package main import ( "bytes" "encoding/json" "errors" "fmt" "io" "io/ioutil" "net" "net/http" "net/http/httptest" "net/url" "os" "os/exec" "path" "path/filepath" "strconv" "strings" "time" "github.com/docker/docker/api/types" "github.com/docker/docker/integration-cli/checker" "github.com/docker/docker/integration-cli/daemon" "github.com/docker/docker/integration-cli/registry" "github.com/docker/docker/integration-cli/request" "github.com/docker/docker/pkg/stringutils" icmd "github.com/docker/docker/pkg/testutil/cmd" "github.com/go-check/check" ) // Deprecated func daemonHost() string { return request.DaemonHost() } // FIXME(vdemeester) move this away are remove ignoreNoSuchContainer bool func deleteContainer(container ...string) error { return icmd.RunCommand(dockerBinary, append([]string{"rm", "-fv"}, container...)...).Compare(icmd.Success) } func getAllContainers(c *check.C) string { result := icmd.RunCommand(dockerBinary, "ps", "-q", "-a") result.Assert(c, icmd.Success) return result.Combined() } // Deprecated func deleteAllContainers(c *check.C) { containers := getAllContainers(c) if containers != "" { err := deleteContainer(strings.Split(strings.TrimSpace(containers), "\n")...) c.Assert(err, checker.IsNil) } } func getPausedContainers(c *check.C) []string { result := icmd.RunCommand(dockerBinary, "ps", "-f", "status=paused", "-q", "-a") result.Assert(c, icmd.Success) return strings.Fields(result.Combined()) } func unpauseContainer(c *check.C, container string) { dockerCmd(c, "unpause", container) } // Deprecated func unpauseAllContainers(c *check.C) { containers := getPausedContainers(c) for _, value := range containers { unpauseContainer(c, value) } } func deleteImages(images ...string) error { args := []string{dockerBinary, "rmi", "-f"} return icmd.RunCmd(icmd.Cmd{Command: append(args, images...)}).Error } func dockerCmdWithError(args ...string) (string, int, error) { if err := validateArgs(args...); err != nil { return "", 0, err } result := icmd.RunCommand(dockerBinary, args...) if result.Error != nil { return result.Combined(), result.ExitCode, result.Compare(icmd.Success) } return result.Combined(), result.ExitCode, result.Error } func dockerCmdWithStdoutStderr(c *check.C, args ...string) (string, string, int) { if err := validateArgs(args...); err != nil { c.Fatalf(err.Error()) } result := icmd.RunCommand(dockerBinary, args...) c.Assert(result, icmd.Matches, icmd.Success) return result.Stdout(), result.Stderr(), result.ExitCode } func dockerCmd(c *check.C, args ...string) (string, int) { if err := validateArgs(args...); err != nil { c.Fatalf(err.Error()) } result := icmd.RunCommand(dockerBinary, args...) c.Assert(result, icmd.Matches, icmd.Success) return result.Combined(), result.ExitCode } func dockerCmdWithResult(args ...string) *icmd.Result { return icmd.RunCommand(dockerBinary, args...) } func binaryWithArgs(args ...string) []string { return append([]string{dockerBinary}, args...) } // execute a docker command with a timeout func dockerCmdWithTimeout(timeout time.Duration, args ...string) *icmd.Result { if err := validateArgs(args...); err != nil { return &icmd.Result{Error: err} } return icmd.RunCmd(icmd.Cmd{Command: binaryWithArgs(args...), Timeout: timeout}) } // execute a docker command in a directory func dockerCmdInDir(c *check.C, path string, args ...string) (string, int, error) { if err := validateArgs(args...); err != nil { c.Fatalf(err.Error()) } result := icmd.RunCmd(icmd.Cmd{Command: binaryWithArgs(args...), Dir: path}) return result.Combined(), result.ExitCode, result.Error } // validateArgs is a checker to ensure tests are not running commands which are // not supported on platforms. Specifically on Windows this is 'busybox top'. func validateArgs(args ...string) error { if testEnv.DaemonPlatform() != "windows" { return nil } foundBusybox := -1 for key, value := range args { if strings.ToLower(value) == "busybox" { foundBusybox = key } if (foundBusybox != -1) && (key == foundBusybox+1) && (strings.ToLower(value) == "top") { return errors.New("cannot use 'busybox top' in tests on Windows. Use runSleepingContainer()") } } return nil } func findContainerIP(c *check.C, id string, network string) string { out, _ := dockerCmd(c, "inspect", fmt.Sprintf("--format='{{ .NetworkSettings.Networks.