// Copyright 2011 Google Inc. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package main import ( "bytes" "encoding/json" "flag" "fmt" "go/format" "io" "io/ioutil" "log" "net/http" "net/url" "os" "os/exec" "path/filepath" "regexp" "sort" "strconv" "strings" "unicode" "google.golang.org/api/google-api-go-generator/internal/disco" ) const ( googleDiscoveryURL = "https://www.googleapis.com/discovery/v1/apis" generatorVersion = "20170210" ) var ( apiToGenerate = flag.String("api", "*", "The API ID to generate, like 'tasks:v1'. A value of '*' means all.") useCache = flag.Bool("cache", true, "Use cache of discovered Google API discovery documents.") genDir = flag.String("gendir", "", "Directory to use to write out generated Go files") build = flag.Bool("build", false, "Compile generated packages.") install = flag.Bool("install", false, "Install generated packages.") apisURL = flag.String("discoveryurl", googleDiscoveryURL, "URL to root discovery document") publicOnly = flag.Bool("publiconly", true, "Only build public, released APIs. Only applicable for Google employees.") jsonFile = flag.String("api_json_file", "", "If non-empty, the path to a local file on disk containing the API to generate. Exclusive with setting --api.") output = flag.String("output", "", "(optional) Path to source output file. If not specified, the API name and version are used to construct an output path (e.g. tasks/v1).") apiPackageBase = flag.String("api_pkg_base", "google.golang.org/api", "Go package prefix to use for all generated APIs.") baseURL = flag.String("base_url", "", "(optional) Override the default service API URL. If empty, the service's root URL will be used.") headerPath = flag.String("header_path", "", "If non-empty, prepend the contents of this file to generated services.") contextHTTPPkg = flag.String("ctxhttp_pkg", "golang.org/x/net/context/ctxhttp", "Go package path of the 'ctxhttp' package.") contextPkg = flag.String("context_pkg", "golang.org/x/net/context", "Go package path of the 'context' package.") gensupportPkg = flag.String("gensupport_pkg", "google.golang.org/api/gensupport", "Go package path of the 'api/gensupport' support package.") googleapiPkg = flag.String("googleapi_pkg", "google.golang.org/api/googleapi", "Go package path of the 'api/googleapi' support package.") serviceTypes = []string{"Service", "APIService"} ) // API represents an API to generate, as well as its state while it's // generating. type API struct { // Fields needed before generating code, to select and find the APIs // to generate. // These fields usually come from the "directory item" JSON objects // that are provided by the googleDiscoveryURL. We unmarshal a directory // item directly into this struct. ID string `json:"id"` Name string `json:"name"` Version string `json:"version"` DiscoveryLink string `json:"discoveryRestUrl"` // absolute doc *disco.Document // TODO(jba): remove m when we've fully converted to using disco. m map[string]interface{} forceJSON []byte // if non-nil, the JSON schema file. else fetched. usedNames namePool schemas map[string]*Schema // apiName -> schema responseTypes map[string]bool p func(format string, args ...interface{}) // print raw pn func(format string, args ...interface{}) // print with newline } func (a *API) sortedSchemaNames() (names []string) { for name := range a.schemas { names = append(names, name) } sort.Strings(names) return } func (a *API) Schema(name string) *Schema { return a.schemas[name] } type generateError struct { api *API error error } func (e *generateError) Error() string { return fmt.Sprintf("API %s failed to generate code: %v", e.api.ID, e.error) } type compileError struct { api *API output string } func (e *compileError) Error() string { return fmt.Sprintf("API %s failed to compile:\n%v", e.api.ID, e.output) } func main() { flag.Parse() if *install { *build = true } var ( apiIds = []string{} matches = []*API{} errors = []error{} ) for _, api := range getAPIs() { apiIds = append(apiIds, api.ID) if !api.want() { continue } matches = append(matches, api) log.Printf("Generating API %s", api.ID) err := api.WriteGeneratedCode() if err != nil { errors = append(errors, &generateError{api, err}) continue } if *build { var args []string if *install { args = append(args, "install") } else { args = append(args, "build") } args = append(args, api.Target()) out, err := exec.Command("go", args...).CombinedOutput() if err != nil { errors = append(errors, &compileError{api, string(out)}) } } } if len(matches) == 0 { log.Fatalf("No APIs matched %q; options are %v", *apiToGenerate, apiIds) } if len(errors) > 0 { log.Printf("%d API(s) failed to generate or compile:", len(errors)) for _, ce := range errors { log.Printf(ce.Error()) } os.Exit(1) } } func (a *API) want() bool { if *jsonFile != "" { // Return true early, before calling a.JSONFile() // which will require a GOPATH be set. This is for // integration with Google's build system genrules // where there is no GOPATH. return true } // Skip this API if we're in cached mode and the files don't exist on disk. if *useCache { if _, err := os.Stat(a.JSONFile()); os.IsNotExist(err) { return false } } return *apiToGenerate == "*" || *apiToGenerate == a.ID } func getAPIs() []*API { if *jsonFile != "" { return getAPIsFromFile() } var bytes []byte var source string apiListFile := filepath.Join(genDirRoot(), "api-list.json") if *useCache { if !*publicOnly { log.Fatalf("-cache=true not compatible with -publiconly=false") } var err error bytes, err = ioutil.ReadFile(apiListFile) if err != nil { log.Fatal(err) } source = apiListFile } else { bytes = slurpURL(*apisURL) if *publicOnly { if err := writeFile(apiListFile, bytes); err != nil { log.Fatal(err) } } source = *apisURL } apis, err := unmarshalAPIs(bytes) if err != nil { log.Fatalf("error decoding JSON in %s: %v", source, err) } if !*publicOnly && *apiToGenerate != "*" { apis = append(apis, apiFromID(*apiToGenerate)) } return apis } func unmarshalAPIs(bytes []byte) ([]*API, error) { var itemObj struct{ Items []*API } if err := json.Unmarshal(bytes, &itemObj); err != nil { return nil, err } return itemObj.Items, nil } func apiFromID(apiID string) *API { parts := strings.Split(apiID, ":") if len(parts) != 2 { log.Fatalf("malformed API name: %q", apiID) } return &API{ ID: apiID, Name: parts[0], Version: parts[1], } } // getAPIsFromFile handles the case of generating exactly one API // from the flag given in --api_json_file func getAPIsFromFile() []*API { if *apiToGenerate != "*" { log.Fatalf("Can't set --api with --api_json_file.") } if !*publicOnly { log.Fatalf("Can't set --publiconly with --api_json_file.") } a, err := apiFromFile(*jsonFile) if err != nil { log.Fatal(err) } return []*API{a} } func apiFromFile(file string) (*API, error) { jsonBytes, err := ioutil.ReadFile(file) if err != nil { return nil, fmt.Errorf("Error reading %s: %v", file, err) } doc, err := disco.NewDocument(jsonBytes) if err != nil { return nil, fmt.Errorf("reading document from %q: %v", file, err) } a := &API{ ID: doc.ID, Name: doc.Name, Version: doc.Version, forceJSON: jsonBytes, doc: doc, } return a, nil } func writeFile(file string, contents []byte) error { // Don't write it if the contents are identical. existing, err := ioutil.ReadFile(file) if err == nil && (bytes.Equal(existing, contents) || basicallyEqual(existing, contents)) { return nil } outdir := filepath.Dir(file) if err = os.MkdirAll(outdir, 0755); err != nil { return fmt.Errorf("failed to Mkdir %s: %v", outdir, err) } return ioutil.WriteFile(file, contents, 0644) } var ignoreLines = regexp.MustCompile(`(?m)^\s+"(?:etag|revision)": ".