// // Copyright 2026 The InfiniFlow Authors. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // package handler import ( "fmt" "net/http" "ragflow/internal/common" "ragflow/internal/entity" "ragflow/internal/server/local" "ragflow/internal/service" "github.com/gin-gonic/gin" ) // AuthHandler auth handler type AuthHandler struct { userService userTokenResolver } // userTokenResolver is the subset of UserService the auth // middleware actually depends on. We keep it as a small interface // so the test suite can swap in a stub without spinning up the // full UserService (which requires a live Redis + JWT secret). type userTokenResolver interface { GetUserByToken(authorization string) (*entity.User, common.ErrorCode, error) GetUserByAPIToken(token string) (*entity.User, common.ErrorCode, error) GetUserByBetaAPIToken(token string) (*entity.User, common.ErrorCode, error) GetAPITokenByBeta(authorization string) (*entity.APIToken, error) } // NewAuthHandler create auth handler func NewAuthHandler() *AuthHandler { return &AuthHandler{ userService: service.NewUserService(), } } // BetaAuthMiddleware resolves a user token, API token, or `beta` API token // from the Authorization header and sets the user on the gin.Context. // // A beta token can also be a regular user JWT or API token. Order of // precedence: // // 1. JWT (regular session) → existing UserService.GetUserByToken // 2. API token → GetUserByAPIToken // 3. Beta API token → GetUserByBetaAPIToken // 4. Fall through → 401 // // IMPORTANT: the regular-user branch is NOT gated on a "Bearer " // prefix. UserService.GetUserByToken accepts the raw Authorization // header value and ExtractAccessToken handles Bearer stripping // internally. The existing AuthMiddleware() above also passes the // raw header to GetUserByToken without pre-filtering, so a non-Bearer // regular user token must keep working here too. func (h *AuthHandler) BetaAuthMiddleware() gin.HandlerFunc { return func(c *gin.Context) { auth := c.GetHeader("Authorization") if auth == "" { jsonError(c, common.CodeUnauthorized, "Authorization required") c.Abort() return } // Try regular user session first (handles JWT, Bearer, or // raw access_token — same dispatch as AuthMiddleware()). if u, code, err := h.userService.GetUserByToken(auth); err == nil && code == common.CodeSuccess { c.Set("user", u) c.Next() return } // Then try a regular API token (non-beta public bot flow). if u, code, err := h.userService.GetUserByAPIToken(auth); err == nil && code == common.CodeSuccess { c.Set("user", u) c.Set("auth_via_api_token", true) c.Next() return } // Fall back to beta API token (public bot access). The // middleware also looks up the APIToken directly so the // downstream handler can read its DialogID (the real // agent_id) without re-parsing the Authorization header. // Mirrors the python // `APIToken.query(beta=token).dialog_id` lookup in // bot_api.py:agent_bot_logs. if u, code, err := h.userService.GetUserByBetaAPIToken(auth); err == nil && code == common.CodeSuccess { c.Set("user", u) if tok, terr := h.userService.GetAPITokenByBeta(auth); terr == nil && tok != nil && tok.DialogID != nil { // tok.DialogID is *string (nullable in the schema), but // downstream handlers (GetAgentbotLogs, GetAgentLogs) // read "agent_id" with agentID.(string) — they cannot // type-assert a *string. Dereference and gate on nil so a // row with a NULL dialog_id still surfaces the // "not bound" sentinel rather than silently leaking the // pointer (which would later fail the string assertion). c.Set("agent_id", *tok.DialogID) c.Set("api_token", tok) } c.Next() return } jsonError(c, common.CodeUnauthorized, "Invalid auth credentials") c.Abort() } } // AuthMiddleware JWT auth middleware // Validates that the user is authenticated and is a superuser (admin) func (h *AuthHandler) AuthMiddleware() gin.HandlerFunc { return func(c *gin.Context) { token := c.GetHeader("Authorization") if token == "" { c.JSON(http.StatusUnauthorized, gin.H{ "code": 401, "message": "Missing Authorization header", }) c.Abort() return } authViaAPIToken := false // Get user by access token user, code, err := h.userService.GetUserByToken(token) if err != nil { user, code, err = h.userService.GetUserByAPIToken(token) if err != nil { c.JSON(http.StatusUnauthorized, gin.H{ "code": code, "message": "Invalid access token", }) c.Abort() return } authViaAPIToken = true } if user.IsSuperuser != nil && *user.IsSuperuser { c.JSON(http.StatusForbidden, gin.H{ "code": common.CodeForbidden, "message": "Super user shouldn't access the URL", }) c.Abort() return } if !local.IsAdminAvailable() { license := local.GetAdminStatus() errMsg := fmt.Sprintf("server license %s", license.Reason) common.Warn(errMsg) c.JSON(http.StatusServiceUnavailable, gin.H{ "code": common.CodeUnauthorized, "message": errMsg, "data": "No", }) c.Abort() return } c.Set("user", user) c.Set("user_id", user.ID) c.Set("email", user.Email) c.Set("auth_via_api_token", authViaAPIToken) c.Next() } }