%s.IPAddress }}'", network), id) return strings.Trim(out, " \r\n'") } func getContainerCount(c *check.C) int { const containers = "Containers:" result := icmd.RunCommand(dockerBinary, "info") result.Assert(c, icmd.Success) lines := strings.Split(result.Combined(), "\n") for _, line := range lines { if strings.Contains(line, containers) { output := strings.TrimSpace(line) output = strings.TrimLeft(output, containers) output = strings.Trim(output, " ") containerCount, err := strconv.Atoi(output) c.Assert(err, checker.IsNil) return containerCount } } return 0 } // FakeContext creates directories that can be used as a build context type FakeContext struct { Dir string } // Add a file at a path, creating directories where necessary func (f *FakeContext) Add(file, content string) error { return f.addFile(file, []byte(content)) } func (f *FakeContext) addFile(file string, content []byte) error { fp := filepath.Join(f.Dir, filepath.FromSlash(file)) dirpath := filepath.Dir(fp) if dirpath != "." { if err := os.MkdirAll(dirpath, 0755); err != nil { return err } } return ioutil.WriteFile(fp, content, 0644) } // Delete a file at a path func (f *FakeContext) Delete(file string) error { fp := filepath.Join(f.Dir, filepath.FromSlash(file)) return os.RemoveAll(fp) } // Close deletes the context func (f *FakeContext) Close() error { return os.RemoveAll(f.Dir) } func fakeContextFromNewTempDir(c *check.C) *FakeContext { tmp, err := ioutil.TempDir("", "fake-context") c.Assert(err, checker.IsNil) if err := os.Chmod(tmp, 0755); err != nil { c.Fatal(err) } return fakeContextFromDir(tmp) } func fakeContextFromDir(dir string) *FakeContext { return &FakeContext{dir} } func fakeContextWithFiles(c *check.C, files map[string]string) *FakeContext { ctx := fakeContextFromNewTempDir(c) for file, content := range files { if err := ctx.Add(file, content); err != nil { ctx.Close() c.Fatal(err) } } return ctx } func fakeContextAddDockerfile(c *check.C, ctx *FakeContext, dockerfile string) { if err := ctx.Add("Dockerfile", dockerfile); err != nil { ctx.Close() c.Fatal(err) } } func fakeContext(c *check.C, dockerfile string, files map[string]string) *FakeContext { ctx := fakeContextWithFiles(c, files) fakeContextAddDockerfile(c, ctx, dockerfile) return ctx } // FakeStorage is a static file server. It might be running locally or remotely // on test host. type FakeStorage interface { Close() error URL() string CtxDir() string } func fakeBinaryStorage(c *check.C, archives map[string]*bytes.Buffer) FakeStorage { ctx := fakeContextFromNewTempDir(c) for name, content := range archives { if err := ctx.addFile(name, content.Bytes()); err != nil { c.Fatal(err) } } return fakeStorageWithContext(c, ctx) } // fakeStorage returns either a local or remote (at daemon machine) file server func fakeStorage(c *check.C, files map[string]string) FakeStorage { ctx := fakeContextWithFiles(c, files) return fakeStorageWithContext(c, ctx) } // fakeStorageWithContext returns either a local or remote (at daemon machine) file server func fakeStorageWithContext(c *check.C, ctx *FakeContext) FakeStorage { if testEnv.LocalDaemon() { return newLocalFakeStorage(c, ctx) } return newRemoteFileServer(c, ctx) } // localFileStorage