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mirror of https://github.com/go-gitea/gitea.git synced 2024-12-22 01:25:10 +01:00
gitea/services/auth/oauth2.go
Marcell Mars a3881ffa3d
Enhancing Gitea OAuth2 Provider with Granular Scopes for Resource Access (#32573)
Resolve #31609

This PR was initiated following my personal research to find the
lightest possible Single Sign-On solution for self-hosted setups. The
existing solutions often seemed too enterprise-oriented, involving many
moving parts and services, demanding significant resources while
promising planetary-scale capabilities. Others were adequate in
supporting basic OAuth2 flows but lacked proper user management
features, such as a change password UI.

Gitea hits the sweet spot for me, provided it supports more granular
access permissions for resources under users who accept the OAuth2
application.

This PR aims to introduce granularity in handling user resources as
nonintrusively and simply as possible. It allows third parties to inform
users about their intent to not ask for the full access and instead
request a specific, reduced scope. If the provided scopes are **only**
the typical ones for OIDC/OAuth2—`openid`, `profile`, `email`, and
`groups`—everything remains unchanged (currently full access to user's
resources). Additionally, this PR supports processing scopes already
introduced with [personal
tokens](https://docs.gitea.com/development/oauth2-provider#scopes) (e.g.
`read:user`, `write:issue`, `read:group`, `write:repository`...)

Personal tokens define scopes around specific resources: user info,
repositories, issues, packages, organizations, notifications,
miscellaneous, admin, and activitypub, with access delineated by read
and/or write permissions.

The initial case I wanted to address was to have Gitea act as an OAuth2
Identity Provider. To achieve that, with this PR, I would only add
`openid public-only` to provide access token to the third party to
authenticate the Gitea's user but no further access to the API and users
resources.

Another example: if a third party wanted to interact solely with Issues,
it would need to add `read:user` (for authorization) and
`read:issue`/`write:issue` to manage Issues.

My approach is based on my understanding of how scopes can be utilized,
supported by examples like [Sample Use Cases: Scopes and
Claims](https://auth0.com/docs/get-started/apis/scopes/sample-use-cases-scopes-and-claims)
on auth0.com.

I renamed `CheckOAuthAccessToken` to `GetOAuthAccessTokenScopeAndUserID`
so now it returns AccessTokenScope and user's ID. In the case of
additional scopes in `userIDFromToken` the default `all` would be
reduced to whatever was asked via those scopes. The main difference is
the opportunity to reduce the permissions from `all`, as is currently
the case, to what is provided by the additional scopes described above.

Screenshots:

![Screenshot_20241121_121405](https://github.com/user-attachments/assets/29deaed7-4333-4b02-8898-b822e6f2463e)

![Screenshot_20241121_120211](https://github.com/user-attachments/assets/7a4a4ef7-409c-4116-9d5f-2fe00eb37167)

![Screenshot_20241121_120119](https://github.com/user-attachments/assets/aa52c1a2-212d-4e64-bcdf-7122cee49eb6)

![Screenshot_20241121_120018](https://github.com/user-attachments/assets/9eac318c-e381-4ea9-9e2c-3a3f60319e47)
---------

