package command import ( "bytes" "crypto/md5" "encoding/base64" "encoding/json" "flag" "fmt" "io" "io/ioutil" "log" "net/http" "net/http/httptest" "os" "os/exec" "path/filepath" "strings" "syscall" "testing" svchost "github.com/hashicorp/terraform-svchost" "github.com/hashicorp/terraform-svchost/disco" "github.com/hashicorp/terraform/internal/getproviders" "github.com/hashicorp/terraform/internal/initwd" "github.com/hashicorp/terraform/registry" "github.com/hashicorp/terraform/addrs" "github.com/hashicorp/terraform/configs" "github.com/hashicorp/terraform/configs/configload" "github.com/hashicorp/terraform/configs/configschema" "github.com/hashicorp/terraform/helper/logging" "github.com/hashicorp/terraform/plans" "github.com/hashicorp/terraform/plans/planfile" "github.com/hashicorp/terraform/providers" "github.com/hashicorp/terraform/provisioners" "github.com/hashicorp/terraform/states" "github.com/hashicorp/terraform/states/statefile" "github.com/hashicorp/terraform/states/statemgr" "github.com/hashicorp/terraform/terraform" "github.com/hashicorp/terraform/version" "github.com/zclconf/go-cty/cty" backendInit "github.com/hashicorp/terraform/backend/init" backendLocal "github.com/hashicorp/terraform/backend/local" ) // These are the directories for our test data and fixtures. var ( fixtureDir = "./testdata" testDataDir = "./testdata" ) // a top level temp directory which will be cleaned after all tests var testingDir string func init() { test = true // Initialize the backends backendInit.Init(nil) // Expand the data and fixture dirs on init because // we change the working directory in some tests. var err error fixtureDir, err = filepath.Abs(fixtureDir) if err != nil { panic(err) } testDataDir, err = filepath.Abs(testDataDir) if err != nil { panic(err) } testingDir, err = ioutil.TempDir(testingDir, "tf") if err != nil { panic(err) } } func TestMain(m *testing.M) { defer os.RemoveAll(testingDir) flag.Parse() if testing.Verbose() { // if we're verbose, use the logging requested by TF_LOG logging.SetOutput() } else { // otherwise silence all logs log.SetOutput(ioutil.Discard) } // Make sure backend init is initialized, since our tests tend to assume it. backendInit.Init(nil) os.Exit(m.Run()) } func tempDir(t *testing.T) string { t.Helper() dir, err := ioutil.TempDir(testingDir, "tf") if err != nil { t.Fatalf("err: %s", err) } dir, err = filepath.EvalSymlinks(dir) if err != nil { t.Fatal(err) } if err := os.RemoveAll(dir); err != nil { t.Fatalf("err: %s", err) } return dir } func testFixturePath(name string) string { return filepath.Join(fixtureDir, name) } func metaOverridesForProvider(p providers.Interface) *testingOverrides { return &testingOverrides{ Providers: map[addrs.Provider]providers.Factory{ addrs.NewDefaultProvider("test"): providers.FactoryFixed(p), }, } } func metaOverridesForProviderAndProvisioner(p providers.Interface, pr provisioners.Interface) *testingOverrides { return &testingOverrides{ Providers: map[addrs.Provider]providers.Factory{ addrs.NewDefaultProvider("test"): providers.FactoryFixed(p), }, Provisioners: map[string]provisioners.Factory{ "shell": provisioners.FactoryFixed(pr), }, } } func testModule(t *testing.T, name string) *configs.Config { t.Helper() c, _ := testModuleWithSnapshot(t, name) return c } func testModuleWithSnapshot(t *testing.T, name string) (*configs.Config, *configload.Snapshot) { t.Helper() dir := filepath.Join(fixtureDir, name) // FIXME: We're not dealing with the cleanup function here because // this testModule function is used all over and so we don't want to // change its interface at this late stage. loader, _ := configload.NewLoaderForTests(t) // Test modules usually do not refer to remote sources, and for local // sources only this ultimately just records all of the module paths // in a JSON file so that we can load them below. inst := initwd.NewModuleInstaller(loader.ModulesDir(), registry.NewClient(nil, nil)) _, instDiags := inst.InstallModules(dir, true, initwd.ModuleInstallHooksImpl{}) if instDiags.HasErrors() { t.Fatal(instDiags.Err()) } config, snap, diags := loader.LoadConfigWithSnapshot(dir) if diags.HasErrors() { t.Fatal(diags.Error()) } return config, snap } // testPlan returns a non-nil noop plan. func testPlan(t *testing.T) *plans.Plan { t.Helper() // This is what an empty configuration block would look like after being // decoded with the schema of the "local" backend. backendConfig := cty.ObjectVal(map[string]cty.Value{ "path": cty.NullVal(cty.String), "workspace_dir": cty.NullVal(cty.String), }) backendConfigRaw, err := plans.NewDynamicValue(backendConfig, backendConfig.Type()) if err != nil { t.Fatal(err) } return &plans.Plan{ Backend: plans.Backend{ // This is just a placeholder so that the plan file can be written // out. Caller may wish to override it to something more "real" // where the plan will actually be subsequently applied. Type: "local", Config: backendConfigRaw, }, Changes: plans.NewChanges(), } } func testPlanFile(t *testing.T, configSnap *configload.Snapshot, state *states.State, plan *plans.Plan) string { t.Helper() stateFile := &statefile.File{ Lineage: "", State: state, TerraformVersion: version.SemVer, } path := testTempFile(t) err := planfile.Create(path, configSnap, stateFile, plan) if err != nil { t.Fatalf("failed to create temporary plan file: %s", err) } return path } // testPlanFileNoop is a shortcut function that creates a plan file that // represents no changes and returns its path. This is useful when a test // just needs any plan file, and it doesn't matter what is inside it. func testPlanFileNoop(t *testing.T) string { snap := &configload.Snapshot{ Modules: map[string]*configload.SnapshotModule{ "": { Dir: ".", Files: map[string][]byte{ "main.tf": nil, }, }, }, } state := states.NewState() plan := testPlan(t) return testPlanFile(t, snap, state, plan) } func testReadPlan(t *testing.T, path string) *plans.Plan { t.Helper() f, err := planfile.Open(path) if err != nil { t.Fatalf("error opening plan file %q: %s", path, err) } defer f.Close() p, err := f.ReadPlan() if err != nil { t.Fatalf("error reading plan from plan file %q: %s", path, err) } return p } // testState returns a test State structure that we use for a lot of tests. func testState() *states.State { return states.BuildState(func(s *states.SyncState) { s.SetResourceInstanceCurrent( addrs.Resource{ Mode: addrs.ManagedResourceMode, Type: "test_instance", Name: "foo", }.Instance(addrs.NoKey).Absolute(addrs.RootModuleInstance), &states.ResourceInstanceObjectSrc{ // The weird whitespace here is reflective of how this would // get written out in a real state file, due to the indentation // of all of the containing wrapping objects and arrays. AttrsJSON: []byte("{\n \"id\": \"bar\"\n }"), Status: states.ObjectReady, Dependencies: []addrs.ConfigResource{}, }, addrs.AbsProviderConfig{ Provider: addrs.NewDefaultProvider("test"), Module: addrs.RootModule, }, ) // DeepCopy is used here to ensure our synthetic state matches exactly // with a state that will have been copied during the command // operation, and all fields have been copied correctly. }).DeepCopy() } // writeStateForTesting is a helper that writes the given naked state to the // given writer, generating a stub *statefile.File wrapper which is then // immediately discarded. func writeStateForTesting(state *states.State, w io.Writer) error { sf := &statefile.File{ Serial: 0, Lineage: "fake-for-testing", State: state, } return statefile.Write(sf, w) } // testStateMgrCurrentLineage returns the current lineage for the given state // manager, or the empty string if it does not use lineage. This is primarily // for testing against the local backend, which always supports lineage. func testStateMgrCurrentLineage(mgr statemgr.Persistent) string { if pm, ok := mgr.(statemgr.PersistentMeta); ok { m := pm.StateSnapshotMeta() return m.Lineage } return "" } // markStateForMatching is a helper that writes a specific marker value to // a state so that it can be recognized later with getStateMatchingMarker. // // Internally this just sets a root module output value called "testing_mark" // to the given string value. If the state is being checked in other ways, // the test code may need to compensate for the addition or overwriting of this // special output value name. // // The given mark string is returned verbatim, to allow the following pattern // in tests: // // mark := markStateForMatching(state, "foo") // // (do stuff to the state) // assertStateHasMarker(state, mark) func markStateForMatching(state *states.State, mark string) string { state.RootModule().SetOutputValue("testing_mark", cty.StringVal(mark), false) return mark } // getStateMatchingMarker is used with markStateForMatching to retrieve the // mark string previously added to the given state. If no such mark is present, // the result is an empty string. func getStateMatchingMarker(state *states.State) string { os := state.RootModule().OutputValues["testing_mark"] if os == nil { return "" } v := os.Value if v.Type() == cty.String && v.IsKnown() && !v.IsNull() { return v.AsString() } return "" } // stateHasMarker is a helper around getStateMatchingMarker that also includes // the equality test, for more convenient use in test assertion branches. func stateHasMarker(state *states.State, want string) bool { return getStateMatchingMarker(state) == want } // assertStateHasMarker wraps stateHasMarker to automatically generate a // fatal test result (i.e. t.Fatal) if the marker doesn't match. func assertStateHasMarker(t *testing.T, state *states.State, want string) { if !stateHasMarker(state, want) { t.Fatalf("wrong state marker\ngot: %q\nwant: %q", getStateMatchingMarker(state), want) } } func testStateFile(t *testing.T, s *states.State) string { t.Helper() path := testTempFile(t) f, err := os.Create(path) if err != nil { t.Fatalf("failed to create temporary state file %s: %s", path, err) } defer f.Close() err = writeStateForTesting(s, f) if err != nil { t.Fatalf("failed to write state to temporary file %s: %s", path, err) } return path } // testStateFileDefault writes the state out to the default statefile // in the cwd. Use `testCwd` to change into a temp cwd. func testStateFileDefault(t *testing.T, s *states.State) { t.Helper() f, err := os.Create(DefaultStateFilename) if err != nil { t.Fatalf("err: %s", err) } defer f.Close() if err := writeStateForTesting(s, f); err != nil { t.Fatalf("err: %s", err) } } // testStateFileWorkspaceDefault writes the state out to the default statefile // for the given workspace in the cwd. Use `testCwd` to change into a temp cwd. func testStateFileWorkspaceDefault(t *testing.T, workspace string, s *states.State) string { t.Helper() workspaceDir := filepath.Join(backendLocal.DefaultWorkspaceDir, workspace) err := os.MkdirAll(workspaceDir, os.ModePerm) if err != nil { t.Fatalf("err: %s", err) } path := filepath.Join(workspaceDir, DefaultStateFilename) f, err := os.Create(path) if err != nil { t.Fatalf("err: %s", err) } defer f.Close() if err := writeStateForTesting(s, f); err != nil { t.Fatalf("err: %s", err) } return path } // testStateFileRemote writes the state out to the remote statefile // in the cwd. Use `testCwd` to change into a temp cwd. func testStateFileRemote(t *testing.T, s *terraform.State) string { t.Helper() path := filepath.Join(DefaultDataDir, DefaultStateFilename) if err := os.MkdirAll(filepath.Dir(path), 0755); err != nil { t.Fatalf("err: %s", err) } f, err := os.Create(path) if err != nil { t.Fatalf("err: %s", err) } defer f.Close() if err := terraform.WriteState(s, f); err != nil { t.Fatalf("err: %s", err) } return path } // testStateRead reads the state from a file func testStateRead(t *testing.T, path string) *states.State { t.Helper() f, err := os.Open(path) if err != nil { t.Fatalf("err: %s", err) } defer f.Close() sf, err := statefile.Read(f) if err != nil { t.Fatalf("err: %s", err) } return sf.State } // testDataStateRead reads a "data state", which is a file format resembling // our state format v3 that is used only to track current backend settings. // // This old format still uses *terraform.State, but should be replaced with // a more specialized type in a later release. func testDataStateRead(t *testing.T, path string) *terraform.State { t.Helper() f, err := os.Open(path) if err != nil { t.Fatalf("err: %s", err) } defer f.Close() s, err := terraform.ReadState(f) if err != nil { t.Fatalf("err: %s", err) } return s } // testStateOutput tests that the state at the given path contains // the expected state string. func testStateOutput(t *testing.T, path string, expected string) { t.Helper() newState := testStateRead(t, path) actual := strings.TrimSpace(newState.String()) expected = strings.TrimSpace(expected) if actual != expected { t.Fatalf("expected:\n%s\nactual:\n%s", expected, actual) } } func