is a file storage on the running machine type localFileStorage struct { *FakeContext *httptest.Server } func (s *localFileStorage) URL() string { return s.Server.URL } func (s *localFileStorage) CtxDir() string { return s.FakeContext.Dir } func (s *localFileStorage) Close() error { defer s.Server.Close() return s.FakeContext.Close() } func newLocalFakeStorage(c *check.C, ctx *FakeContext) *localFileStorage { handler := http.FileServer(http.Dir(ctx.Dir)) server := httptest.NewServer(handler) return &localFileStorage{ FakeContext: ctx, Server: server, } } // remoteFileServer is a containerized static file server started on the remote // testing machine to be used in URL-accepting docker build functionality. type remoteFileServer struct { host string // hostname/port web server is listening to on docker host e.g. 0.0.0.0:43712 container string image string ctx *FakeContext } func (f *remoteFileServer) URL() string { u := url.URL{ Scheme: "http", Host: f.host} return u.String() } func (f *remoteFileServer) CtxDir() string { return f.ctx.Dir } func (f *remoteFileServer) Close() error { defer func() { if f.ctx != nil { f.ctx.Close() } if f.image != "" { deleteImages(f.image) } }() if f.container == "" { return nil } return deleteContainer(f.container) } func newRemoteFileServer(c *check.C, ctx *FakeContext) *remoteFileServer { var ( image = fmt.Sprintf("fileserver-img-%s", strings.ToLower(stringutils.GenerateRandomAlphaOnlyString(10))) container = fmt.Sprintf("fileserver-cnt-%s", strings.ToLower(stringutils.GenerateRandomAlphaOnlyString(10))) ) ensureHTTPServerImage(c) // Build the image fakeContextAddDockerfile(c, ctx, `FROM httpserver COPY . /static`) buildImageSuccessfully(c, image, withoutCache, withExternalBuildContext(ctx)) // Start the container dockerCmd(c, "run", "-d", "-P", "--name", container, image) // Find out the system assigned port out, _ := dockerCmd(c, "port", container, "80/tcp") fileserverHostPort := strings.Trim(out, "\n") _, port, err := net.SplitHostPort(fileserverHostPort) if err != nil { c.Fatalf("unable to parse file server host:port: %v", err) } dockerHostURL, err := url.Parse(daemonHost()) if err != nil { c.Fatalf("unable to parse daemon host URL: %v", err) } host, _, err := net.SplitHostPort(dockerHostURL.Host) if err != nil { c.Fatalf("unable to parse docker daemon host:port: %v", err) } return &remoteFileServer{ container: container, image: image, host: fmt.Sprintf("%s:%s", host, port), ctx: ctx} } func inspectFieldAndUnmarshall(c *check.C, name, field string, output interface{}) { str := inspectFieldJSON(c, name, field) err := json.Unmarshal([]byte(str), output) if c != nil { c.Assert(err, check.IsNil, check.Commentf("failed to unmarshal: %v", err)) } } func inspectFilter(name, filter string) (string, error) { format := fmt.Sprintf("{{%s}}", filter) result := icmd.RunCommand(dockerBinary, "inspect", "-f", format, name) if result.Error != nil || result.ExitCode != 0 { return "", fmt.Errorf("failed to inspect %s: %s", name, result.Combined()) } return strings.TrimSpace(result.Combined()), nil } func inspectFieldWithError(name, field string) (string, error) { return inspectFilter(name, fmt.Sprintf(".%s", field)) } func inspectField(c *check.C, name, field string) string { out, err := inspectFilter(name, fmt.Sprintf(".%s", field)) if c != nil { c.Assert(err, check.IsNil) } return out } func inspectFieldJSON(c *check.C, name, field string) string { out, err := inspectFilter(name, fmt.Sprintf("json .%s", field)) if c != nil { c.Assert(err, check.IsNil) } return out } func inspectFieldMap(c *check.C, name, path, field string) string { out, err := inspectFilter(name, fmt.Sprintf("index .