestB2:", "TestCryptDrive:", "TestCryptSwift:", "TestDrive:", "TestDropbox:", "TestGoogleCloudStorage:", "TestHubic:", "TestOneDrive:", "TestS3:", "TestSftp:", "TestSwift:", "TestYandex:", "TestFTP:", } binary = "fs.test" // Flags maxTries = flag.Int("maxtries", 5, "Number of times to try each test") runTests = flag.String("remotes", "", "Comma separated list of remotes to test, eg 'TestSwift:,TestS3'") verbose = flag.Bool("verbose", false, "Run the tests with -v") clean = flag.Bool("clean", false, "Instead of testing, clean all left over test directories") runOnly = flag.String("run-only", "", "Run only those tests matching the regexp supplied") ) // test holds info about a running test type test struct { remote string subdir bool cmdLine []string cmdString string try int err error output []byte failedTests []string runFlag string } // newTest creates a new test func newTest(remote string, subdir bool) *test { t := &test{ remote: remote, subdir: subdir, cmdLine: []string{"./" + binary, "-remote", remote}, try: 1, } if *verbose { t.cmdLine = append(t.cmdLine, "-test.v") } if *runOnly != "" { t.cmdLine = append(t.cmdLine, "-test.run", *runOnly) } if subdir { t.cmdLine = append(t.cmdLine, "-subdir") } t.cmdString = strings.Join(t.cmdLine, " ") return t } // dumpOutput prints the error output func (t *test) dumpOutput() { log.Println("------------------------------------------------------------") log.Printf("---- %q ----", t.cmdString) log.Println(string(t.output)) log.Println("------------------------------------------------------------") } var failRe = regexp.MustCompile(`(?m)^--- FAIL: (Test\w*) \(`) // findFailures looks for all the tests which failed func (t *test) findFailures() { oldFailedTests := t.failedTests t.failedTests = nil for _, matches := range failRe.FindAllSubmatch(t.output, -1) { t.failedTests = append(t.failedTests, string(matches[1])) } if len(t.failedTests) != 0 { t.runFlag = "^(" + strings.Join(t.failedTests, "|") + ")$" } else { t.runFlag = "" } if t.passed() && len(t.failedTests) != 0 { log.Printf("%q - Expecting no errors but got: %v", t.cmdString, t.failedTests) t.dumpOutput() } else if !t.passed() && len(t.failedTests) == 0 { log.Printf("%q - Expecting errors but got none: %v", t.cmdString, t.failedTests) t.dumpOutput() t.failedTests = oldFailedTests } } // trial runs a single test func (t *test) trial() { cmdLine := t.cmdLine[:] if t.runFlag != "" { cmdLine = append(cmdLine, "-test.run", t.runFlag) } cmdString := strings.Join(cmdLine, " ") log.Printf("%q - Starting (try %d/%d)", cmdString, t.try, *maxTries) cmd := exec.Command(cmdLine[0], cmdLine[1:]...) start := time.Now() t.output, t.err = cmd.CombinedOutput() duration := time.Since(start) t.findFailures() if t.passed() { log.Printf("%q - Finished OK in %v (try %d/%d)", cmdString, duration, t.try, *maxTries) } else { log.Printf("%q - Finished ERROR in %v (try %d/%d): %v: Failed %v", cmdString, duration, t.try, *maxTries, t.err, t.failedTests) } } // cleanFs runs a single clean fs for left over directories func (t *test) cleanFs() error { f, err := fs.NewFs(t.remote) if err != nil { return err } dirs, err := fs.NewLister().SetLevel(1).Start(f, "").GetDirs() if err != nil { return err } for _, dir := range dirs { if fstest.MatchTestRemote.MatchString(dir.Name) { log.Printf("Purging %s%s", t.remote, dir.Name) dir, err := fs.NewFs(t.remote + dir.Name) if err != nil { return err } err = fs.Purge(dir) if err != nil { return err } } } return nil } // clean runs a single clean on a fs for left over directories func (t *test) clean() { log.Printf("%q - Starting clean (try %d/%d)", t.remote, t.try, *maxTries) start := time.Now() t.err = t.cleanFs() if t.err != nil { log.Printf("%q - Failed to purge %v", t.remote, t.err) } duration := time.Since(start) if t.passed() { log.Printf("%q - Finished OK in %v (try %d/%d)", t.cmdString, duration, t.try, *maxTries) } else { log.Printf("%q - Finished ERROR in %v (try %d/%d): %v", t.cmdString, duration, t.try, *maxTries, t.err) } } // passed returns true if the test passed func (t *test) passed() bool { return t.err == nil } // run runs all the trials for this test func (t *test) run(result chan<- *test) { for t.try = 1; t.try <= *maxTries; t.try++ { if *clean { if !t.subdir { t.clean() } } else { t.trial() } if t.passed() { break } } if !t.passed() { t.dumpOutput() } result <- t } // makeTestBinary makes the binary we will run func makeTestBinary() { if runtime.GOOS == "windows" { binary += ".exe" } log.Printf("Making test binary %q", binary) err := exec.Command("go", "test", "-c", "-o", binary).Run() if err != nil { log.Fatalf("Failed to make test binary: %v", err) } if _, err := os.Stat(binary); err != nil { log.Fatalf("Couldn't find test binary %q", binary) } } // removeTestBinary removes the binary made in makeTestBinary func removeTestBinary() { err := os.Remove(binary) // Delete the binary when finished if err != nil { log.Printf("Error removing test binary %q: %v", binary, err) } } func main() { flag.Parse() if *runTests != "" { remotes = strings.Split(*runTests, ",") } log.Printf("Testing remotes: %s", strings.Join(remotes, ", ")) start := time.Now() if *clean { fs.LoadConfig() } else { makeTestBinary() defer removeTestBinary() } // start the tests results := make(chan *test, 8) awaiting := 0 for _, remote := range remotes { awaiting += 2 go newTest(remote, false).run(results) go newTest(remote, true).run(results) } // Wait for the tests to finish var failed []*test for ; awaiting > 0; awaiting-- { t := <-results if !t.passed() { failed = append(failed, t) } } duration := time.Since(start) // Summarise results if len(failed) == 0 { log.Printf("PASS: All tests finished OK in %v", duration) } else { log.Printf("FAIL: %d tests failed in %v", len(failed), duration) for _, t := range failed { log.Printf(" * %s", t.cmdString) } os.Exit(1) } }