+\n`) // basicallyEqual reports whether a and b are equal except for boring // differences like ETag updates. func basicallyEqual(a, b []byte) bool { return ignoreLines.Match(a) && ignoreLines.Match(b) && bytes.Equal(ignoreLines.ReplaceAll(a, nil), ignoreLines.ReplaceAll(b, nil)) } func slurpURL(urlStr string) []byte { if *useCache { log.Fatalf("Invalid use of slurpURL in cached mode for URL %s", urlStr) } req, err := http.NewRequest("GET", urlStr, nil) if err != nil { log.Fatal(err) } if *publicOnly { req.Header.Add("X-User-IP", "0.0.0.0") // hack } res, err := http.DefaultClient.Do(req) if err != nil { log.Fatalf("Error fetching URL %s: %v", urlStr, err) } bs, err := ioutil.ReadAll(res.Body) if err != nil { log.Fatalf("Error reading body of URL %s: %v", urlStr, err) } return bs } func panicf(format string, args ...interface{}) { panic(fmt.Sprintf(format, args...)) } // namePool keeps track of used names and assigns free ones based on a // preferred name type namePool struct { m map[string]bool // lazily initialized } // oddVersionRE matches unusual API names like directory_v1. var oddVersionRE = regexp.MustCompile(`^(.+)_(v[\d\.]+)$`) // renameVersion conditionally rewrites the provided version such // that the final path component of the import path doesn't look // like a Go identifier. This keeps the consistency that import paths // for the generated Go packages look like: // google.golang.org/api/NAME/v // and have package NAME. // See https://github.com/google/google-api-go-client/issues/78 func renameVersion(version string) string { if version == "alpha" || version == "beta" { return "v0." + version } if m := oddVersionRE.FindStringSubmatch(version); m != nil { return m[1] + "/" + m[2] } return version } func (p *namePool) Get(preferred string) string { if p.m == nil { p.m = make(map[string]bool) } name := preferred tries := 0 for p.m[name] { tries++ name = fmt.Sprintf("%s%d", preferred, tries) } p.m[name] = true return name } func genDirRoot() string { if *genDir != "" { return *genDir } paths := filepath.SplitList(os.Getenv("GOPATH")) if len(paths) == 0 { log.Fatalf("No GOPATH set.") } return filepath.Join(paths[0], "src", "google.golang.org", "api") } func (a *API) SourceDir() string { return filepath.Join(genDirRoot(), a.Package(), renameVersion(a.Version)) } func (a *API) DiscoveryURL() string { if a.DiscoveryLink == "" { log.Fatalf("API %s has no DiscoveryLink", a.ID) } return a.DiscoveryLink } func (a *API) Package() string { return strings.ToLower(a.Name) } func (a *API) Target() string { return fmt.Sprintf("%s/%s/%s", *apiPackageBase, a.Package(), renameVersion(a.Version)) } // ServiceType returns the name of the type to use for the root API struct // (typically "Service"). func (a *API) ServiceType() string { switch a.Name { case "appengine", "content": // retained for historical compatibility. return "APIService" default: for _, t := range serviceTypes { if _, ok := a.schemas[t]; !ok { return t } } panic("all service types are used, please consider introducing a new type to serviceTypes.") } } // GetName returns a free top-level function/type identifier in the package. // It tries to return your preferred match if it's free. func (a *API) GetName(preferred string) string { return a.usedNames.Get(preferred) } func (a *API) apiBaseURL() string { var base, rel string switch { case *baseURL != "": base, rel = *baseURL, a.doc.BasePath case a.doc.RootURL != "": base, rel = a.doc.RootURL, a.doc.ServicePath default: base, rel = *apisURL, a.doc.BasePath } return resolveRelative(base, rel) } func (a *API) needsDataWrapper() bool { for _, feature := range a.doc.Features { if feature == "dataWrapper" { return true } } return false } func (a *API) jsonBytes() []byte { if v := a.forceJSON; v != nil { return v } if *useCache { slurp, err := ioutil.ReadFile(a.JSONFile()) if err != nil { log.Fatal(err) } return slurp } return slurpURL(a.DiscoveryURL()) } func (a *API) JSONFile() string { return filepath.Join(a.SourceDir(), a.Package()+"-api.json") } func (a *API) WriteGeneratedCode() error { genfilename := *output if genfilename == "" { if err := writeFile(a.JSONFile(), a.jsonBytes()); err != nil { return err } outdir := a.SourceDir() err := os.MkdirAll(outdir, 0755) if err != nil { return fmt.Errorf("failed to Mkdir %s: %v", outdir, err) } pkg := a.Package() genfilename = filepath.Join(outdir, pkg+"-gen.go") } code, err := a.GenerateCode() errw := writeFile(genfilename, code) if err == nil { err = errw } return err } var docsLink string func (a *API) GenerateCode() ([]byte, error) { pkg := a.Package() jsonBytes := a.jsonBytes() var err error if a.doc == nil { a.doc, err = disco.NewDocument(jsonBytes) if err != nil { return nil, err } } // Buffer the output in memory, for gofmt'ing later. var buf bytes.Buffer a.p = func(format string, args ...interface{}) { _, err := fmt.Fprintf(&buf, format, args...) if err != nil { panic(err) } } a.pn = func(format string, args ...interface{}) { a.p(format+"\n", args...) } wf := func(path string) error { f, err := os.Open(path) if err != nil { return err } defer f.Close() _, err = io.Copy(&buf, f) return err } p, pn := a.p, a.pn if *headerPath != "" { if err := wf(*headerPath); err != nil { return nil, err } } pn("// Package %s provides access to the %s.", pkg, a.doc.Title) docsLink = a.doc.DocumentationLink if docsLink != "" { pn("//") pn("// See %s", docsLink) } pn("//\n// Usage example:") pn("//") pn("// import %q", a.Target()) pn("// ...") pn("// %sService, err := %s.New(oauthHttpClient)", pkg, pkg) pn("package %s // import %q", pkg, a.Target()) p("\n") pn("import (") for _, imp := range []struct { pkg string lname string }{ {"bytes", ""}, {"encoding/json", ""}, {"errors", ""}, {"fmt", ""}, {"io", ""}, {"net/http", ""}, {"net/url", ""}, {"strconv", ""}, {"strings", ""}, {*contextHTTPPkg, "ctxhttp"}, {*contextPkg, "context"}, {*gensupportPkg, "gensupport"}, {*googleapiPkg, "googleapi"}, } { if imp.lname == "" { pn(" %q", imp.pkg) } else { pn(" %s %q", imp.lname, imp.pkg) } } pn(")") pn("\n// Always reference these packages, just in case the auto-generated code") pn("// below doesn't.") pn("var _ = bytes.NewBuffer") pn("var _ = strconv.Itoa") pn("var _ = fmt.Sprintf") pn("var _ = json.NewDecoder") pn("var _ = io.Copy") pn("var _ = url.Parse") pn("var _ = gensupport.MarshalJSON") pn("var _ = googleapi.Version") pn("var _ = errors.New") pn("var _ = strings.Replace") pn("var _ = context.Canceled") pn("var _ = ctxhttp.Do") pn("") pn("const apiId = %q", a.doc.ID) pn("const apiName = %q", a.doc.Name) pn("const apiVersion = %q", a.doc.Version) pn("const basePath = %q", a.apiBaseURL()) a.generateScopeConstants() a.PopulateSchemas() service := a.ServiceType() // Reserve names (ignore return value; we're the first caller). a.GetName("New") a.GetName(service) pn("func New(client *http.Client) (*%s, error) {", service) pn("if client == nil { return nil, errors.New(\"client is nil\") }") pn("s := &%s{client: client, BasePath: basePath}", service) for _, res := range a.doc.Resources { // add top level resources. pn("s.%s = New%s(s)", resourceGoField(res), resourceGoType(res)) } pn("return s, nil") pn("}") pn("\ntype %s struct {", service) pn(" client *http.Client") pn(" BasePath string // API endpoint base URL") pn(" UserAgent string // optional additional User-Agent fragment") for _, res := range a.doc.Resources { pn("\n\t%s\t*%s", resourceGoField(res), resourceGoType(res)) } pn("}") pn("\nfunc (s *%s) userAgent() string {", service) pn(` if s.UserAgent == "" { return googleapi.UserAgent }`) pn(` return googleapi.UserAgent + " " + s.UserAgent`) pn("}\n") for _, res := range a.doc.Resources { a.generateResource(res) } a.responseTypes = make(map[string]bool) for _, meth := range a.APIMethods() { meth.cacheResponseTypes(a) } for _, res := range a.doc.Resources { a.cacheResourceResponseTypes(res) } for _, name := range a.sortedSchemaNames() { a.schemas[name].writeSchemaCode(a) } for _, meth := range a.APIMethods() { meth.generateCode() } for _, res := range a.doc.Resources { a.generateResourceMethods(res) } clean, err := format.Source(buf.Bytes()) if err != nil { return buf.Bytes(), err } return clean, nil } func (a *API) generateScopeConstants() { scopes := a.doc.Auth.OAuth2Scopes if len(scopes) == 0 { return } a.pn("// OAuth2 scopes used by this API.") a.pn("const (") n := 0 for _, scope := range scopes { if n > 0 { a.p("\n") } n++ ident := scopeIdentifierFromURL(scope.URL) if scope.Description != "" { a.p("%s", asComment("\t", scope.Description)) } a.pn("\t%s = %q", ident, scope.URL) } a.p(")\n\n") } func scopeIdentifierFromURL(urlStr string) string { const prefix = "https://www.googleapis.com/auth/" if !strings.HasPrefix(urlStr, prefix) { const https = "https://" if !strings.HasPrefix(urlStr, https) { log.Fatalf("Unexpected oauth2 scope %q doesn't start with %q", urlStr, https) } ident := validGoIdentifer(depunct(urlStr[len(https):], true)) + "Scope" return ident } ident := validGoIdentifer(initialCap(urlStr[len(prefix):])) + "Scope" return ident } // Schema is a disco.Schema that has been bestowed an identifier, whether by // having an "id" field at the top of the schema or with an // automatically generated one in populateSubSchemas. // // TODO: While sub-types shouldn't need to be promoted to schemas, // API.GenerateCode iterates over API.schemas to figure out what // top-level Go types to write. These should be separate concerns. type Schema struct { api *API typ *disco.Schema apiName string // the native API-defined name of this type goName string // lazily populated by GoName goReturnType string // lazily populated by GoReturnType props []*Property } type Property struct { s *Schema // the containing Schema p *disco.Property assignedGoName string } func (p *Property) Type() *disco.Schema { return p.p.Schema } func (p *Property) GoName() string { return initialCap(p.p.Name) } func (p *Property) Default() string { return p.p.Schema.Default } func (p *Property) Description() string { return p.p.Schema.Description } func (p *Property) Enum() ([]string, bool) { typ := p.p.Schema if typ.Enums != nil { return typ.Enums, true } // Check if this has an array of string enums. if typ.ItemSchema != nil { if enums := typ.ItemSchema.Enums; enums != nil && typ.ItemSchema.Type == "string" { return enums, true } } return nil, false } func (p *Property) EnumDescriptions() []string { if desc := p.p.Schema.EnumDescriptions; desc != nil { return desc } // Check if this has an array of string enum descriptions. if items := p.p.Schema.ItemSchema; items != nil { if desc := items.EnumDescriptions; desc != nil { return desc } } return nil } func (p *Property) Pattern() (string, bool) { return p.p.Schema.Pattern, (p.p.Schema.Pattern != "") } func (p *Property) TypeAsGo() string { return p.s.api.typeAsGo(p.Type(), false) } // A FieldName uniquely identifies a field within a Schema struct for an API. type fieldName struct { api string // The ID of an API. schema string // The Go name of a Schema struct. field string // The Go name of a field. } // pointerFields is a list of fields that should use a pointer type. // This makes it possible to distinguish between a field being unset vs having // an empty value. var pointerFields = []fieldName{ {api: "cloudmonitoring:v2beta2", schema: "Point", field: "BoolValue"}, {api: "cloudmonitoring:v2beta2", schema: "Point", field: "DoubleValue"}, {api: "cloudmonitoring:v2beta2", schema: "Point", field: "Int64Value"}, {api: "cloudmonitoring:v2beta2", schema: "Point", field: "StringValue"}, {api: "compute:v1", schema: "MetadataItems", field: "Value"}, {api: "content:v2", schema: "AccountUser", field: "Admin"}, {api: "datastore:v1beta2", schema: "Property", field: "BlobKeyValue"}, {api: "datastore:v1beta2", schema: "Property", field: "BlobValue"}, {api: "datastore:v1beta2", schema: "Property", field: "BooleanValue"}, {api: "datastore:v1beta2", schema: "Property", field: "DateTimeValue"}, {api: "datastore:v1beta2", schema: "Property", field: "DoubleValue"}, {api: "datastore:v1beta2", schema: "Property", field: "Indexed"}, {api: "datastore:v1beta2", schema: "Property", field: "IntegerValue"}, {api: "datastore:v1beta2", schema: "Property", field: "StringValue"}, {api: "datastore:v1beta3", schema: "Value", field: "BlobValue"}, {api: "datastore:v1beta3", schema: "Value", field: "BooleanValue"}, {api: "datastore:v1beta3", schema: "Value", field: "DoubleValue"}, {api: "datastore:v1beta3", schema: "Value", field: "IntegerValue"}, {api: "datastore:v1beta3", schema: "Value", field: "StringValue"}, {api: "datastore:v1beta3", schema: "Value", field: "TimestampValue"}, {api: "genomics:v1beta2", schema: "Dataset", field: "IsPublic"}, {api: "monitoring:v3", schema: "TypedValue", field: "BoolValue"}, {api: "monitoring:v3", schema: "TypedValue", field: "DoubleValue"}, {api: "monitoring:v3", schema: "TypedValue", field: "Int64Value"}, {api: "monitoring:v3", schema: "TypedValue", field: "StringValue"}, {api: "servicecontrol:v1", schema: "MetricValue", field: "BoolValue"}, {api: "servicecontrol:v1", schema: "MetricValue", field: "DoubleValue"}, {api: "servicecontrol:v1", schema: "MetricValue", field: "Int64Value"}, {api: "servicecontrol:v1", schema: "MetricValue", field: "StringValue"}, {api: "tasks:v1", schema: "Task", field: "Completed"}, {api: "youtube:v3", schema: "ChannelSectionSnippet", field: "Position"}, } // forcePointerType reports whether p should be represented as a pointer type in its parent schema struct. func (p *Property) forcePointerType() bool { if p.UnfortunateDefault() { return true } name := fieldName{api: p.s.api.ID, schema: p.s.GoName(), field: p.GoName()} for _, pf := range pointerFields { if pf == name { return true } } return false } // UnfortunateDefault reports whether p may be set to a zero value, but has a non-zero default. func (p *Property) UnfortunateDefault() bool { switch p.TypeAsGo() { default: return false case "bool": return p.Default() == "true" case "string": if p.Default() == "" { return false } // String fields are considered to "allow" a zero value if either: // (a) they are an enum, and one of the permitted enum values is the empty string, or // (b) they have a validation pattern which matches the empty string. pattern, hasPat := p.Pattern() enum, hasEnum := p.Enum() if hasPat && hasEnum { log.Printf("Encountered enum property which also has a pattern: %#v", p) return false // don't know how to handle this, so ignore. } return (hasPat && emptyPattern(pattern)) || (hasEnum && emptyEnum(enum)) case "float64", "int64", "uint64", "int32", "uint32": if p.Default() == "" { return false } if f, err := strconv.ParseFloat(p.Default(), 64); err == nil { return f != 0.0 } // The default value has an unexpected form. Whatever it is, it's non-zero. return true } } // emptyPattern reports whether a pattern matches the empty string. func emptyPattern(pattern string) bool { if re, err := regexp.Compile(pattern); err == nil { return re.MatchString("") } log.Printf("Encountered bad pattern: %s", pattern) return false } // emptyEnum reports whether a property enum list contains the empty string. func emptyEnum(enum []string) bool { for _, val := range enum { if val == "" { return true } } return false } func (a *API) typeAsGo(s *disco.Schema, elidePointers bool) string { switch s.Kind { case disco.SimpleKind: return mustSimpleTypeConvert(s.Type, s.Format) case disco.ArrayKind: as := s.ElementSchema() if as.Type == "string" { switch as.Format { case "int64": return "googleapi.Int64s" case "uint64": return "googleapi.Uint64s" case "int32": return "googleapi.Int32s" case "uint32": return "googleapi.Uint32s" case "float64": return "googleapi.Float64s" } } return "[]" + a.typeAsGo(as, elidePointers) case disco.ReferenceKind: rs := s.RefSchema if rs.Kind == disco.SimpleKind { // Simple top-level schemas get named types (see writeSchemaCode). // Use the name instead of using the equivalent simple Go type. return a.schemaNamed(rs.Name).GoName() } return a.typeAsGo(rs, elidePointers) case disco.MapKind: es := s.ElementSchema() if es.Type == "string" { // If the element schema has a type "string", it's going to be // transmitted as a string, and the Go map type must reflect that. // This is true even if the format is, say, "int64". When type = // "string" and format = "int64" at top level, we can use the json // "string" tag option to unmarshal the string to an int64, but // inside a map we can't. return "map[string]string" } // Due to historical baggage (maps used to be a separate code path), // the element types of maps never have