%s %q", path, field)) if c != nil { c.Assert(err, check.IsNil) } return out } func inspectMountSourceField(name, destination string) (string, error) { m, err := inspectMountPoint(name, destination) if err != nil { return "", err } return m.Source, nil } func inspectMountPoint(name, destination string) (types.MountPoint, error) { out, err := inspectFilter(name, "json .Mounts") if err != nil { return types.MountPoint{}, err } return inspectMountPointJSON(out, destination) } var errMountNotFound = errors.New("mount point not found") func inspectMountPointJSON(j, destination string) (types.MountPoint, error) { var mp []types.MountPoint if err := json.Unmarshal([]byte(j), &mp); err != nil { return types.MountPoint{}, err } var m *types.MountPoint for _, c := range mp { if c.Destination == destination { m = &c break } } if m == nil { return types.MountPoint{}, errMountNotFound } return *m, nil } func inspectImage(c *check.C, name, filter string) string { args := []string{"inspect", "--type", "image"} if filter != "" { format := fmt.Sprintf("{{%s}}", filter) args = append(args, "-f", format) } args = append(args, name) result := icmd.RunCommand(dockerBinary, args...) result.Assert(c, icmd.Success) return strings.TrimSpace(result.Combined()) } func getIDByName(c *check.C, name string) string { id, err := inspectFieldWithError(name, "Id") c.Assert(err, checker.IsNil) return id } func buildImageSuccessfully(c *check.C, name string, cmdOperators ...func(*icmd.Cmd) func()) { buildImage(name, cmdOperators...).Assert(c, icmd.Success) } func buildImage(name string, cmdOperators ...func(*icmd.Cmd) func()) *icmd.Result { cmd := icmd.Command(dockerBinary, "build", "-t", name) for _, op := range cmdOperators { deferFn := op(&cmd) if deferFn != nil { defer deferFn() } } return icmd.RunCmd(cmd) } func withBuildContextPath(path string) func(*icmd.Cmd) func() { return func(cmd *icmd.Cmd) func() { cmd.Command = append(cmd.Command, path) return nil } } func withExternalBuildContext(ctx *FakeContext) func(*icmd.Cmd) func() { return func(cmd *icmd.Cmd) func() { cmd.Dir = ctx.Dir cmd.Command = append(cmd.Command, ".") return nil } } func withBuildContext(c *check.C, contextOperators ...func(*FakeContext) error) func(*icmd.Cmd) func() { ctx := fakeContextFromNewTempDir(c) for _, op := range contextOperators { if err := op(ctx); err != nil { c.Fatal(err) } } return func(cmd *icmd.Cmd) func() { cmd.Dir = ctx.Dir cmd.Command = append(cmd.Command, ".") return closeBuildContext(c, ctx) } } func withBuildFlags(flags ...string) func(*icmd.Cmd) func() { return func(cmd *icmd.Cmd) func() { cmd.Command = append(cmd.Command, flags...) return nil } } func withoutCache(cmd *icmd.Cmd) func() { cmd.Command = append(cmd.Command, "--no-cache") return nil } func withFile(name, content string) func(*FakeContext) error { return func(ctx *FakeContext) error { return ctx.Add(name, content) } } func closeBuildContext(c *check.C, ctx *FakeContext) func() { return func() { if err := ctx.Close(); err != nil { c.Fatal(err) } } } func withDockerfile(dockerfile string) func(*icmd.Cmd) func() { return func(cmd *icmd.Cmd) func() { cmd.Command = append(cmd.Command, "-") cmd.Stdin = strings.NewReader(dockerfile) return nil } } func trustedBuild(cmd *icmd.Cmd) func() { trustedCmd(cmd) return nil } func withEnvironmentVariales(envs ...string) func(cmd *icmd.Cmd) func() { return func(cmd *icmd.Cmd) func() { cmd.Env = envs return nil } } type gitServer interface { URL() string Close() error } type localGitServer struct { *httptest.Server } func (r *localGitServer) Close() error { r.Server.Close() return nil } func (r *localGitServer) URL() string { return r.Server.URL } type fakeGit struct { root string server gitServer RepoURL string } func (g *fakeGit) Close() { g.server.Close() os.RemoveAll(g.root) } func