зеркало из https://github.com/golang/oauth2.git
422 строки
14 KiB
Go
422 строки
14 KiB
Go
// Copyright 2014 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Package oauth2 provides support for making
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// OAuth2 authorized and authenticated HTTP requests,
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// as specified in RFC 6749.
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// It can additionally grant authorization with Bearer JWT.
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package oauth2 // import "golang.org/x/oauth2"
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import (
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"bytes"
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"context"
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"errors"
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"net/http"
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"net/url"
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"strings"
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"sync"
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"time"
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"golang.org/x/oauth2/internal"
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)
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// NoContext is the default context you should supply if not using
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// your own context.Context (see https://golang.org/x/net/context).
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//
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// Deprecated: Use context.Background() or context.TODO() instead.
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var NoContext = context.TODO()
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// RegisterBrokenAuthHeaderProvider previously did something. It is now a no-op.
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//
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// Deprecated: this function no longer does anything. Caller code that
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// wants to avoid potential extra HTTP requests made during
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// auto-probing of the provider's auth style should set
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// Endpoint.AuthStyle.
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func RegisterBrokenAuthHeaderProvider(tokenURL string) {}
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// Config describes a typical 3-legged OAuth2 flow, with both the
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// client application information and the server's endpoint URLs.
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// For the client credentials 2-legged OAuth2 flow, see the clientcredentials
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// package (https://golang.org/x/oauth2/clientcredentials).
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type Config struct {
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// ClientID is the application's ID.
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ClientID string
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// ClientSecret is the application's secret.
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ClientSecret string
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// Endpoint contains the resource server's token endpoint
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// URLs. These are constants specific to each server and are
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// often available via site-specific packages, such as
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// google.Endpoint or github.Endpoint.
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Endpoint Endpoint
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// RedirectURL is the URL to redirect users going through
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// the OAuth flow, after the resource owner's URLs.
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RedirectURL string
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// Scope specifies optional requested permissions.
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Scopes []string
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// authStyleCache caches which auth style to use when Endpoint.AuthStyle is
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// the zero value (AuthStyleAutoDetect).
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authStyleCache internal.LazyAuthStyleCache
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}
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// A TokenSource is anything that can return a token.
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type TokenSource interface {
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// Token returns a token or an error.
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// Token must be safe for concurrent use by multiple goroutines.
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// The returned Token must not be modified.
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Token() (*Token, error)
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}
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// Endpoint represents an OAuth 2.0 provider's authorization and token
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// endpoint URLs.
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type Endpoint struct {
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AuthURL string
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DeviceAuthURL string
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TokenURL string
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// AuthStyle optionally specifies how the endpoint wants the
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// client ID & client secret sent. The zero value means to
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// auto-detect.
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AuthStyle AuthStyle
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}
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// AuthStyle represents how requests for tokens are authenticated
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// to the server.
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type AuthStyle int
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const (
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// AuthStyleAutoDetect means to auto-detect which authentication
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// style the provider wants by trying both ways and caching
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// the successful way for the future.
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AuthStyleAutoDetect AuthStyle = 0
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// AuthStyleInParams sends the "client_id" and "client_secret"
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// in the POST body as application/x-www-form-urlencoded parameters.
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AuthStyleInParams AuthStyle = 1
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// AuthStyleInHeader sends the client_id and client_password
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// using HTTP Basic Authorization. This is an optional style
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// described in the OAuth2 RFC 6749 section 2.3.1.
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AuthStyleInHeader AuthStyle = 2
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)
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var (
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// AccessTypeOnline and AccessTypeOffline are options passed
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// to the Options.AuthCodeURL method. They modify the
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// "access_type" field that gets sent in the URL returned by
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// AuthCodeURL.
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//
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// Online is the default if neither is specified. If your
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// application needs to refresh access tokens when the user
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// is not present at the browser, then use offline. This will
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// result in your application obtaining a refresh token the
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// first time your application exchanges an authorization
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// code for a user.
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AccessTypeOnline AuthCodeOption = SetAuthURLParam("access_type", "online")
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AccessTypeOffline AuthCodeOption = SetAuthURLParam("access_type", "offline")
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// ApprovalForce forces the users to view the consent dialog
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// and confirm the permissions request at the URL returned
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// from AuthCodeURL, even if they've already done so.
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ApprovalForce AuthCodeOption = SetAuthURLParam("prompt", "consent")
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)
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// An AuthCodeOption is passed to Config.AuthCodeURL.
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type AuthCodeOption interface {
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setValue(url.Values)
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}
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type setParam struct{ k, v string }
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func (p setParam) setValue(m url.Values) { m.Set(p.k, p.v) }
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// SetAuthURLParam builds an AuthCodeOption which passes key/value parameters
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// to a provider's authorization endpoint.