testProvider() *terraform.MockProvider { p := new(terraform.MockProvider) p.PlanResourceChangeFn = func(req providers.PlanResourceChangeRequest) (resp providers.PlanResourceChangeResponse) { resp.PlannedState = req.ProposedNewState return resp } p.ReadResourceFn = func(req providers.ReadResourceRequest) providers.ReadResourceResponse { return providers.ReadResourceResponse{ NewState: req.PriorState, } } return p } func testTempFile(t *testing.T) string { t.Helper() return filepath.Join(testTempDir(t), "state.tfstate") } func testTempDir(t *testing.T) string { t.Helper() d, err := ioutil.TempDir(testingDir, "tf") if err != nil { t.Fatalf("err: %s", err) } d, err = filepath.EvalSymlinks(d) if err != nil { t.Fatal(err) } return d } // testRename renames the path to new and returns a function to defer to // revert the rename. func testRename(t *testing.T, base, path, new string) func() { t.Helper() if base != "" { path = filepath.Join(base, path) new = filepath.Join(base, new) } if err := os.Rename(path, new); err != nil { t.Fatalf("err: %s", err) } return func() { // Just re-rename and ignore the return value testRename(t, "", new, path) } } // testChdir changes the directory and returns a function to defer to // revert the old cwd. func testChdir(t *testing.T, new string) func() { t.Helper() old, err := os.Getwd() if err != nil { t.Fatalf("err: %s", err) } if err := os.Chdir(new); err != nil { t.Fatalf("err: %v", err) } return func() { // Re-run the function ignoring the defer result testChdir(t, old) } } // testCwd is used to change the current working directory // into a test directory that should be removed after func testCwd(t *testing.T) (string, string) { t.Helper() tmp, err := ioutil.TempDir(testingDir, "tf") if err != nil { t.Fatalf("err: %v", err) } cwd, err := os.Getwd() if err != nil { t.Fatalf("err: %v", err) } if err := os.Chdir(tmp); err != nil { t.Fatalf("err: %v", err) } return tmp, cwd } // testFixCwd is used to as a defer to testDir func testFixCwd(t *testing.T, tmp, cwd string) { t.Helper() if err := os.Chdir(cwd); err != nil { t.Fatalf("err: %v", err) } if err := os.RemoveAll(tmp); err != nil { t.Fatalf("err: %v", err) } } // testStdinPipe changes os.Stdin to be a pipe that sends the data from // the reader before closing the pipe. // // The returned function should be deferred to properly clean up and restore // the original stdin. func testStdinPipe(t *testing.T, src io.Reader) func() { t.Helper() r, w, err := os.Pipe() if err != nil { t.Fatalf("err: %s", err) } // Modify stdin to point to our new pipe old := os.Stdin os.Stdin = r // Copy the data from the reader to the pipe go func() { defer w.Close() io.Copy(w, src) }() return func() { // Close our read end r.Close() // Reset stdin os.Stdin = old } } // Modify os.Stdout to write to the given buffer. Note that this is generally // not useful since the commands are configured to write to a cli.Ui, not // Stdout directly. Commands like `console` though use the raw stdout. func testStdoutCapture(t *testing.T, dst io.Writer) func() { t.Helper() r, w, err := os.Pipe() if err != nil { t.Fatalf("err: %s", err) } // Modify stdout old := os.Stdout os.Stdout = w // Copy doneCh := make(chan struct{}) go func() { defer close(doneCh) defer r.Close() io.Copy(dst, r) }() return func() { // Close the writer end of the pipe w.Sync() w.Close() // Reset stdout os.Stdout = old // Wait for the data copy to complete to avoid a race reading data <-doneCh } } // testInteractiveInput configures tests so that the answers given are sent // in order to interactive prompts. The returned function must be called // in a defer to clean up. func testInteractiveInput(t *testing.T, answers []string) func() { t.Helper() // Disable test mode so input is called test = false // Setup reader/writers testInputResponse = answers defaultInputReader = bytes.NewBufferString("") defaultInputWriter = new(bytes.Buffer) // Return the cleanup return func() { test = true testInputResponse = nil } } // testInputMap configures tests so that the given answers are returned // for calls to Input when the right question is asked. The key is the // question "Id" that is used. func testInputMap(t *testing.T, answers map[string]string) func() { t.Helper() // Disable test mode so