This commit is contained in:
M Hickford 2023-01-28 15:02:13 +00:00
Родитель e3fb0fb3af
Коммит f01f7593a3
3 изменённых файлов: 88 добавлений и 12 удалений

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@ -26,9 +26,13 @@ func ExampleConfig() {
}, },
} }
// use PKCE to protect against CSRF attacks
// https://www.ietf.org/archive/id/draft-ietf-oauth-security-topics-22.html#name-countermeasures-6
verifier := oauth2.GenerateVerifier()
// Redirect user to consent page to ask for permission // Redirect user to consent page to ask for permission
// for the scopes specified above. // for the scopes specified above.
url := conf.AuthCodeURL("state", oauth2.AccessTypeOffline) url := conf.AuthCodeURL("state", oauth2.AccessTypeOffline, oauth2.S256ChallengeOption(verifier))
fmt.Printf("Visit the URL for the auth dialog: %v", url) fmt.Printf("Visit the URL for the auth dialog: %v", url)
// Use the authorization code that is pushed to the redirect // Use the authorization code that is pushed to the redirect
@ -39,7 +43,7 @@ func ExampleConfig() {
if _, err := fmt.Scan(&code); err != nil { if _, err := fmt.Scan(&code); err != nil {
log.Fatal(err) log.Fatal(err)
} }
tok, err := conf.Exchange(ctx, code) tok, err := conf.Exchange(ctx, code, oauth2.VerifierOption(verifier))
if err != nil { if err != nil {
log.Fatal(err) log.Fatal(err)
} }

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@ -144,15 +144,19 @@ func SetAuthURLParam(key, value string) AuthCodeOption {
// AuthCodeURL returns a URL to OAuth 2.0 provider's consent page // AuthCodeURL returns a URL to OAuth 2.0 provider's consent page
// that asks for permissions for the required scopes explicitly. // that asks for permissions for the required scopes explicitly.
// //
// State is a token to protect the user from CSRF attacks. You must // State is an opaque value used by the client to maintain state between the
// always provide a non-empty string and validate that it matches the // request and callback. The authorization server includes this value when
// state query parameter on your redirect callback. // redirecting the user agent back to the client.
// See http://tools.ietf.org/html/rfc6749#section-10.12 for more info.
// //
// Opts may include AccessTypeOnline or AccessTypeOffline, as well // Opts may include AccessTypeOnline or AccessTypeOffline, as well
// as ApprovalForce. // as ApprovalForce.
// It can also be used to pass the PKCE challenge. //
// See https://www.oauth.com/oauth2-servers/pkce/ for more info. // To protect against CSRF attacks, opts should include a PKCE challenge
// (S256ChallengeOption). Not all servers support PKCE. An alternative is to
// generate a random state parameter and verify it after exchange.
// See https://datatracker.ietf.org/doc/html/rfc6749#section-10.12 (predating
// PKCE), https://www.oauth.com/oauth2-servers/pkce/ and
// https://www.ietf.org/archive/id/draft-ietf-oauth-v2-1-09.html#name-cross-site-request-forgery (describing both approaches)
func (c *Config) AuthCodeURL(state string, opts ...AuthCodeOption) string { func (c *Config) AuthCodeURL(state string, opts ...AuthCodeOption) string {
var buf bytes.Buffer var buf bytes.Buffer
buf.WriteString(c.Endpoint.AuthURL) buf.WriteString(c.Endpoint.AuthURL)
@ -167,7 +171,6 @@ func (c *Config) AuthCodeURL(state string, opts ...AuthCodeOption) string {
v.Set("scope", strings.Join(c.Scopes, " ")) v.Set("scope", strings.Join(c.Scopes, " "))
} }
if state != "" { if state != "" {
// TODO(light): Docs say never to omit state; don't allow empty.
v.Set("state", state) v.Set("state", state)
} }
for _, opt := range opts { for _, opt := range opts {
@ -212,10 +215,11 @@ func (c *Config) PasswordCredentialsToken(ctx context.Context, username, passwor
// The provided context optionally controls which HTTP client is used. See the HTTPClient variable. // The provided context optionally controls which HTTP client is used. See the HTTPClient variable.
// //
// The code will be in the *http.Request.FormValue("code"). Before // The code will be in the *http.Request.FormValue("code"). Before
// calling Exchange, be sure to validate FormValue("state"). // calling Exchange, be sure to validate FormValue("state") if you are
// using it to protect against CSRF attacks.
// //
// Opts may include the PKCE verifier code if previously used in AuthCodeURL. // If using PKCE to protect against CSRF attacks, opts should include a
// See https://www.oauth.com/oauth2-servers/pkce/ for more info. // VerifierOption.
func (c *Config) Exchange(ctx context.Context, code string, opts ...AuthCodeOption) (*Token, error) { func (c *Config) Exchange(ctx context.Context, code string, opts ...AuthCodeOption) (*Token, error) {
v := url.Values{ v := url.Values{
"grant_type": {"authorization_code"}, "grant_type": {"authorization_code"},

68
pkce.go Normal file
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@ -0,0 +1,68 @@
// Copyright 2023 The Go 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
import (
"crypto/rand"
"crypto/sha256"
"encoding/base64"
"net/url"
)
const (
codeChallengeKey = "code_challenge"
codeChallengeMethodKey = "code_challenge_method"
codeVerifierKey = "code_verifier"
)
// GenerateVerifier generates a PKCE code verifier with 32 octets of randomness.
// This follows recommendations in RFC 7636.
//
// A fresh verifier should be generated for each authorization.
// S256ChallengeOption(verifier) should then be passed to Config.AuthCodeURL
// (or Config.DeviceAccess) and VerifierOption(verifier) to Config.Exchange
// (or Config.DeviceAccessToken).
func GenerateVerifier() string {
// "RECOMMENDED that the output of a suitable random number generator be
// used to create a 32-octet sequence. The octet sequence is then
// base64url-encoded to produce a 43-octet URL-safe string to use as the
// code verifier."
// https://datatracker.ietf.org/doc/html/rfc7636#section-4.1
data := make([]byte, 32)
if _, err := rand.Read(data); err != nil {
panic(err)
}
return base64.RawURLEncoding.EncodeToString(data)
}
// VerifierOption returns a PKCE code verifier AuthCodeOption. It should be
// passed to Config.Exchange or Config.DeviceAccessToken only.
func VerifierOption(verifier string) AuthCodeOption {
return setParam{k: codeVerifierKey, v: verifier}
}
// S256ChallengeFromVerifier returns a PKCE code challenge derived from verifier with method S256.
//
// Prefer to use S256ChallengeOption where possible.
func S256ChallengeFromVerifier(verifier string) string {
sha := sha256.Sum256([]byte(verifier))
return base64.RawURLEncoding.EncodeToString(sha[:])
}
// S256ChallengeOption derives a PKCE code challenge derived from verifier with
// method S256. It should be passed to Config.AuthCodeURL or Config.DeviceAccess
// only.
func S256ChallengeOption(verifier string) AuthCodeOption {
return challengeOption{
challenge_method: "S256",
challenge: S256ChallengeFromVerifier(verifier),
}
}
type challengeOption struct{ challenge_method, challenge string }
func (p challengeOption) setValue(m url.Values) {
m.Set(codeChallengeMethodKey, p.challenge_method)
m.Set(codeChallengeKey, p.challenge)
}