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func SetAuthURLParam(key, value string) AuthCodeOption {
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return setParam{key, value}
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}
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// AuthCodeURL returns a URL to OAuth 2.0 provider's consent page
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// that asks for permissions for the required scopes explicitly.
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//
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// State is an opaque value used by the client to maintain state between the
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// request and callback. The authorization server includes this value when
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// redirecting the user agent back to the client.
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//
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// Opts may include AccessTypeOnline or AccessTypeOffline, as well
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// as ApprovalForce.
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//
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// To protect against CSRF attacks, opts should include a PKCE challenge
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// (S256ChallengeOption). Not all servers support PKCE. An alternative is to
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// generate a random state parameter and verify it after exchange.
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// See https://datatracker.ietf.org/doc/html/rfc6749#section-10.12 (predating
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// PKCE), https://www.oauth.com/oauth2-servers/pkce/ and
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// https://www.ietf.org/archive/id/draft-ietf-oauth-v2-1-09.html#name-cross-site-request-forgery (describing both approaches)
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func (c *Config) AuthCodeURL(state string, opts ...AuthCodeOption) string {
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var buf bytes.Buffer
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buf.WriteString(c.Endpoint.AuthURL)
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v := url.Values{
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"response_type": {"code"},
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"client_id": {c.ClientID},
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}
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if c.RedirectURL != "" {
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v.Set("redirect_uri", c.RedirectURL)
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}
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if len(c.Scopes) > 0 {
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v.Set("scope", strings.Join(c.Scopes, " "))
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}
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if state != "" {
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v.Set("state", state)
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}
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for _, opt := range opts {
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opt.setValue(v)
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}
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if strings.Contains(c.Endpoint.AuthURL, "?") {
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buf.WriteByte('&')
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} else {
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buf.WriteByte('?')
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}
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buf.WriteString(v.Encode())
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return buf.String()
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}
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// PasswordCredentialsToken converts a resource owner username and password
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// pair into a token.
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//
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// Per the RFC, this grant type should only be used "when there is a high
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// degree of trust between the resource owner and the client (e.g., the client
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// is part of the device operating system or a highly privileged application),
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// and when other authorization grant types are not available."
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// See https://tools.ietf.org/html/rfc6749#section-4.3 for more info.
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//
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// The provided context optionally controls which HTTP client is used. See the HTTPClient variable.
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func (c *Config) PasswordCredentialsToken(ctx context.Context, username, password string) (*Token, error) {
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v := url.Values{
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"grant_type": {"password"},
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"username": {username},
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"password": {password},
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}
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if len(c.Scopes) > 0 {
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v.Set("scope", strings.Join(c.Scopes, " "))
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}
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return retrieveToken(ctx, c, v)
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}
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// Exchange converts an authorization code into a token.
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//
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// It is used after a resource provider redirects the user back
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// to the Redirect URI (the URL obtained from AuthCodeURL).
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//
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// The provided context optionally controls which HTTP client is used. See the HTTPClient variable.
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//
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// The code will be in the *http.Request.FormValue("code"). Before
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// calling Exchange, be sure to validate FormValue("state") if you are
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// using it to protect against CSRF attacks.
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//
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// If using PKCE to protect against CSRF attacks, opts should include a
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// VerifierOption.
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func (c *Config) Exchange(ctx context.Context, code string, opts ...AuthCodeOption) (*Token, error) {
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v := url.Values{
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"grant_type": {"authorization_code"},
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"code": {code},
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}
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if c.RedirectURL != "" {
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v.Set("redirect_uri", c.RedirectURL)
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}
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for _, opt := range opts {
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opt.setValue(v)
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}
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return retrieveToken(ctx, c, v)
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}
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// Client returns an HTTP client using the provided token.
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// The token will auto-refresh as necessary. The underlying
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// HTTP transport will be obtained using the provided context.
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// The returned client and its Transport should not be modified.
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func (c *Config) Client(ctx context.Context, t *Token) *http.Client {
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return NewClient(ctx, c.TokenSource(ctx, t))
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}
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// TokenSource returns a TokenSource that returns t until t expires,
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// automatically refreshing it as necessary using the provided context.
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//
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// Most users will use Config.Client instead.
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func (c *Config) TokenSource(ctx context.Context, t *Token) TokenSource {
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tkr := &tokenRefresher{
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ctx: ctx,
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conf: c,
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}
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if t != nil {
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tkr.refreshToken = t.RefreshToken
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}
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return &reuseTokenSource{
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t: t,
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new: tkr,
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}
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}
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// tokenRefresher is a TokenSource that makes "grant_type"=="refresh_token"
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// HTTP requests to renew a token using a RefreshToken.
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type tokenRefresher struct {
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ctx context.Context // used to get HTTP requests
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conf *Config
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refreshToken string
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}
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// WARNING: Token is not safe for concurrent access, as it
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// updates the tokenRefresher's refreshToken field.
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// Within this package, it is used by reuseTokenSource which
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// synchronizes calls to this method with its own mutex.
