// Copyright 2014 The oauth2 Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Package oauth2 provides support for making // OAuth2 authorized and authenticated HTTP requests. // It can additionally grant authorization with Bearer JWT. package oauth2 // import "golang.org/x/oauth2" import ( "bytes" "encoding/json" "errors" "fmt" "io" "io/ioutil" "mime" "net/http" "net/url" "strconv" "strings" "sync" "time" "golang.org/x/net/context" ) // Context can be an golang.org/x/net/context.Context, or an App Engine Context. // If you don't care and aren't running on App Engine, you may use NoContext. type Context interface{} // NoContext is the default context. If you're not running this code // on App Engine or not using golang.org/x/net/context.Context to provide a custom // HTTP client, you should use NoContext. var NoContext Context = nil // Config describes a typical 3-legged OAuth2 flow, with both the // client application information and the server's endpoint URLs. type Config struct { // ClientID is the application's ID. ClientID string // ClientSecret is the application's secret. ClientSecret string // Endpoint contains the resource server's token endpoint // URLs. These are constants specific to each server and are // often available via site-specific packages, such as // google.Endpoint or github.Endpoint. Endpoint Endpoint // RedirectURL is the URL to redirect users going through // the OAuth flow, after the resource owner's URLs. RedirectURL string // Scope specifies optional requested permissions. Scopes []string } // A TokenSource is anything that can return a token. type TokenSource interface { // Token returns a token or an error. // Token must be safe for concurrent use by multiple goroutines. // The returned Token must not be modified. Token() (*Token, error) } // Endpoint contains the OAuth 2.0 provider's authorization and token // endpoint URLs. type Endpoint struct { AuthURL string TokenURL string } var ( // AccessTypeOnline and AccessTypeOffline are options passed // to the Options.AuthCodeURL method. They modify the // "access_type" field that gets sent in the URL returned by // AuthCodeURL. // // Online is the default if neither is specified. If your // application needs to refresh access tokens when the user // is not present at the browser, then use offline. This will // result in your application obtaining a refresh token the // first time your application exchanges an authorization // code for a user. AccessTypeOnline AuthCodeOption = setParam{"access_type", "online"} AccessTypeOffline AuthCodeOption = setParam{"access_type", "offline"} // ApprovalForce forces the users to view the consent dialog // and confirm the permissions request at the URL returned // from AuthCodeURL, even if they've already done so. ApprovalForce AuthCodeOption = setParam{"approval_prompt", "force"} ) type setParam struct{ k, v string } func (p setParam) setValue(m url.Values) { m.Set(p.k, p.v) } // An AuthCodeOption is passed to Config.AuthCodeURL. type AuthCodeOption interface { setValue(url.Values) } // AuthCodeURL returns a URL to OAuth 2.0 provider's consent page // that asks for permissions for the required scopes explicitly. // // State is a token to protect the user from CSRF attacks. You must // always provide a non-zero string and validate that it matches the // the state query parameter on your redirect callback. // See http://tools.ietf.org/html/rfc6749#section-10.12 for more info. // // Opts may include AccessTypeOnline or AccessTypeOffline, as well // as ApprovalForce. func (c *Config) AuthCodeURL(state string, opts ...AuthCodeOption) string { var buf bytes.Buffer buf.WriteString(c.Endpoint.AuthURL) v := url.Values{ "response_type": {"code"}, "client_id": {c.ClientID}, "redirect_uri": condVal(c.RedirectURL), "scope": condVal(strings.Join(c.Scopes, " ")), "state": condVal(state), } for _, opt := range opts { opt.setValue(v) } if strings.Contains(c.Endpoint.AuthURL, "?") { buf.WriteByte('&') } else { buf.WriteByte('?') } buf.WriteString(v.Encode()) return buf.String() } // PasswordCredentialsToken converts a resource owner username and password // pair into a token. // // Per the RFC, this grant type should only be used "when there is a high // degree of trust between the resource owner and the client (e.g., the client // is part of the device operating system or a highly privileged application), // and when other authorization grant types are not available." // See https://tools.ietf.org/html/rfc6749#section-4.3 for more info. // // The HTTP client to use is derived from the context. If nil, // http.DefaultClient is used. See the Context type's documentation. func (c *Config) PasswordCredentialsToken(ctx Context, username, password string) (*Token, error) { return retrieveToken(ctx, c, url.Values{ "grant_type": {"password"}, "username": {username}, "password": {password}, "scope": condVal(strings.Join(c.Scopes, " ")), }) } // Exchange converts an authorization code into a token. // // It is used after a resource provider redirects the user back // to the Redirect URI (the URL obtained from AuthCodeURL). // // The HTTP client to use is derived from the context. If