newFakeGit(c *check.C, name string, files map[string]string, enforceLocalServer bool) *fakeGit { ctx := fakeContextWithFiles(c, files) defer ctx.Close() curdir, err := os.Getwd() if err != nil { c.Fatal(err) } defer os.Chdir(curdir) if output, err := exec.Command("git", "init", ctx.Dir).CombinedOutput(); err != nil { c.Fatalf("error trying to init repo: %s (%s)", err, output) } err = os.Chdir(ctx.Dir) if err != nil { c.Fatal(err) } if output, err := exec.Command("git", "config", "user.name", "Fake User").CombinedOutput(); err != nil { c.Fatalf("error trying to set 'user.name': %s (%s)", err, output) } if output, err := exec.Command("git", "config", "user.email", "fake.user@example.com").CombinedOutput(); err != nil { c.Fatalf("error trying to set 'user.email': %s (%s)", err, output) } if output, err := exec.Command("git", "add", "*").CombinedOutput(); err != nil { c.Fatalf("error trying to add files to repo: %s (%s)", err, output) } if output, err := exec.Command("git", "commit", "-a", "-m", "Initial commit").CombinedOutput(); err != nil { c.Fatalf("error trying to commit to repo: %s (%s)", err, output) } root, err := ioutil.TempDir("", "docker-test-git-repo") if err != nil { c.Fatal(err) } repoPath := filepath.Join(root, name+".git") if output, err := exec.Command("git", "clone", "--bare", ctx.Dir, repoPath).CombinedOutput(); err != nil { os.RemoveAll(root) c.Fatalf("error trying to clone --bare: %s (%s)", err, output) } err = os.Chdir(repoPath) if err != nil { os.RemoveAll(root) c.Fatal(err) } if output, err := exec.Command("git", "update-server-info").CombinedOutput(); err != nil { os.RemoveAll(root) c.Fatalf("error trying to git update-server-info: %s (%s)", err, output) } err = os.Chdir(curdir) if err != nil { os.RemoveAll(root) c.Fatal(err) } var server gitServer if !enforceLocalServer { // use fakeStorage server, which might be local or remote (at test daemon) server = fakeStorageWithContext(c, fakeContextFromDir(root)) } else { // always start a local http server on CLI test machine httpServer := httptest.NewServer(http.FileServer(http.Dir(root))) server = &localGitServer{httpServer} } return &fakeGit{ root: root, server: server, RepoURL: fmt.Sprintf("%s/%s.git", server.URL(), name), } } // Write `content` to the file at path `dst`, creating it if necessary, // as well as any missing directories. // The file is truncated if it already exists. // Fail the test when error occurs. func writeFile(dst, content string, c *check.C) { // Create subdirectories if necessary c.Assert(os.MkdirAll(path.Dir(dst), 0700), check.IsNil) f, err := os.OpenFile(dst, os.O_CREATE|os.O_RDWR|os.O_TRUNC, 0700) c.Assert(err, check.IsNil) defer f.Close() // Write content (truncate if it exists) _, err = io.Copy(f, strings.NewReader(content)) c.Assert(err, check.IsNil) } // Return the contents of file at path `src`. // Fail the test when error occurs. func readFile(src string, c *check.C) (content string) { data, err := ioutil.ReadFile(src) c.Assert(err, check.IsNil) return string(data) } func containerStorageFile(containerID, basename string) string { return filepath.Join(testEnv.ContainerStoragePath(), containerID, basename) } // docker commands that use this function must be run with the '-d' switch. func runCommandAndReadContainerFile(c *check.C, filename string, command string, args ...string) []byte { result := icmd.RunCommand(command, args...) result.Assert(c, icmd.Success) contID := strings.TrimSpace(result.Combined()) if err := waitRun(contID); err != nil { c.Fatalf("%v: %q", contID, err) } return readContainerFile(c, contID, filename) } func readContainerFile(c *check.C, containerID, filename string) []byte { f, err := os.Open(containerStorageFile(containerID, filename)) c.Assert(err, checker.IsNil) defer