pointers in them. From this // level down, elide pointers in types. return "map[string]" + a.typeAsGo(es, true) case disco.AnyStructKind: return "googleapi.RawMessage" case disco.StructKind: tls := a.schemaNamed(s.Name) if elidePointers || s.Variant != nil { return tls.GoName() } return "*" + tls.GoName() default: panic(fmt.Sprintf("unhandled typeAsGo for %+v", s)) } } func (a *API) schemaNamed(name string) *Schema { s := a.schemas[name] if s == nil { panicf("no top-level schema named %q", name) } return s } func (s *Schema) properties() []*Property { if s.props != nil { return s.props } if s.typ.Kind != disco.StructKind { panic("called properties on non-object schema") } for _, p := range s.typ.Properties { s.props = append(s.props, &Property{ s: s, p: p, }) } return s.props } func (s *Schema) HasContentType() bool { for _, p := range s.properties() { if p.GoName() == "ContentType" && p.TypeAsGo() == "string" { return true } } return false } func (s *Schema) populateSubSchemas() (outerr error) { defer func() { r := recover() if r == nil { return } outerr = fmt.Errorf("%v", r) }() addSubStruct := func(subApiName string, t *disco.Schema) { if s.api.schemas[subApiName] != nil { panic("dup schema apiName: " + subApiName) } if t.Name != "" { panic("subtype already has name: " + t.Name) } t.Name = subApiName subs := &Schema{ api: s.api, typ: t, apiName: subApiName, } s.api.schemas[subApiName] = subs err := subs.populateSubSchemas() if err != nil { panicf("in sub-struct %q: %v", subApiName, err) } } switch s.typ.Kind { case disco.StructKind: for _, p := range s.properties() { subApiName := fmt.Sprintf("%s.%s", s.apiName, p.p.Name) switch p.Type().Kind { case disco.SimpleKind, disco.ReferenceKind, disco.AnyStructKind: // Do nothing. case disco.MapKind: mt := p.Type().ElementSchema() if mt.Kind == disco.SimpleKind || mt.Kind == disco.ReferenceKind { continue } addSubStruct(subApiName, mt) case disco.ArrayKind: at := p.Type().ElementSchema() if at.Kind == disco.SimpleKind || at.Kind == disco.ReferenceKind { continue } addSubStruct(subApiName, at) case disco.StructKind: addSubStruct(subApiName, p.Type()) default: panicf("Unknown type for %q: %s", subApiName, p.Type()) } } case disco.ArrayKind: subApiName := fmt.Sprintf("%s.Item", s.apiName) switch at := s.typ.ElementSchema(); at.Kind { case disco.SimpleKind, disco.ReferenceKind, disco.AnyStructKind: // Do nothing. case disco.MapKind: mt := at.ElementSchema() if k := mt.Kind; k != disco.SimpleKind && k != disco.ReferenceKind { addSubStruct(subApiName, mt) } case disco.ArrayKind: at := at.ElementSchema() if k := at.Kind; k != disco.SimpleKind && k != disco.ReferenceKind { addSubStruct(subApiName, at) } case disco.StructKind: addSubStruct(subApiName, at) default: panicf("Unknown array type for %q: %s", subApiName, at) } case disco.AnyStructKind, disco.MapKind, disco.SimpleKind, disco.ReferenceKind: // Do nothing. default: fmt.Fprintf(os.Stderr, "in populateSubSchemas, schema is: %v", s.typ) panicf("populateSubSchemas: unsupported type for schema %q", s.apiName) panic("unreachable") } return nil } // GoName returns (or creates and returns) the bare Go name // of the apiName, making sure that it's a proper Go identifier // and doesn't conflict with an existing name. func (s *Schema) GoName() string { if s.goName == "" { if s.typ.Kind == disco.MapKind { s.goName = s.api.typeAsGo(s.typ, false) } else { base := initialCap(s.apiName) s.goName = s.api.GetName(base) if base == "Service" && s.goName != "Service" { // Detect the case where a resource is going to clash with the // root service object. panicf("Clash on name Service") } } } return s.goName } // GoReturnType returns the Go type to use as the return type. // If a type is a struct, it will return *StructType, // for a map it will return map[string]ValueType, // for (not yet supported) slices it will return []ValueType. func (s *Schema) GoReturnType() string { if s.goReturnType == "" { if s.typ.Kind == disco.MapKind { s.goReturnType = s.GoName() } else { s.goReturnType = "*" + s.GoName() } } return s.goReturnType } func (s *Schema) writeSchemaCode(api *API) { switch s.typ.Kind { case disco.SimpleKind: apitype := s.typ.Type typ := mustSimpleTypeConvert(apitype, s.typ.Format) s.api.pn("\ntype %s %s", s.GoName(), typ) case disco.StructKind: s.writeSchemaStruct(api) case disco.MapKind, disco.AnyStructKind: // Do nothing. case disco.ArrayKind: log.Printf("TODO writeSchemaCode for arrays for %s", s.GoName()) default: fmt.Fprintf(os.Stderr, "in writeSchemaCode, schema is: %+v", s.typ) panicf("writeSchemaCode: unsupported type for schema %q", s.apiName) } } func (s *Schema) writeVariant(api *API, v *disco.Variant) { s.api.p("\ntype %s map[string]interface{}\n\n", s.GoName()) // Write out the "Type" method that identifies the variant type. s.api.pn("func (t %s) Type() string {", s.GoName()) s.api.pn(" return googleapi.VariantType(t)") s.api.p("}\n\n") // Write out helper methods to convert each possible variant. for _, m := range v.Map { if m.TypeValue == "" && m.Ref == "" { log.Printf("TODO variant %s ref %s not yet supported.", m.TypeValue, m.Ref) continue } s.api.pn("func (t %s) %s() (r %s, ok bool) {", s.GoName(), initialCap(m.TypeValue), m.Ref) s.api.pn(" if t.Type() != %q {", initialCap(m.TypeValue)) s.api.pn(" return r, false") s.api.pn(" }") s.api.pn(" ok = googleapi.ConvertVariant(map[string]interface{}(t), &r)") s.api.pn(" return r, ok") s.api.p("}\n\n") } } func (s *Schema) Description() string { return s.typ.Description } func (s *Schema) writeSchemaStruct(api *API) { if v := s.typ.Variant; v != nil { s.writeVariant(api, v) return } s.api.p("\n") des := s.Description() if des != "" { s.api.p("%s", asComment("", fmt.Sprintf("%s: %s", s.GoName(), des))) } s.api.pn("type %s struct {", s.GoName()) np := new(namePool) forceSendName := np.Get("ForceSendFields") nullFieldsName := np.Get("NullFields") if s.isResponseType() { np.Get("ServerResponse") // reserve the name } firstFieldName := "" // used to store a struct field name for use in documentation. for i, p := range s.properties() { if i > 0 { s.api.p("\n") } pname := np.Get(p.GoName()) if pname[0] == '@' { // HACK(cbro): ignore JSON-LD special fields until we can figure out // the correct Go representation for them. continue } p.assignedGoName = pname des := p.Description() if des != "" { s.api.p("%s", asComment("\t", fmt.Sprintf("%s: %s", pname, des))) } addFieldValueComments(s.api.p, p, "\t", des != "") var extraOpt string if p.Type().IsIntAsString() { extraOpt += ",string" } typ := p.TypeAsGo() if p.forcePointerType() { typ = "*" + typ } s.api.pn(" %s %s `json:\"%s,omitempty%s\"`", pname, typ, p.p.Name, extraOpt) if firstFieldName == "" { firstFieldName = pname } } if s.isResponseType() { if firstFieldName != "" { s.api.p("\n") } s.api.p("%s", asComment("\t", "ServerResponse contains the HTTP response code and headers from the server.")) s.api.pn(" googleapi.ServerResponse `json:\"-\"`") } if firstFieldName == "" { // There were no fields in the struct, so there is no point // adding any custom JSON marshaling code. s.api.pn("}") return } commentFmtStr := "%s is a list of field names (e.g. %q) to " + "unconditionally include in API requests. By default, fields " + "with empty values are omitted from API requests. However, " + "any non-pointer, non-interface field appearing in %s will " + "be sent to the server regardless of whether the field is " + "empty or not. This may be used to include empty fields in " + "Patch requests." comment := fmt.Sprintf(commentFmtStr, forceSendName, firstFieldName, forceSendName) s.api.p("\n") s.api.p("%s", asComment("\t", comment)) s.api.pn("\t%s []string `json:\"-\"`", forceSendName) commentFmtStr = "%s is a list of field names (e.g. %q) to " + "include in API requests with the JSON null value. " + "By default, fields with empty values are omitted from API requests. However, " + "any field with an empty value appearing in %s will be sent to the server as null. " + "It is an error if a field in this list has a non-empty value. This may be used to " + "include null fields in Patch requests." comment = fmt.Sprintf(commentFmtStr, nullFieldsName, firstFieldName, nullFieldsName) s.api.p("\n") s.api.p("%s", asComment("\t", comment)) s.api.pn("\t%s []string `json:\"-\"`", nullFieldsName) s.api.pn("}") s.writeSchemaMarshal(forceSendName, nullFieldsName) s.writeSchemaUnmarshal() } // writeSchemaMarshal writes a custom MarshalJSON function for s, which allows // fields to be explicitly transmitted by listing them in the field identified // by forceSendFieldName, and allows fields to be transmitted with the null value // by listing them in the field identified by nullFieldsName. func (s *Schema) writeSchemaMarshal(forceSendFieldName, nullFieldsName string) { s.api.pn("func (s *%s) MarshalJSON() ([]byte, error) {", s.GoName()) s.api.pn("\ttype noMethod %s", s.GoName()) // pass schema as methodless type to prevent subsequent calls to MarshalJSON from recursing indefinitely. s.api.pn("\traw := noMethod(*s)") s.api.pn("\treturn gensupport.MarshalJSON(raw, s.