nil, // http.DefaultClient is used. See the Context type's documentation. // // The code will be in the *http.Request.FormValue("code"). Before // calling Exchange, be sure to validate FormValue("state"). func (c *Config) Exchange(ctx Context, code string) (*Token, error) { return retrieveToken(ctx, c, url.Values{ "grant_type": {"authorization_code"}, "code": {code}, "redirect_uri": condVal(c.RedirectURL), "scope": condVal(strings.Join(c.Scopes, " ")), }) } // contextClientFunc is a func which tries to return an *http.Client // given a Context value. If it returns an error, the search stops // with that error. If it returns (nil, nil), the search continues // down the list of registered funcs. type contextClientFunc func(Context) (*http.Client, error) var contextClientFuncs []contextClientFunc func registerContextClientFunc(fn contextClientFunc) { contextClientFuncs = append(contextClientFuncs, fn) } func contextClient(ctx Context) (*http.Client, error) { for _, fn := range contextClientFuncs { c, err := fn(ctx) if err != nil { return nil, err } if c != nil { return c, nil } } if xc, ok := ctx.(context.Context); ok { if hc, ok := xc.Value(HTTPClient).(*http.Client); ok { return hc, nil } } return http.DefaultClient, nil } func contextTransport(ctx Context) http.RoundTripper { hc, err := contextClient(ctx) if err != nil { // This is a rare error case (somebody using nil on App Engine), // so I'd rather not everybody do an error check on this Client // method. They can get the error that they're doing it wrong // later, at client.Get/PostForm time. return errorTransport{err} } return hc.Transport } // Client returns an HTTP client using the provided token. // The token will auto-refresh as necessary. The underlying // HTTP transport will be obtained using the provided context. // The returned client and its Transport should not be modified. func (c *Config) Client(ctx Context, t *Token) *http.Client { return NewClient(ctx, c.TokenSource(ctx, t)) } // TokenSource returns a TokenSource that returns t until t expires, // automatically refreshing it as necessary using the provided context. // See the the Context documentation. // // Most users will use Config.Client instead. func (c *Config) TokenSource(ctx Context, t *Token) TokenSource { tkr := &tokenRefresher{ ctx: ctx, conf: c, } if t != nil { tkr.refreshToken = t.RefreshToken } return &reuseTokenSource{ t: t, new: tkr, } } // tokenRefresher is a TokenSource that makes "grant_type"=="refresh_token" // HTTP requests to renew a token using a RefreshToken. type tokenRefresher struct { ctx Context // used to get HTTP requests conf *Config refreshToken string } // WARNING: Token is not safe for concurrent access, as it // updates the tokenRefresher's refreshToken field. // Within this package, it is used by reuseTokenSource which // synchronizes calls to this method with its own mutex. func (tf *tokenRefresher) Token() (*Token, error) { if tf.refreshToken == "" { return nil, errors.New("oauth2: token expired and refresh token is not set") } tk, err := retrieveToken(tf.ctx, tf.conf, url.Values{ "grant_type": {"refresh_token"}, "refresh_token": {tf.refreshToken}, }) if err != nil { return nil, err } if tf.refreshToken != tk.RefreshToken { tf.refreshToken = tk.RefreshToken } return tk, err } // reuseTokenSource is a TokenSource that holds a single token in memory // and validates its expiry before each call to retrieve it with // Token. If it's expired, it will be auto-refreshed using the // new TokenSource. type reuseTokenSource struct { new TokenSource // called when t is expired. mu sync.Mutex // guards t t *Token } // Token returns the current token if it's still valid, else will // refresh the current token (using r.Context for HTTP client // information) and return the new one. func (s *reuseTokenSource) Token() (*Token, error) { s.mu.Lock() defer s.mu.Unlock() if s.t.Valid() { return s.t, nil } t, err := s.new.Token() if err != nil { return nil, err } s.t = t return t, nil } func retrieveToken(ctx Context, c *Config, v url.Values) (*Token, error) { hc, err := contextClient(ctx) if err != nil { return nil, err } v.Set("client_id", c.ClientID) bustedAuth := !providerAuthHeaderWorks(c.Endpoint.TokenURL) if bustedAuth && c.ClientSecret != "" { v.Set("client_secret", c.ClientSecret) } req, err := http.NewRequest("POST", c.Endpoint.TokenURL, strings.NewReader(v.Encode())) if err != nil { return nil, err } req.Header.Set("Content-Type", "application/x-www-form-urlencoded") if !bustedAuth && c.ClientSecret != "" { req.SetBasicAuth(c.ClientID, c.ClientSecret) } r, err := hc.Do(req) if err != nil { return nil, err } defer r.Body.Close() body, err := ioutil.ReadAll(io.LimitReader(r.Body, 1<<20)) if err != nil { return nil, fmt.Errorf("oauth2: cannot fetch token: %v", err) } if code := r.StatusCode; code < 200 || code > 299 { return nil, fmt.Errorf("oauth2: cannot fetch token: %v\nResponse: %s", r.Status, body) } var token *Token content, _, _ := mime.ParseMediaType(r.Header.Get("Content-Type")) switch content { case "application/x-www-form-urlencoded", "text/plain": vals, err := url.ParseQuery(string(body)) if err != nil { return