f.Close() content, err := ioutil.ReadAll(f) c.Assert(err, checker.IsNil) return content } func readContainerFileWithExec(c *check.C, containerID, filename string) []byte { result := icmd.RunCommand(dockerBinary, "exec", containerID, "cat", filename) result.Assert(c, icmd.Success) return []byte(result.Combined()) } // daemonTime provides the current time on the daemon host func daemonTime(c *check.C) time.Time { if testEnv.LocalDaemon() { return time.Now() } status, body, err := request.SockRequest("GET", "/info", nil, daemonHost()) c.Assert(err, check.IsNil) c.Assert(status, check.Equals, http.StatusOK) type infoJSON struct { SystemTime string } var info infoJSON err = json.Unmarshal(body, &info) c.Assert(err, check.IsNil, check.Commentf("unable to unmarshal GET /info response")) dt, err := time.Parse(time.RFC3339Nano, info.SystemTime) c.Assert(err, check.IsNil, check.Commentf("invalid time format in GET /info response")) return dt } // daemonUnixTime returns the current time on the daemon host with nanoseconds precision. // It return the time formatted how the client sends timestamps to the server. func daemonUnixTime(c *check.C) string { return parseEventTime(daemonTime(c)) } func parseEventTime(t time.Time) string { return fmt.Sprintf("%d.%09d", t.Unix(), int64(t.Nanosecond())) } func setupRegistry(c *check.C, schema1 bool, auth, tokenURL string) *registry.V2 { reg, err := registry.NewV2(schema1, auth, tokenURL, privateRegistryURL) c.Assert(err, check.IsNil) // Wait for registry to be ready to serve requests. for i := 0; i != 50; i++ { if err = reg.Ping(); err == nil { break } time.Sleep(100 * time.Millisecond) } c.Assert(err, check.IsNil, check.Commentf("Timeout waiting for test registry to become available: %v", err)) return reg } func setupNotary(c *check.C) *testNotary { ts, err := newTestNotary(c) c.Assert(err, check.IsNil) return ts } // appendBaseEnv appends the minimum set of environment variables to exec the // docker cli binary for testing with correct configuration to the given env // list. func appendBaseEnv(isTLS bool, env ...string) []string { preserveList := []string{ // preserve remote test host "DOCKER_HOST", // windows: requires preserving SystemRoot, otherwise dial tcp fails // with "GetAddrInfoW: A non-recoverable error occurred during a database lookup." "SystemRoot", // testing help text requires the $PATH to dockerd is set "PATH", } if isTLS { preserveList = append(preserveList, "DOCKER_TLS_VERIFY", "DOCKER_CERT_PATH") } for _, key := range preserveList { if val := os.Getenv(key); val != "" { env = append(env, fmt.Sprintf("%s=%s", key, val)) } } return env } func createTmpFile(c *check.C, content string) string { f, err := ioutil.TempFile("", "testfile") c.Assert(err, check.IsNil) filename := f.Name() err = ioutil.WriteFile(filename, []byte(content), 0644) c.Assert(err, check.IsNil) return filename } func waitForContainer(contID string, args ...string) error { args = append([]string{dockerBinary, "run", "--name", contID}, args...) result := icmd.RunCmd(icmd.Cmd{Command: args}) if result.Error != nil { return result.Error } return waitRun(contID) } // waitRestart will wait for the specified container to restart once func waitRestart(contID string, duration time.Duration) error { return waitInspect(contID, "{{.RestartCount}}", "1", duration) } // waitRun will wait for the specified container to be running, maximum 5 seconds. func waitRun(contID string) error { return waitInspect(contID, "{{.State.Running}}", "true", 5*time.Second) } // waitExited will wait for the specified container to state exit, subject // to a maximum time limit in seconds supplied by the caller func waitExited(contID string, duration time.Duration) error { return