%s, s.%s)", forceSendFieldName, nullFieldsName) s.api.pn("}") } func (s *Schema) writeSchemaUnmarshal() { var floatProps []*Property for _, p := range s.properties() { if p.p.Schema.Type == "number" { floatProps = append(floatProps, p) } } if len(floatProps) == 0 { return } pn := s.api.pn pn("\nfunc (s *%s) UnmarshalJSON(data []byte) error {", s.GoName()) pn(" type noMethod %s", s.GoName()) // avoid infinite recursion pn(" var s1 struct {") // Hide the float64 fields of the schema with fields that correctly // unmarshal special values. for _, p := range floatProps { typ := "gensupport.JSONFloat64" if p.forcePointerType() { typ = "*" + typ } pn("%s %s `json:\"%s\"`", p.assignedGoName, typ, p.p.Name) } pn(" *noMethod") // embed the schema pn(" }") // Set the schema value into the wrapper so its other fields are unmarshaled. pn(" s1.noMethod = (*noMethod)(s)") pn(" if err := json.Unmarshal(data, &s1); err != nil {") pn(" return err") pn(" }") // Copy each shadowing field into the field it shadows. for _, p := range floatProps { n := p.assignedGoName if p.forcePointerType() { pn("if s1.%s != nil { s.%s = (*float64)(s1.%s) }", n, n, n) } else { pn("s.%s = float64(s1.%s)", n, n) } } pn(" return nil") pn("}") } // isResponseType returns true for all types that are used as a response. func (s *Schema) isResponseType() bool { return s.api.responseTypes["*"+s.goName] } // PopulateSchemas reads all the API types ("schemas") from the JSON file // and converts them to *Schema instances, returning an identically // keyed map, additionally containing subresources. For instance, // // A resource "Foo" of type "object" with a property "bar", also of type // "object" (an anonymous sub-resource), will get a synthetic API name // of "Foo.bar". // // A resource "Foo" of type "array" with an "items" of type "object" // will get a synthetic API name of "Foo.Item". func (a *API) PopulateSchemas() { if a.schemas != nil { panic("") } a.schemas = make(map[string]*Schema) for name, ds := range a.doc.Schemas { s := &Schema{ api: a, apiName: name, typ: ds, } a.schemas[name] = s err := s.populateSubSchemas() if err != nil { panicf("Error populating schema with API name %q: %v", name, err) } } } func (a *API) generateResource(r *disco.Resource) { pn := a.pn t := resourceGoType(r) pn(fmt.Sprintf("func New%s(s *%s) *%s {", t, a.ServiceType(), t)) pn("rs := &%s{s : s}", t) for _, res := range r.Resources { pn("rs.%s = New%s(s)", resourceGoField(res), resourceGoType(res)) } pn("return rs") pn("}") pn("\ntype %s struct {", t) pn(" s *%s", a.ServiceType()) for _, res := range r.Resources { pn("\n\t%s\t*%s", resourceGoField(res), resourceGoType(res)) } pn("}") for _, res := range r.Resources { a.generateResource(res) } } func (a *API) cacheResourceResponseTypes(r *disco.Resource) { for _, meth := range a.resourceMethods(r) { meth.cacheResponseTypes(a) } for _, res := range r.Resources { a.cacheResourceResponseTypes(res) } } func (a *API) generateResourceMethods(r *disco.Resource) { for _, meth := range a.resourceMethods(r) { meth.generateCode() } for _, res := range r.Resources { a.generateResourceMethods(res) } } func resourceGoField(r *disco.Resource) string { return initialCap(r.Name) } func resourceGoType(r *disco.Resource) string { return initialCap(r.FullName + "Service") } func (a *API) resourceMethods(r *disco.Resource) []*Method { ms := []*Method{} for _, m := range r.Methods { ms = append(ms, &Method{ api: a, r: r, m: m, }) } return ms } type Method struct { api *API r *disco.Resource // or nil if a API-level (top-level) method m *disco.Method params []*Param // all Params, of each type, lazily set by first access to Parameters } func (m *Method) Id() string { return m.m.ID } func (m *Method) responseType() *Schema { return m.api.schemas[m.m.Response.RefSchema.Name] } func (m *Method) supportsMediaUpload() bool { return m.m.MediaUpload != nil } func (m *Method) mediaUploadPath() string { return m.m.MediaUpload.Protocols["simple"].Path } func (m *Method) supportsMediaDownload() bool { if m.supportsMediaUpload() { // storage.objects.insert claims support for download in // addition to upload but attempting to do so fails. // This situation doesn't apply to any other methods. return false } return m.m.SupportsMediaDownload } func (m *Method) supportsPaging() (*pageTokenGenerator, string, bool) { ptg := m.pageTokenGenerator() if ptg == nil { return nil, "", false } // Check that the response type has the next page token. s := m.responseType() if s == nil || s.typ.Kind != disco.StructKind { return nil, "", false } for _, prop := range s.properties() { if isPageTokenName(prop.p.Name) && prop.Type().Type == "string" { return ptg, prop.GoName(), true } } return nil, "", false } type pageTokenGenerator struct { isParam bool // is the page token a URL parameter? name string // param or request field name requestName string // empty for URL param } func (p *pageTokenGenerator) genGet() string { if p.isParam { return fmt.Sprintf("c.urlParams_.Get(%q)", p.name) } return fmt.Sprintf("c.%s.%s", p.requestName, p.name) } func (p *pageTokenGenerator) genSet(valueExpr string) string { if p.isParam { return fmt.Sprintf("c.%s(%s)", initialCap(p.name), valueExpr) } return fmt.Sprintf("c.%s.%s = %s", p.requestName, p.name, valueExpr) } func (p *pageTokenGenerator) genDeferBody() string { if p.isParam { return p.genSet(p.genGet()) } return fmt.Sprintf("func (pt string) { %s }(%s)", p.genSet("pt"), p.genGet()) } // pageTokenGenerator returns a pageTokenGenerator that will generate code to // get/set the page token for a subsequent page in the context of the generated // Pages method. It returns nil if there is no page token. func (m *Method) pageTokenGenerator() *pageTokenGenerator { matches := m.grepParams(func(p *Param) bool { return isPageTokenName(p.p.Name) }) switch len(matches) { case 1: if matches[0].p.Required { // The page token is a required parameter (e.g. because there is // a separate API call to start an iteration), and so the relevant // call factory method takes the page token instead. return nil } n := matches[0].p.Name return &pageTokenGenerator{true, n, ""} case 0: // No URL parameter, but maybe a request field. if m.m.Request == nil { return nil } rs := m.m.Request if rs.RefSchema != nil { rs = rs.RefSchema } for _, p := range rs.Properties { if isPageTokenName(p.Name) { return &pageTokenGenerator{false, initialCap(p.Name), validGoIdentifer(strings.ToLower(rs.Name))} } } return nil default: panicf("too many page token parameters for method %s", m.m.Name) return nil } } func isPageTokenName(s string) bool { return s == "pageToken" || s == "nextPageToken" } func (m *Method) Params() []*Param { if m.params == nil { for _, p := range m.m.Parameters { m.params = append(m.params, &Param{ method: m, p: p, }) } } return m.params } func (m *Method) grepParams(f func(*Param) bool) []*Param { matches := make([]*Param, 0) for _, param := range m.Params() { if f(param) { matches = append(matches, param) } } return matches } func (m *Method) NamedParam(name