input is called test = false // Setup reader/writers defaultInputReader = bytes.NewBufferString("") defaultInputWriter = new(bytes.Buffer) // Setup answers testInputResponse = nil testInputResponseMap = answers // Return the cleanup return func() { test = true testInputResponseMap = nil } } // testBackendState is used to make a test HTTP server to test a configured // backend. This returns the complete state that can be saved. Use // `testStateFileRemote` to write the returned state. // // When using this function, the configuration fixture for the test must // include an empty configuration block for the HTTP backend, like this: // // terraform { // backend "http" { // } // } // // If such a block isn't present, or if it isn't empty, then an error will // be returned about the backend configuration having changed and that // "terraform init" must be run, since the test backend config cache created // by this function contains the hash for an empty configuration. func testBackendState(t *testing.T, s *states.State, c int) (*terraform.State, *httptest.Server) { t.Helper() var b64md5 string buf := bytes.NewBuffer(nil) cb := func(resp http.ResponseWriter, req *http.Request) { if req.Method == "PUT" { resp.WriteHeader(c) return } if s == nil { resp.WriteHeader(404) return } resp.Header().Set("Content-MD5", b64md5) resp.Write(buf.Bytes()) } // If a state was given, make sure we calculate the proper b64md5 if s != nil { err := statefile.Write(&statefile.File{State: s}, buf) if err != nil { t.Fatalf("err: %v", err) } md5 := md5.Sum(buf.Bytes()) b64md5 = base64.StdEncoding.EncodeToString(md5[:16]) } srv := httptest.NewServer(http.HandlerFunc(cb)) backendConfig := &configs.Backend{ Type: "http", Config: configs.SynthBody("", map[string]cty.Value{}), } b := backendInit.Backend("http")() configSchema := b.ConfigSchema() hash := backendConfig.Hash(configSchema) state := terraform.NewState() state.Backend = &terraform.BackendState{ Type: "http", ConfigRaw: json.RawMessage(fmt.Sprintf(`{"address":%q}`, srv.URL)), Hash: uint64(hash), } return state, srv } // testRemoteState is used to make a test HTTP server to return a given // state file that can be used for testing legacy remote state. // // The return values are a *terraform.State instance that should be written // as the "data state" (really: backend state) and the server that the // returned data state refers to. func testRemoteState(t *testing.T, s *states.State, c int) (*terraform.State, *httptest.Server) { t.Helper() var b64md5 string buf := bytes.NewBuffer(nil) cb := func(resp http.ResponseWriter, req *http.Request) { if req.Method == "PUT" { resp.WriteHeader(c) return } if s == nil { resp.WriteHeader(404) return } resp.Header().Set("Content-MD5", b64md5) resp.Write(buf.Bytes()) } retState := terraform.NewState() srv := httptest.NewServer(http.HandlerFunc(cb)) b := &terraform.BackendState{ Type: "http", } b.SetConfig(cty.ObjectVal(map[string]cty.Value{ "address": cty.StringVal(srv.URL), }), &configschema.Block{ Attributes: map[string]*configschema.Attribute{ "address": { Type: cty.String, Required: true, }, }, }) retState.Backend = b if s != nil { err := statefile.Write(&statefile.File{State: s}, buf) if err != nil { t.Fatalf("failed to write initial state: %v", err) } } return retState, srv } // testlockState calls a separate process to the lock the state file at path. // deferFunc should be called in the caller to properly unlock the file. // Since many tests change the working directory, the sourcedir argument must be // supplied to locate the statelocker.go source. func testLockState(sourceDir, path string) (func(), error) { // build and run the binary ourselves so we can quickly terminate it for cleanup buildDir, err := ioutil.TempDir(testingDir, "locker") if err != nil { return nil, err } cleanFunc := func() { os.RemoveAll(buildDir) } source := filepath.Join(sourceDir, "statelocker.go") lockBin := filepath.Join(buildDir, "statelocker") cmd := exec.Command("go", "build", "-o", lockBin, source) cmd.Dir = filepath.Dir(sourceDir) out, err := cmd.CombinedOutput() if err != nil { cleanFunc() return nil, fmt.Errorf("%s %s", err, out) } locker := exec.Command(lockBin, path) pr, pw, err := os.Pipe() if err != nil { cleanFunc() return nil, err } defer