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func (tf *tokenRefresher) Token() (*Token, error) {
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if tf.refreshToken == "" {
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return nil, errors.New("oauth2: token expired and refresh token is not set")
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}
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tk, err := retrieveToken(tf.ctx, tf.conf, url.Values{
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"grant_type": {"refresh_token"},
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"refresh_token": {tf.refreshToken},
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})
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if err != nil {
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return nil, err
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}
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if tf.refreshToken != tk.RefreshToken {
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tf.refreshToken = tk.RefreshToken
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}
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return tk, err
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}
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// reuseTokenSource is a TokenSource that holds a single token in memory
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// and validates its expiry before each call to retrieve it with
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// Token. If it's expired, it will be auto-refreshed using the
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// new TokenSource.
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type reuseTokenSource struct {
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new TokenSource // called when t is expired.
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mu sync.Mutex // guards t
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t *Token
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expiryDelta time.Duration
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}
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// Token returns the current token if it's still valid, else will
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// refresh the current token (using r.Context for HTTP client
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// information) and return the new one.
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func (s *reuseTokenSource) Token() (*Token, error) {
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s.mu.Lock()
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defer s.mu.Unlock()
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if s.t.Valid() {
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return s.t, nil
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}
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t, err := s.new.Token()
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if err != nil {
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return nil, err
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}
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t.expiryDelta = s.expiryDelta
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s.t = t
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return t, nil
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}
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// StaticTokenSource returns a TokenSource that always returns the same token.
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// Because the provided token t is never refreshed, StaticTokenSource is only
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// useful for tokens that never expire.
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func StaticTokenSource(t *Token) TokenSource {
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return staticTokenSource{t}
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}
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// staticTokenSource is a TokenSource that always returns the same Token.
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type staticTokenSource struct {
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t *Token
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}
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func (s staticTokenSource) Token() (*Token, error) {
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return s.t, nil
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}
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// HTTPClient is the context key to use with golang.org/x/net/context's
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// WithValue function to associate an *http.Client value with a context.
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var HTTPClient internal.ContextKey
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// NewClient creates an *http.Client from a Context and TokenSource.
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// The returned client is not valid beyond the lifetime of the context.
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//
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// Note that if a custom *http.Client is provided via the Context it
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// is used only for token acquisition and is not used to configure the
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// *http.Client returned from NewClient.
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//
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// As a special case, if src is nil, a non-OAuth2 client is returned
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// using the provided context. This exists to support related OAuth2
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// packages.
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func NewClient(ctx context.Context, src TokenSource) *http.Client {
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if src == nil {
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return internal.ContextClient(ctx)
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}
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return &http.Client{
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Transport: &Transport{
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Base: internal.ContextClient(ctx).Transport,
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Source: ReuseTokenSource(nil, src),
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},
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}
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}
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// ReuseTokenSource returns a TokenSource which repeatedly returns the
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// same token as long as it's valid, starting with t.
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// When its cached token is invalid, a new token is obtained from src.
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//
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// ReuseTokenSource is typically used to reuse tokens from a cache
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// (such as a file on disk) between runs of a program, rather than
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// obtaining new tokens unnecessarily.
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//
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// The initial token t may be nil, in which case the TokenSource is
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// wrapped in a caching version if it isn't one already. This also
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// means it's always safe to wrap ReuseTokenSource around any other
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// TokenSource without adverse effects.
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func ReuseTokenSource(t *Token, src TokenSource) TokenSource {
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// Don't wrap a reuseTokenSource in itself. That would work,
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// but cause an unnecessary number of mutex operations.
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// Just build the equivalent one.
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if rt, ok := src.(*reuseTokenSource); ok {
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if t == nil {
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// Just use it directly.
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return rt
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}
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src = rt.new
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}
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return &reuseTokenSource{
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t: t,
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new: src,
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}
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}
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// ReuseTokenSourceWithExpiry returns a TokenSource that acts in the same manner as the
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// TokenSource returned by ReuseTokenSource, except the expiry buffer is
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// configurable. The expiration time of a token is calculated as
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// t.Expiry.Add(-earlyExpiry).
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func ReuseTokenSourceWithExpiry(t *Token, src TokenSource, earlyExpiry time.Duration) TokenSource {
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// Don't wrap a reuseTokenSource in itself. That would work,
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// but cause an unnecessary number of mutex operations.
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// Just build the equivalent one.
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if rt, ok := src.(*reuseTokenSource); ok {
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if t == nil {
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// Just use it directly, but set the expiryDelta to earlyExpiry,
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// so the behavior matches what the user expects.
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rt.expiryDelta = earlyExpiry
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return rt
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}
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src = rt.new
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}
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if t != nil {
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t.expiryDelta = earlyExpiry
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}
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return &reuseTokenSource{
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t: t,
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new: src,
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expiryDelta: earlyExpiry,
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}
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}
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