waitInspect(contID, "{{.State.Status}}", "exited", duration) } // waitInspect will wait for the specified container to have the specified string // in the inspect output. It will wait until the specified timeout (in seconds) // is reached. func waitInspect(name, expr, expected string, timeout time.Duration) error { return waitInspectWithArgs(name, expr, expected, timeout) } func waitInspectWithArgs(name, expr, expected string, timeout time.Duration, arg ...string) error { return daemon.WaitInspectWithArgs(dockerBinary, name, expr, expected, timeout, arg...) } func getInspectBody(c *check.C, version, id string) []byte { endpoint := fmt.Sprintf("/%s/containers/%s/json", version, id) status, body, err := request.SockRequest("GET", endpoint, nil, daemonHost()) c.Assert(err, check.IsNil) c.Assert(status, check.Equals, http.StatusOK) return body } // Run a long running idle task in a background container using the // system-specific default image and command. func runSleepingContainer(c *check.C, extraArgs ...string) (string, int) { return runSleepingContainerInImage(c, defaultSleepImage, extraArgs...) } // Run a long running idle task in a background container using the specified // image and the system-specific command. func runSleepingContainerInImage(c *check.C, image string, extraArgs ...string) (string, int) { args := []string{"run", "-d"} args = append(args, extraArgs...) args = append(args, image) args = append(args, sleepCommandForDaemonPlatform()...) return dockerCmd(c, args...) } // minimalBaseImage returns the name of the minimal base image for the current // daemon platform. func minimalBaseImage() string { return testEnv.MinimalBaseImage() } func getGoroutineNumber() (int, error) { i := struct { NGoroutines int }{} status, b, err := request.SockRequest("GET", "/info", nil, daemonHost()) if err != nil { return 0, err } if status != http.StatusOK { return 0, fmt.Errorf("http status code: %d", status) } if err := json.Unmarshal(b, &i); err != nil { return 0, err } return i.NGoroutines, nil } func waitForGoroutines(expected int) error { t := time.After(30 * time.Second) for { select { case <-t: n, err := getGoroutineNumber() if err != nil { return err } if n > expected { return fmt.Errorf("leaked goroutines: expected less than or equal to %d, got: %d", expected, n) } default: n, err := getGoroutineNumber() if err != nil { return err } if n <= expected { return nil } time.Sleep(200 * time.Millisecond) } } } // getErrorMessage returns the error message from an error API response func getErrorMessage(c *check.C, body []byte) string { var resp types.ErrorResponse c.Assert(json.Unmarshal(body, &resp), check.IsNil) return strings.TrimSpace(resp.Message) } func waitAndAssert(c *check.C, timeout time.Duration, f checkF, checker check.Checker, args ...interface{}) { after := time.After(timeout) for { v, comment := f(c) assert, _ := checker.Check(append([]interface{}{v}, args...), checker.Info().Params) select { case <-after: assert = true default: } if assert { if comment != nil { args = append(args, comment) } c.Assert(v, checker, args...) return } time.Sleep(100 * time.Millisecond) } } type checkF func(*check.C) (interface{}, check.CommentInterface) type reducer func(...interface{}) interface{} func reducedCheck(r reducer, funcs ...checkF) checkF { return func(c *check.C) (interface{}, check.CommentInterface) { var values []interface{} var comments []string for _, f := range funcs { v, comment := f(c) values = append(values, v) if comment != nil { comments = append(comments, comment.CheckCommentString()) } } return r(values...), check.Commentf("%v", strings.Join(comments, ", ")) } } func sumAsIntegers(vals ...interface{}) interface{} { var s int for _, v := range vals { s += v.(int) } return s }