pr.Close() defer pw.Close() locker.Stderr = pw locker.Stdout = pw if err := locker.Start(); err != nil { return nil, err } deferFunc := func() { cleanFunc() locker.Process.Signal(syscall.SIGTERM) locker.Wait() } // wait for the process to lock buf := make([]byte, 1024) n, err := pr.Read(buf) if err != nil { return deferFunc, fmt.Errorf("read from statelocker returned: %s", err) } output := string(buf[:n]) if !strings.HasPrefix(output, "LOCKID") { return deferFunc, fmt.Errorf("statelocker wrote: %s", string(buf[:n])) } return deferFunc, nil } // normalizeJSON removes all insignificant whitespace from the given JSON buffer // and returns it as a string for easier comparison. func normalizeJSON(t *testing.T, src []byte) string { t.Helper() var buf bytes.Buffer err := json.Compact(&buf, src) if err != nil { t.Fatalf("error normalizing JSON: %s", err) } return buf.String() } func mustResourceAddr(s string) addrs.ConfigResource { addr, diags := addrs.ParseAbsResourceStr(s) if diags.HasErrors() { panic(diags.Err()) } return addr.Config() } // This map from provider type name to namespace is used by the fake registry // when called via LookupLegacyProvider. Providers not in this map will return // a 404 Not Found error. var legacyProviderNamespaces = map[string]string{ "foo": "hashicorp", "bar": "hashicorp", "baz": "terraform-providers", "qux": "hashicorp", } // This map is used to mock the provider redirect feature. var movedProviderNamespaces = map[string]string{ "qux": "acme", } // testServices starts up a local HTTP server running a fake provider registry // service which responds only to discovery requests and legacy provider lookup // API calls. // // The final return value is a function to call at the end of a test function // to shut down the test server. After you call that function, the discovery // object becomes useless. func testServices(t *testing.T) (services *disco.Disco, cleanup func()) { server := httptest.NewServer(http.HandlerFunc(fakeRegistryHandler)) services = disco.New() services.ForceHostServices(svchost.Hostname("registry.terraform.io"), map[string]interface{}{ "providers.v1": server.URL + "/providers/v1/", }) return services, func() { server.Close() } } // testRegistrySource is a wrapper around testServices that uses the created // discovery object to produce a Source instance that is ready to use with the // fake registry services. // // As with testServices, the final return value is a function to call at the end // of your test in order to shut down the test server. func testRegistrySource(t *testing.T) (source *getproviders.RegistrySource, cleanup func()) { services, close := testServices(t) source = getproviders.NewRegistrySource(services) return source, close } func fakeRegistryHandler(resp http.ResponseWriter, req *http.Request) { path := req.URL.EscapedPath() if !strings.HasPrefix(path, "/providers/v1/") { resp.WriteHeader(404) resp.Write([]byte(`not a provider registry endpoint`)) return } pathParts := strings.Split(path, "/")[3:] if len(pathParts) != 3 { resp.WriteHeader(404) resp.Write([]byte(`unrecognized path scheme`)) return } if pathParts[2] != "versions" { resp.WriteHeader(404) resp.Write([]byte(`this registry only supports legacy namespace lookup requests`)) return } name := pathParts[1] // Legacy lookup if pathParts[0] == "-" { if namespace, ok := legacyProviderNamespaces[name]; ok { resp.Header().Set("Content-Type", "application/json") resp.WriteHeader(200) if movedNamespace, ok := movedProviderNamespaces[name]; ok { resp.Write([]byte(fmt.Sprintf(`{"id":"%s/%s","moved_to":"%s/%s","versions":[{"version":"1.0.0","protocols":["4"]}]}`, namespace, name, movedNamespace, name))) } else { resp.Write([]byte(fmt.Sprintf(`{"id":"%s/%s","versions":[{"version":"1.0.0","protocols":["4"]}]}`, namespace, name))) } } else { resp.WriteHeader(404) resp.Write([]byte(`provider not found`)) } return } // Also return versions for redirect target if namespace, ok := movedProviderNamespaces[name]; ok && pathParts[0] == namespace { resp.Header().Set("Content-Type", "application/json") resp.WriteHeader(200) resp.Write([]byte(fmt.Sprintf(`{"id":"%s/%s","versions":[{"version":"1.0.0","protocols":["4"]}]}`, namespace, name))) } else { resp.WriteHeader(404) resp.Write([]byte(`provider not found`)) } }