string) *Param { matches := m.grepParams(func(p *Param) bool { return p.p.Name == name }) if len(matches) < 1 { log.Panicf("failed to find named parameter %q", name) } if len(matches) > 1 { log.Panicf("found multiple parameters for parameter name %q", name) } return matches[0] } func (m *Method) OptParams() []*Param { return m.grepParams(func(p *Param) bool { return !p.p.Required }) } func (meth *Method) cacheResponseTypes(api *API) { if retType := responseType(api, meth.m); retType != "" && strings.HasPrefix(retType, "*") { api.responseTypes[retType] = true } } // convertMultiParams builds a []string temp variable from a slice // of non-strings and returns the name of the temp variable. func convertMultiParams(a *API, param string) string { a.pn(" var %v_ []string", param) a.pn(" for _, v := range %v {", param) a.pn(" %v_ = append(%v_, fmt.Sprint(v))", param, param) a.pn(" }") return param + "_" } func (meth *Method) generateCode() { res := meth.r // may be nil if a top-level method a := meth.api p, pn := a.p, a.pn pn("\n// method id %q:", meth.Id()) retType := responseType(a, meth.m) retTypeComma := retType if retTypeComma != "" { retTypeComma += ", " } args := meth.NewArguments() methodName := initialCap(meth.m.Name) prefix := "" if res != nil { prefix = initialCap(res.FullName) } callName := a.GetName(prefix + methodName + "Call") pn("\ntype %s struct {", callName) pn(" s *%s", a.ServiceType()) for _, arg := range args.l { if arg.location != "query" { pn(" %s %s", arg.goname, arg.gotype) } } pn(" urlParams_ gensupport.URLParams") httpMethod := meth.m.HTTPMethod if httpMethod == "GET" { pn(" ifNoneMatch_ string") } if meth.supportsMediaUpload() { // At most one of media_ and resumbableBuffer_ will be set. pn(" media_ io.Reader") pn(" mediaBuffer_ *gensupport.MediaBuffer") pn(" mediaType_ string") pn(" mediaSize_ int64 // mediaSize, if known. Used only for calls to progressUpdater_.") pn(" progressUpdater_ googleapi.ProgressUpdater") } pn(" ctx_ context.Context") pn(" header_ http.Header") pn("}") p("\n%s", asComment("", methodName+": "+meth.m.Description)) if res != nil { if url := canonicalDocsURL[fmt.Sprintf("%v%v/%v", docsLink, res.Name, meth.m.Name)]; url != "" { pn("// For details, see %v", url) } } var servicePtr string if res == nil { pn("func (s *Service) %s(%s) *%s {", methodName, args, callName) servicePtr = "s" } else { pn("func (r *%s) %s(%s) *%s {", resourceGoType(res), methodName, args, callName) servicePtr = "r.s" } pn(" c := &%s{s: %s, urlParams_: make(gensupport.URLParams)}", callName, servicePtr) for _, arg := range args.l { // TODO(gmlewis): clean up and consolidate this section. // See: https://code-review.googlesource.com/#/c/3520/18/google-api-go-generator/gen.go if arg.location == "query" { switch arg.gotype { case "[]string": pn(" c.urlParams_.SetMulti(%q, append([]string{}, %v...))", arg.apiname, arg.goname) case "string": pn(" c.urlParams_.Set(%q, %v)", arg.apiname, arg.goname) default: if strings.HasPrefix(arg.gotype, "[]") { tmpVar := convertMultiParams(a, arg.goname) pn(" c.urlParams_.SetMulti(%q, %v)", arg.apiname, tmpVar) } else { pn(" c.urlParams_.Set(%q, fmt.Sprint(%v))", arg.apiname, arg.goname) } } continue } if arg.gotype == "[]string" { pn(" c.%s = append([]string{}, %s...)", arg.goname, arg.goname) // Make a copy of the []string. continue } pn(" c.%s = %s", arg.goname, arg.goname) } pn(" return c") pn("}") for _, opt := range meth.OptParams() { if opt.p.Location != "query" { panicf("optional parameter has unsupported location %q", opt.p.Location) } setter := initialCap(opt.p.Name) des := opt.p.Description des = strings.Replace(des, "Optional.", "", 1) des = strings.TrimSpace(des) p("\n%s", asComment("", fmt.Sprintf("%s sets the optional parameter %q: %s", setter, opt.p.Name, des))) addFieldValueComments(p, opt, "", true) np := new(namePool) np.Get("c") // take the receiver's name paramName := np.Get(validGoIdentifer(opt.p.Name)) typePrefix := "" if opt.p.Repeated { typePrefix = "..." } pn("func (c *%s) %s(%s %s%s) *%s {", callName, setter, paramName, typePrefix, opt.GoType(), callName) if opt.p.Repeated { if opt.GoType() == "string" { pn("c.urlParams_.SetMulti(%q, append([]string{}, %v...))", opt.p.Name, paramName) } else { tmpVar := convertMultiParams(a, paramName) pn(" c.urlParams_.SetMulti(%q, %v)", opt.p.Name, tmpVar) } } else { if opt.GoType() == "string" { pn("c.urlParams_.Set(%q, %v)", opt.p.Name, paramName) } else { pn("c.urlParams_.Set(%q, fmt.Sprint(%v))", opt.p.Name, paramName) } } pn("return c") pn("}") } if meth.supportsMediaUpload() { comment := "Media specifies the media to upload in one or more chunks. " + "The chunk size may be controlled by supplying a MediaOption generated by googleapi.ChunkSize. " + "The chunk size defaults to googleapi.DefaultUploadChunkSize." + "The Content-Type header used in the upload request will be determined by sniffing the contents of r, " + "unless a MediaOption generated by googleapi.ContentType is supplied." + "\nAt most one of Media and ResumableMedia may be set." // TODO(mcgreevy): Ensure that r is always closed before Do returns, and document this. // See comments on https://code-review.googlesource.com/#/c/3970/ p("\n%s", asComment("", comment)) pn("func (c *%s) Media(r io.Reader, options ...googleapi.MediaOption) *%s {", callName, callName) // We check if the body arg, if any, has a content type and apply it here. // In practice, this only happens for the storage API today. // TODO(djd): check if we can cope with the developer setting the body's Content-Type field // after they've made this call. if ba := args.bodyArg(); ba != nil { if ba.schema.HasContentType() { pn(" if ct := c.%s.ContentType; ct != \"\" {", ba.goname) pn(" options = append([]googleapi.MediaOption{googleapi.ContentType(ct)}, options...)") pn(" }") } } pn(" opts := googleapi.ProcessMediaOptions(options)") pn(" chunkSize := opts.ChunkSize") pn(" if !opts.ForceEmptyContentType {") pn(" r, c.mediaType_ = gensupport.DetermineContentType(r, opts.ContentType)") pn(" }") pn(" c.media_, c.mediaBuffer_ = gensupport.PrepareUpload(r, chunkSize)") pn(" return c") pn("}") comment = "ResumableMedia specifies the media to upload in chunks and can be canceled with ctx. " + "\n\nDeprecated: use Media instead." + "\n\nAt most one of Media and ResumableMedia may be set. " + `mediaType identifies the MIME media type of the upload, such as "image/png". ` + `If mediaType is "", it will be auto-detected. ` + `The provided ctx will supersede any context previously provided to ` + `the Context method.` p("\n%s", asComment("", comment)) pn("func (c *%s) ResumableMedia(ctx context.Context, r io.ReaderAt, size int64, mediaType string) *%s {", callName, callName) pn(" c.ctx_ = ctx") pn(" rdr := gensupport.ReaderAtToReader(r, size)") pn(" rdr, c.mediaType_ = gensupport.DetermineContentType(rdr, mediaType)") pn(" c.mediaBuffer_ = gensupport.NewMediaBuffer(rdr, googleapi.DefaultUploadChunkSize)") pn(" c.media_ = nil") pn(" c.mediaSize_ = size") pn(" return c") pn("}") comment = "ProgressUpdater provides a callback function that will be called after every chunk. " + "It should be a low-latency function in order to not slow down the upload operation. " + "This should only be called when using ResumableMedia (as opposed to Media)." p("\n%s", asComment("", comment)) pn("func (c *%s) ProgressUpdater(pu googleapi.ProgressUpdater) *%s {", callName, callName) pn(`c.progressUpdater_ = pu`) pn("return c") pn("}") } comment := "Fields allows partial responses to be retrieved. " + "See https://developers.google.com/gdata/docs/2.0/basics#PartialResponse " + "for more information." p("\n%s", asComment("", comment)) pn("func (c *%s) Fields(s ...googleapi.Field) *%s {", callName, callName) pn(`c.urlParams_.Set("fields", googleapi.CombineFields(s))`) pn("return c") pn("}") if httpMethod == "GET" { // Note that non-GET responses are excluded from supporting If-None-Match. // See https://github.com/google/google-api-go-client/issues/107 for more info. comment := "IfNoneMatch sets the optional parameter which