nil, err } token = &Token{ AccessToken: vals.Get("access_token"), TokenType: vals.Get("token_type"), RefreshToken: vals.Get("refresh_token"), raw: vals, } e := vals.Get("expires_in") if e == "" { // TODO(jbd): Facebook's OAuth2 implementation is broken and // returns expires_in field in expires. Remove the fallback to expires, // when Facebook fixes their implementation. e = vals.Get("expires") } expires, _ := strconv.Atoi(e) if expires != 0 { token.Expiry = time.Now().Add(time.Duration(expires) * time.Second) } default: var tj tokenJSON if err = json.Unmarshal(body, &tj); err != nil { return nil, err } token = &Token{ AccessToken: tj.AccessToken, TokenType: tj.TokenType, RefreshToken: tj.RefreshToken, Expiry: tj.expiry(), raw: make(map[string]interface{}), } json.Unmarshal(body, &token.raw) // no error checks for optional fields } // Don't overwrite `RefreshToken` with an empty value // if this was a token refreshing request. if token.RefreshToken == "" { token.RefreshToken = v.Get("refresh_token") } return token, nil } // tokenJSON is the struct representing the HTTP response from OAuth2 // providers returning a token in JSON form. type tokenJSON struct { AccessToken string `json:"access_token"` TokenType string `json:"token_type"` RefreshToken string `json:"refresh_token"` ExpiresIn int32 `json:"expires_in"` Expires int32 `json:"expires"` // broken Facebook spelling of expires_in } func (e *tokenJSON) expiry() (t time.Time) { if v := e.ExpiresIn; v != 0 { return time.Now().Add(time.Duration(v) * time.Second) } if v := e.Expires; v != 0 { return time.Now().Add(time.Duration(v) * time.Second) } return } func condVal(v string) []string { if v == "" { return nil } return []string{v} } // providerAuthHeaderWorks reports whether the OAuth2 server identified by the tokenURL // implements the OAuth2 spec correctly // See https://code.google.com/p/goauth2/issues/detail?id=31 for background. // In summary: // - Reddit only accepts client secret in the Authorization header // - Dropbox accepts either it in URL param or Auth header, but not both. // - Google only accepts URL param (not spec compliant?), not Auth header // - Stripe only accepts client secret in Auth header with Bearer method, not Basic func providerAuthHeaderWorks(tokenURL string) bool { if strings.HasPrefix(tokenURL, "https://accounts.google.com/") || strings.HasPrefix(tokenURL, "https://www.googleapis.com/") || strings.HasPrefix(tokenURL, "https://github.com/") || strings.HasPrefix(tokenURL, "https://api.instagram.com/") || strings.HasPrefix(tokenURL, "https://www.douban.com/") || strings.HasPrefix(tokenURL, "https://api.dropbox.com/") || strings.HasPrefix(tokenURL, "https://api.soundcloud.com/") || strings.HasPrefix(tokenURL, "https://www.linkedin.com/") || strings.HasPrefix(tokenURL, "https://api.twitch.tv/") || strings.HasPrefix(tokenURL, "https://connect.stripe.com/") { // Some sites fail to implement the OAuth2 spec fully. return false } // Assume the provider implements the spec properly // otherwise. We can add more exceptions as they're // discovered. We will _not_ be adding configurable hooks // to this package to let users select server bugs. return true } // HTTPClient is the context key to use with golang.org/x/net/context's // WithValue function to associate an *http.Client value with a context. var HTTPClient contextKey // contextKey is just an empty struct. It exists so HTTPClient can be // an immutable public variable with a unique type. It's immutable // because nobody else can create a contextKey, being unexported. type contextKey struct{} // NewClient creates an *http.Client from a Context and TokenSource. // The returned client is not valid beyond the lifetime of the context. // // As a special case, if src is nil, a non-OAuth2 client is returned // using the provided context. This exists to support related OAuth2 // packages. func NewClient(ctx Context, src TokenSource) *http.Client { if src == nil { c, err := contextClient(ctx) if err != nil { return &http.Client{Transport: errorTransport{err}} } return c } return &http.Client{ Transport: &Transport{ Base: contextTransport(ctx), Source: ReuseTokenSource(nil, src), }, } } // ReuseTokenSource returns a TokenSource which repeatedly returns the // same token as long as it's valid, starting with t. // When its cached token is invalid, a new token is obtained from src. // // ReuseTokenSource is typically used to reuse tokens from a cache // (such as a file on disk) between runs of a program, rather than // obtaining new tokens unnecessarily. // // The initial token t may be nil, in which case the TokenSource is // wrapped in a caching version if it isn't one already. This also // means it's always safe to wrap ReuseTokenSource around any other // TokenSource without adverse effects. func ReuseTokenSource(t *Token, src TokenSource) TokenSource { // Don't wrap a reuseTokenSource in itself. That would work, // but cause an unnecessary number of mutex operations. // Just build the equivalent one. if rt, ok := src.(*reuseTokenSource); ok { if t == nil { // Just use it directly. return rt } src = rt.new } return &reuseTokenSource{ t: t, new: src, } }