Co-authored-by: wxiaoguang <wxiaoguang@gmail.com>
2024-11-22 12:06:41 +08:00

203 lines
6.4 KiB
Go

// Copyright 2014 The Gogs Authors. All rights reserved.
// Copyright 2019 The Gitea Authors. All rights reserved.
// SPDX-License-Identifier: MIT
package auth
import (
"context"
"net/http"
"strings"
"time"
actions_model "code.gitea.io/gitea/models/actions"
auth_model "code.gitea.io/gitea/models/auth"
user_model "code.gitea.io/gitea/models/user"
"code.gitea.io/gitea/modules/log"
"code.gitea.io/gitea/modules/setting"
"code.gitea.io/gitea/modules/timeutil"
"code.gitea.io/gitea/modules/web/middleware"
"code.gitea.io/gitea/services/actions"
"code.gitea.io/gitea/services/oauth2_provider"
)
// Ensure the struct implements the interface.
var (
_ Method = &OAuth2{}
)
// GetOAuthAccessTokenScopeAndUserID returns access token scope and user id
func GetOAuthAccessTokenScopeAndUserID(ctx context.Context, accessToken string) (auth_model.AccessTokenScope, int64) {
var accessTokenScope auth_model.AccessTokenScope
if !setting.OAuth2.Enabled {
return accessTokenScope, 0
}
// JWT tokens require a ".", if the token isn't like that, return early
if !strings.Contains(accessToken, ".") {
return accessTokenScope, 0
}
token, err := oauth2_provider.ParseToken(accessToken, oauth2_provider.DefaultSigningKey)
if err != nil {
log.Trace("oauth2.ParseToken: %v", err)
return accessTokenScope, 0
}
var grant *auth_model.OAuth2Grant
if grant, err = auth_model.GetOAuth2GrantByID(ctx, token.GrantID); err != nil || grant == nil {
return accessTokenScope, 0
}
if token.Kind != oauth2_provider.KindAccessToken {
return accessTokenScope, 0
}
if token.ExpiresAt.Before(time.Now()) || token.IssuedAt.After(time.Now()) {
return accessTokenScope, 0
}
accessTokenScope = oauth2_provider.GrantAdditionalScopes(grant.Scope)
return accessTokenScope, grant.UserID
}
// CheckTaskIsRunning verifies that the TaskID corresponds to a running task
func CheckTaskIsRunning(ctx context.Context, taskID int64) bool {
// Verify the task exists
task, err := actions_model.GetTaskByID(ctx, taskID)
if err != nil {
return false
}
// Verify that it's running
return task.Status == actions_model.StatusRunning
}
// OAuth2 implements the Auth interface and authenticates requests
// (API requests only) by looking for an OAuth token in query parameters or the
// "Authorization" header.
type OAuth2 struct{}
// Name represents the name of auth method
func (o *OAuth2) Name() string {
return "oauth2"
}
// parseToken returns the token from request, and a boolean value
// representing whether the token exists or not
func parseToken(req *http.Request) (string, bool) {
_ = req.ParseForm()
if !setting.DisableQueryAuthToken {
// Check token.
if token := req.Form.Get("token"); token != "" {
return token, true
}
// Check access token.
if token := req.Form.Get("access_token"); token != "" {
return token, true
}
} else if req.Form.Get("token") != "" || req.Form.Get("access_token") != "" {
log.Warn("API token sent in query string but DISABLE_QUERY_AUTH_TOKEN=true")
}
// check header token
if auHead := req.Header.Get("Authorization"); auHead != "" {
auths := strings.Fields(auHead)
if len(auths) == 2 && (auths[0] == "token" || strings.ToLower(auths[0]) == "bearer") {
return auths[1], true
}
}
return "", false
}
// userIDFromToken returns the user id corresponding to the OAuth token.
// It will set 'IsApiToken' to true if the token is an API token and
// set 'ApiTokenScope' to the scope of the access token
func (o *OAuth2) userIDFromToken(ctx context.Context, tokenSHA string, store DataStore) int64 {
// Let's see if token is valid.
if strings.Contains(tokenSHA, ".") {
// First attempt to decode an actions JWT, returning the actions user
if taskID, err := actions.TokenToTaskID(tokenSHA); err == nil {
if CheckTaskIsRunning(ctx, taskID) {
store.GetData()["IsActionsToken"] = true
store.GetData()["ActionsTaskID"] = taskID
return user_model.ActionsUserID
}
}
// Otherwise, check if this is an OAuth access token
accessTokenScope, uid := GetOAuthAccessTokenScopeAndUserID(ctx, tokenSHA)
if uid != 0 {
store.GetData()["IsApiToken"] = true
store.GetData()["ApiTokenScope"] = accessTokenScope
}
return uid
}
t, err := auth_model.GetAccessTokenBySHA(ctx, tokenSHA)
if err != nil {
if auth_model.IsErrAccessTokenNotExist(err) {
// check task token
task, err := actions_model.GetRunningTaskByToken(ctx, tokenSHA)
if err == nil && task != nil {
log.Trace("Basic Authorization: Valid AccessToken for task[%d]", task.ID)
store.GetData()["IsActionsToken"] = true
store.GetData()["ActionsTaskID"] = task.ID
return user_model.ActionsUserID
}
} else if !auth_model.IsErrAccessTokenNotExist(err) && !auth_model.IsErrAccessTokenEmpty(err) {
log.Error("GetAccessTokenBySHA: %v", err)
}
return 0
}
t.UpdatedUnix = timeutil.TimeStampNow()
if err = auth_model.UpdateAccessToken(ctx, t); err != nil {
log.Error("UpdateAccessToken: %v", err)
}
store.GetData()["IsApiToken"] = true
store.GetData()["ApiTokenScope"] = t.Scope
return t.UID
}
// Verify extracts the user ID from the OAuth token in the query parameters
// or the "Authorization" header and returns the corresponding user object for that ID.
// If verification is successful returns an existing user object.
// Returns nil if verification fails.
func (o *OAuth2) Verify(req *http.Request, w http.ResponseWriter, store DataStore, sess SessionStore) (*user_model.User, error) {
// These paths are not API paths, but we still want to check for tokens because they maybe in the API returned URLs
if !middleware.IsAPIPath(req) && !isAttachmentDownload(req) && !isAuthenticatedTokenRequest(req) &&
!isGitRawOrAttachPath(req) && !isArchivePath(req) {
return nil, nil
}
token, ok := parseToken(req)
if !ok {
return nil, nil
}
id := o.userIDFromToken(req.Context(), token, store)
if id <= 0 && id != -2 { // -2 means actions, so we need to allow it.
return nil, user_model.ErrUserNotExist{}
}
log.Trace("OAuth2 Authorization: Found token for user[%d]", id)
user, err := user_model.GetPossibleUserByID(req.Context(), id)
if err != nil {
if !user_model.IsErrUserNotExist(err) {
log.Error("GetUserByName: %v", err)
}
return nil, err
}
log.Trace("OAuth2 Authorization: Logged in user %-v", user)
return user, nil
}
func isAuthenticatedTokenRequest(req *http.Request) bool {
switch req.URL.Path {
case "/login/oauth/userinfo":
fallthrough
case "/login/oauth/introspect":
return true
}
return false
}