makes the operation fail if " + "the object's ETag matches the given value. This is useful for getting updates " + "only after the object has changed since the last request. " + "Use googleapi.IsNotModified to check whether the response error from Do " + "is the result of In-None-Match." p("\n%s", asComment("", comment)) pn("func (c *%s) IfNoneMatch(entityTag string) *%s {", callName, callName) pn(" c.ifNoneMatch_ = entityTag") pn(" return c") pn("}") } doMethod := "Do method" if meth.supportsMediaDownload() { doMethod = "Do and Download methods" } commentFmtStr := "Context sets the context to be used in this call's %s. " + "Any pending HTTP request will be aborted if the provided context is canceled." comment = fmt.Sprintf(commentFmtStr, doMethod) p("\n%s", asComment("", comment)) if meth.supportsMediaUpload() { comment = "This context will supersede any context previously provided to " + "the ResumableMedia method." p("%s", asComment("", comment)) } pn("func (c *%s) Context(ctx context.Context) *%s {", callName, callName) pn(`c.ctx_ = ctx`) pn("return c") pn("}") comment = "Header returns an http.Header that can be modified by the caller to add " + "HTTP headers to the request." p("\n%s", asComment("", comment)) pn("func (c *%s) Header() http.Header {", callName) pn(" if c.header_ == nil {") pn(" c.header_ = make(http.Header)") pn(" }") pn(" return c.header_") pn("}") pn("\nfunc (c *%s) doRequest(alt string) (*http.Response, error) {", callName) pn(`reqHeaders := make(http.Header)`) pn("for k, v := range c.header_ {") pn(" reqHeaders[k] = v") pn("}") pn(`reqHeaders.Set("User-Agent",c.s.userAgent())`) if httpMethod == "GET" { pn(`if c.ifNoneMatch_ != "" {`) pn(` reqHeaders.Set("If-None-Match", c.ifNoneMatch_)`) pn("}") } pn("var body io.Reader = nil") if ba := args.bodyArg(); ba != nil && httpMethod != "GET" { style := "WithoutDataWrapper" if a.needsDataWrapper() { style = "WithDataWrapper" } pn("body, err := googleapi.%s.JSONReader(c.%s)", style, ba.goname) pn("if err != nil { return nil, err }") pn(`reqHeaders.Set("Content-Type", "application/json")`) } pn(`c.urlParams_.Set("alt", alt)`) pn("urls := googleapi.ResolveRelative(c.s.BasePath, %q)", meth.m.Path) if meth.supportsMediaUpload() { pn("if c.media_ != nil || c.mediaBuffer_ != nil{") // Hack guess, since we get a 404 otherwise: //pn("urls = googleapi.ResolveRelative(%q, %q)", a.apiBaseURL(), meth.mediaUploadPath()) // Further hack. Discovery doc is wrong? pn(" urls = strings.Replace(urls, %q, %q, 1)", "https://www.googleapis.com/", "https://www.googleapis.com/upload/") pn(` protocol := "multipart"`) pn(" if c.mediaBuffer_ != nil {") pn(` protocol = "resumable"`) pn(" }") pn(` c.urlParams_.Set("uploadType", protocol)`) pn("}") pn("if body == nil {") pn(" body = new(bytes.Buffer)") pn(` reqHeaders.Set("Content-Type", "application/json")`) pn("}") pn(`if c.media_ != nil {`) pn(` combined, ctype := gensupport.CombineBodyMedia(body, "application/json", c.media_, c.mediaType_)`) pn(" defer combined.Close()") pn(` reqHeaders.Set("Content-Type", ctype)`) pn(" body = combined") pn("}") pn(`if c.mediaBuffer_ != nil && c.mediaType_ != ""{`) pn(` reqHeaders.Set("X-Upload-Content-Type", c.mediaType_)`) pn("}") } pn("urls += \"?\" + c.urlParams_.Encode()") pn("req, _ := http.NewRequest(%q, urls, body)", httpMethod) pn("req.Header = reqHeaders") // Replace param values after NewRequest to avoid reencoding them. // E.g. Cloud Storage API requires '%2F' in entity param to be kept, but url.Parse replaces it with '/'. argsForLocation := args.forLocation("path") if len(argsForLocation) > 0 { pn(`googleapi.Expand(req.URL, map[string]string{`) for _, arg := range argsForLocation { pn(`"%s": %s,`, arg.apiname, arg.exprAsString("c.")) } pn(`})`) } pn("return gensupport.SendRequest(c.ctx_, c.s.client, req)") pn("}") if meth.supportsMediaDownload() { pn("\n// Download fetches the API endpoint's \"media\" value, instead of the normal") pn("// API response value. If the returned error is nil, the Response is guaranteed to") pn("// have a 2xx status code. Callers must close the Response.Body as usual.") pn("func (c *%s) Download(opts ...googleapi.CallOption) (*http.Response, error) {", callName) pn(`gensupport.SetOptions(c.urlParams_, opts...)`) pn(`res, err := c.doRequest("media")`) pn("if err != nil { return nil, err }") pn("if err := googleapi.CheckMediaResponse(res); err != nil {") pn("res.Body.Close()") pn("return nil, err") pn("}") pn("return res, nil") pn("}") } mapRetType := strings.HasPrefix(retTypeComma, "map[") pn("\n// Do executes the %q call.", meth.m.ID) if retTypeComma != "" && !mapRetType { commentFmtStr := "Exactly one of %v or error will be non-nil. " + "Any non-2xx status code is an error. " + "Response headers are in either %v.ServerResponse.Header " + "or (if a response was returned at all) in error.(*googleapi.Error).Header. " + "Use googleapi.IsNotModified to check whether the returned error was because " + "http.StatusNotModified was returned." comment := fmt.Sprintf(commentFmtStr, retType, retType) p("%s", asComment("", comment)) } pn("func (c *%s) Do(opts ...googleapi.CallOption) (%serror) {", callName, retTypeComma) nilRet := "" if retTypeComma != "" { nilRet = "nil, " } pn(`gensupport.SetOptions(c.urlParams_, opts...)`) pn(`res, err := c.doRequest("json")`) if retTypeComma != "" && !mapRetType { pn("if res != nil && res.StatusCode == http.StatusNotModified {") pn(" if res.Body != nil { res.Body.Close() }") pn(" return nil, &googleapi.Error{") pn(" Code: res.StatusCode,") pn(" Header: res.Header,") pn(" }") pn("}") } pn("if err != nil { return %serr }", nilRet) pn("defer googleapi.CloseBody(res)") pn("if err := googleapi.CheckResponse(res); err != nil { return %serr }", nilRet) if meth.supportsMediaUpload() { pn("if c.mediaBuffer_ != nil {") pn(` loc := res.Header.Get("Location")`) pn(" rx := &gensupport.ResumableUpload{") pn(" Client: c.s.client,") pn(" UserAgent: c.s.userAgent(),") pn(" URI: loc,") pn(" Media: c.mediaBuffer_,") pn(" MediaType: c.mediaType_,") pn(" Callback: func(curr int64){") pn(" if c.progressUpdater_ != nil {") pn(" c.progressUpdater_(curr, c.mediaSize_)") pn(" }") pn(" },") pn(" }") pn(" ctx := c.ctx_") pn(" if ctx == nil {") // TODO(mcgreevy): Require context when calling Media, or Do. pn(" ctx = context.TODO()") pn(" }") pn(" res, err = rx.Upload(ctx)") pn(" if err != nil { return %serr }", nilRet) pn(" defer res.Body.Close()") pn(" if err := googleapi.CheckResponse(res); err != nil { return %serr }", nilRet) pn("}") } if retTypeComma == "" { pn("return nil") } else { if mapRetType { pn("var ret %s", responseType(a, meth.m)) } else { pn("ret := &%s{", responseTypeLiteral(a, meth.m)) pn(" ServerResponse: googleapi.ServerResponse{") pn(" Header: res.Header,") pn(" HTTPStatusCode: res.StatusCode,") pn(" },") pn("}") } if a.needsDataWrapper() { pn("target := &struct {") pn(" Data %s `json:\"data\"`", responseType(a, meth.m)) pn("}{ret}") } else { pn("target := &ret") } pn("if err := json.NewDecoder(res.Body).Decode(target); err != nil { return nil, err }") pn("return ret, nil") } bs, _ := json.MarshalIndent(meth.m.JSONMap, "\t// ", " ") pn("// %s\n", string(bs)) pn("}") if ptg, rname, ok := meth.supportsPaging(); ok { // We can assume retType is non-empty. pn("") pn("// Pages invokes f for each page of results.") pn("// A non-nil error returned from f will halt the iteration.") pn("// The provided context supersedes any context provided to the Context method.") pn("func (c *%s) Pages(ctx context.Context, f func(%s) error) error {", callName, retType) pn(" c.ctx_ = ctx") pn(` defer %s // reset paging to original point`, ptg.genDeferBody()) pn(" for {") pn(" x, err := c.Do()") pn(" if err != nil { return err }") pn(" if err := f(x); err != nil { return err }") pn(` if x.%s == "" { return nil }`, rname) pn(ptg.genSet("x." + rname)) pn(" }") pn("}") } } // A Field provides methods that describe the characteristics of a Param or Property. type Field interface { Default() string Enum() ([]string, bool) EnumDescriptions() []string UnfortunateDefault() bool } type Param struct { method *Method p *disco.Parameter callFieldName string // empty means to use the default } func (p *Param) Default() string { return p.p.Default } func (p *Param) Enum() ([]string, bool) { if e := p.p.Enums; e != nil { return e, true } return nil, false } func (p *Param) EnumDescriptions() []string { return p.p.EnumDescriptions } func (p *Param) UnfortunateDefault() bool { // We do not do anything special for Params with unfortunate defaults. return false } func (p *Param) GoType() string { typ, format := p.p.Type, p.p.Format if typ == "string" && strings.Contains(format, "int") && p.p.Location != "query" { panic("unexpected int parameter encoded as string, not in query: " + p.p.Name) } t, ok := simpleTypeConvert(typ, format) if !ok { panic("failed to convert parameter type " + fmt.Sprintf("type=%q, format=%q", typ, format)) } return t } // goCallFieldName returns the name of this parameter's field in a // method's "Call" struct. func (p *Param) goCallFieldName() string { if p.callFieldName != "" { return p.callFieldName } return validGoIdentifer(p.p.Name) } // APIMethods returns top-level ("API-level") methods. They don't have an associated resource. func (a *API) APIMethods() []*Method { meths := []*Method{} for _, m := range a.doc.Methods { meths = append(meths, &Method{ api: a, r: nil, // to be explicit m: m, }) } return meths } func resolveRelative(basestr, relstr string) string { u, err := url.Parse(basestr) if err != nil { panicf("Error parsing base URL %q: %v", basestr, err) } rel, err := url.Parse(relstr) if err != nil { panicf("Error parsing relative URL %q: %v", relstr, err) } u = u.ResolveReference(rel) return u.String() } func (meth *Method) NewArguments() (args *arguments) { args = &arguments{ method: meth, m: make(map[string]*argument), } po := meth.m.ParameterOrder if len(po) > 0 { for _, pname := range po { arg := meth.NewArg(pname, meth.NamedParam(pname)) args.AddArg(arg) } } if rs := meth.m.Request; rs != nil { args.AddArg(meth.NewBodyArg(rs)) } return } func (meth *Method) NewBodyArg(ds *disco.Schema) *argument { s := meth.api.schemaNamed(ds.RefSchema.Name) return &argument{ goname: validGoIdentifer(strings.ToLower(ds.Ref)), apiname: "REQUEST", gotype: "*" + s.GoName(), apitype: ds.Ref, location: "body", schema: s, } } func (meth *Method) NewArg(apiname string, p *Param) *argument { apitype := p.p.Type des := p.p.Description goname := validGoIdentifer(apiname) // but might be changed later, if conflicts if strings.Contains(des, "identifier") && !strings.HasSuffix(strings.ToLower(goname), "id") { goname += "id" // yay p.callFieldName = goname } gotype := mustSimpleTypeConvert(apitype, p.p.Format) if p.p.Repeated { gotype = "[]" + gotype } return &argument{ apiname: apiname, apitype: apitype, goname: goname, gotype: gotype, location: p.p.Location, } } type argument struct { method *Method schema *Schema // Set if location == "body". apiname, apitype string goname, gotype string location string // "path", "query", "body" } func (a *argument) String() string { return a.goname + " " + a.gotype } func (a *argument) exprAsString(prefix string) string { switch a.gotype { case "[]string": log.Printf("TODO(bradfitz): only including the first parameter in path query.") return prefix + a.goname + `[0]` case "string": return prefix + a.goname case "integer", "int64": return "strconv.FormatInt(" + prefix + a.goname + ", 10)" case "uint64": return "strconv.FormatUint(" + prefix + a.goname + ", 10)" } log.Panicf("unknown type: apitype=%q, gotype=%q", a.apitype, a.gotype) return "" } // arguments are the arguments that a method takes type arguments struct { l []*argument m map[string]*argument method *Method } func (args *arguments) forLocation(loc string) []*argument { matches := make([]*argument, 0) for _, arg := range args.l { if arg.location == loc { matches = append(matches, arg) } } return matches } func (args *arguments) bodyArg() *argument { for _, arg := range args.l { if arg.location == "body" { return arg } } return nil } func (args *arguments) AddArg(arg *argument) { n := 1 oname := arg.goname for { _, present := args.m[arg.goname] if !present { args.m[arg.goname] = arg args.l = append(args.l, arg) return } n++ arg.goname = fmt.Sprintf("%s%d", oname, n) } } func (a *arguments) String() string { var buf bytes.Buffer for i, arg := range a.l { if i != 0 { buf.Write([]byte(", ")) } buf.Write([]byte(arg.String())) } return buf.String() } var urlRE = regexp.MustCompile(`^http\S+$`) func asComment(pfx, c string) string { var buf bytes.Buffer const maxLen = 70 r := strings.NewReplacer( "\n", "\n"+pfx+"// ", "`\"", `"`, "\"`", `"`, ) for len(c) > 0 { line := c if len(line) < maxLen { fmt.Fprintf(&buf, "%s// %s\n", pfx, r.Replace(line)) break } // Don't break URLs. if !urlRE.MatchString(line[:maxLen]) { line = line[:maxLen] } si := strings.LastIndex(line, " ") if nl := strings.Index(line, "\n"); nl != -1 && nl < si { si = nl } if si != -1 { line = line[:si] } fmt.Fprintf(&buf, "%s// %s\n", pfx, r.Replace(line)) c = c[len(line):] if si != -1 { c = c[1:] } } return buf.String() } func simpleTypeConvert(apiType, format string) (gotype string, ok bool) { // From http://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.1 switch apiType { case "boolean": gotype = "bool" case "string": gotype = "string" switch format { case "int64", "uint64", "int32", "uint32": gotype = format } case "number": gotype = "float64" case "integer": gotype = "int64" case "any": gotype = "interface{}" } return gotype, gotype != "" } func mustSimpleTypeConvert(apiType, format string) string { if gotype, ok := simpleTypeConvert(apiType, format); ok { return gotype } panic(fmt.Sprintf("failed to simpleTypeConvert(%q, %q)", apiType, format)) } func responseType(api *API, m *disco.Method) string { if m.Response == nil { return "" } ref := m.Response.Ref if ref != "" { if s := api.schemas[ref]; s != nil { return s.GoReturnType() } return "*" + ref } return "" } // Strips the leading '*' from a type name so that it can be used to create a literal. func responseTypeLiteral(api *API, m *disco.Method) string { v := responseType(api, m) if strings.HasPrefix(v, "*") { return v[1:] } return v } // initialCap returns the identifier with a leading capital letter. // it also maps "foo-bar" to "FooBar". func initialCap(ident string) string { if ident == "" { panic("blank identifier") } return depunct(ident, true) } func validGoIdentifer(ident string) string { id := depunct(ident, false) switch id { case "break", "default", "func", "interface", "select", "case", "defer", "go", "map", "struct", "chan", "else", "goto", "package", "switch", "const", "fallthrough", "if", "range", "type", "continue", "for", "import", "return", "var": return id + "_" } return id } // depunct removes '-', '.', '$', '/', '_' from identifers, making the // following character uppercase. Multiple '_' are preserved. func depunct(ident string, needCap bool) string { var buf bytes.Buffer preserve_ := false for i, c := range ident { if c == '_' { if preserve_ || strings.HasPrefix(ident[i:], "__") { preserve_ = true } else { needCap = true continue } } else { preserve_ = false } if c == '-' || c == '.' || c == '$' || c == '/' { needCap = true continue } if needCap { c = unicode.ToUpper(c) needCap = false } buf.WriteByte(byte(c)) } return buf.String() } func addFieldValueComments(p func(format string, args ...interface{}), field Field, indent string, blankLine bool) { var lines []string if enum, ok := field.Enum(); ok { desc := field.EnumDescriptions() lines = append(lines, asComment(indent, "Possible values:")) defval := field.Default() for i, v := range enum { more := "" if v == defval { more = " (default)" } if len(desc) > i && desc[i] != "" { more = more + " - " + desc[i] } lines = append(lines, asComment(indent, ` "`+v+`"`+more)) } } else if field.UnfortunateDefault() { lines = append(lines, asComment("\t", fmt.Sprintf("Default: %s", field.Default()))) } if blankLine && len(lines) > 0 { p(indent + "//\n") } for _, l := range lines { p("%s", l) } }