// Copyright 2021 The Gitea Authors. All rights reserved. // SPDX-License-Identifier: MIT package lfs import ( stdCtx "context" "crypto/sha256" "encoding/base64" "encoding/hex" "errors" "fmt" "io" "net/http" "net/url" "path" "regexp" "strconv" "strings" actions_model "code.gitea.io/gitea/models/actions" auth_model "code.gitea.io/gitea/models/auth" git_model "code.gitea.io/gitea/models/git" perm_model "code.gitea.io/gitea/models/perm" access_model "code.gitea.io/gitea/models/perm/access" repo_model "code.gitea.io/gitea/models/repo" "code.gitea.io/gitea/models/unit" user_model "code.gitea.io/gitea/models/user" "code.gitea.io/gitea/modules/json" lfs_module "code.gitea.io/gitea/modules/lfs" "code.gitea.io/gitea/modules/log" "code.gitea.io/gitea/modules/setting" "code.gitea.io/gitea/modules/storage" "code.gitea.io/gitea/services/context" "github.com/golang-jwt/jwt/v5" ) // requestContext contain variables from the HTTP request. type requestContext struct { User string Repo string Authorization string } // Claims is a JWT Token Claims type Claims struct { RepoID int64 Op string UserID int64 jwt.RegisteredClaims } // DownloadLink builds a URL to download the object. func (rc *requestContext) DownloadLink(p lfs_module.Pointer) string { return setting.AppURL + path.Join(url.PathEscape(rc.User), url.PathEscape(rc.Repo+".git"), "info/lfs/objects", url.PathEscape(p.Oid)) } // UploadLink builds a URL to upload the object. func (rc *requestContext) UploadLink(p lfs_module.Pointer) string { return setting.AppURL + path.Join(url.PathEscape(rc.User), url.PathEscape(rc.Repo+".git"), "info/lfs/objects", url.PathEscape(p.Oid), strconv.FormatInt(p.Size, 10)) } // VerifyLink builds a URL for verifying the object. func (rc *requestContext) VerifyLink(p lfs_module.Pointer) string { return setting.AppURL + path.Join(url.PathEscape(rc.User), url.PathEscape(rc.Repo+".git"), "info/lfs/verify") } // CheckAcceptMediaType checks if the client accepts the LFS media type. func CheckAcceptMediaType(ctx *context.Context) { mediaParts := strings.Split(ctx.Req.Header.Get("Accept"), ";") if mediaParts[0] != lfs_module.MediaType { log.Trace("Calling a LFS method without accepting the correct media type: %s", lfs_module.MediaType) writeStatus(ctx, http.StatusUnsupportedMediaType) return } } var rangeHeaderRegexp = regexp.MustCompile(`bytes=(\d+)-(\d*).*`) // DownloadHandler gets the content from the content store func DownloadHandler(ctx *context.Context) { rc := getRequestContext(ctx) p := lfs_module.Pointer{Oid: ctx.PathParam("oid")} meta := getAuthenticatedMeta(ctx, rc, p, false) if meta == nil { return } // Support resume download using Range header var fromByte, toByte int64 toByte = meta.Size - 1 statusCode := http.StatusOK if rangeHdr := ctx.Req.Header.Get("Range"); rangeHdr != "" { match := rangeHeaderRegexp.FindStringSubmatch(rangeHdr) if len(match) > 1 { statusCode = http.StatusPartialContent fromByte, _ = strconv.ParseInt(match[1], 10, 32) if fromByte >= meta.Size { writeStatus(ctx, http.StatusRequestedRangeNotSatisfiable) return } if match[2] != "" { _toByte, _ := strconv.ParseInt(match[2], 10, 32) if _toByte >= fromByte && _toByte < toByte { toByte = _toByte } } ctx.Resp.Header().Set("Content-Range", fmt.Sprintf("bytes %d-%d/%d", fromByte, toByte, meta.Size-fromByte)) ctx.Resp.Header().Set("Access-Control-Expose-Headers", "Content-Range") } } contentStore := lfs_module.NewContentStore() content, err := contentStore.Get(meta.Pointer) if err != nil { writeStatus(ctx, http.StatusNotFound) return } defer content.Close() if fromByte > 0 { _, err = content.Seek(fromByte, io.SeekStart) if err != nil { log.Error("Whilst trying to read LFS OID[%s]: Unable to seek to %d Error: %v", meta.Oid, fromByte, err) writeStatus(ctx, http.StatusInternalServerError) return } } contentLength := toByte + 1 - fromByte ctx.Resp.Header().Set("Content-Length", strconv.FormatInt(contentLength, 10)) ctx.Resp.Header().Set("Content-Type", "application/octet-stream") filename := ctx.PathParam("filename") if len(filename) > 0 { decodedFilename, err := base64.RawURLEncoding.DecodeString(filename) if err == nil { ctx.Resp.Header().Set("Content-Disposition", "attachment; filename=\""+string(decodedFilename)+"\"") ctx.Resp.Header().Set("Access-Control-Expose-Headers", "Content-Disposition") } } ctx.Resp.WriteHeader(statusCode) if written, err := io.CopyN(ctx.Resp, content, contentLength); err != nil { log.Error("Error whilst copying LFS OID[%s] to the response after %d bytes. Error: %v", meta.Oid, written, err) } } // BatchHandler provides the batch api func BatchHandler(ctx *context.Context) { var br lfs_module.BatchRequest if err := decodeJSON(ctx.Req, &br); err != nil { log.Trace("Unable to decode BATCH request vars: Error: %v", err) writeStatus(ctx, http.StatusBadRequest) return } var isUpload bool if br.Operation == "upload" { isUpload = true } else if br.Operation == "download" { isUpload = false } else { log.Trace("Attempt to BATCH with invalid operation: %s", br.Operation) writeStatus(ctx, http.StatusBadRequest) return } rc := getRequestContext(ctx) repository := getAuthenticatedRepository(ctx, rc, isUpload) if repository == nil { return } if setting.LFS.MaxBatchSize != 0 && len(br.Objects) > setting.LFS.MaxBatchSize { writeStatus(ctx, http.StatusRequestEntityTooLarge) return } contentStore := lfs_module.NewContentStore() var responseObjects []*lfs_module.ObjectResponse for _, p := range br.Objects { if !p.IsValid() { responseObjects = append(responseObjects, buildObjectResponse(rc, p, false, false, &lfs_module.ObjectError{ Code: http.StatusUnprocessableEntity, Message: "Oid or size are invalid", })) continue } exists, err := contentStore.Exists(p) if err != nil { log.Error("Unable to check if LFS OID[%s] exist. Error: %v", p.Oid, rc.User, rc.Repo, err) writeStatus(ctx, http.StatusInternalServerError) return } meta, err := git_model.GetLFSMetaObjectByOid(ctx, repository.ID, p.Oid) if err != nil && err != git_model.ErrLFSObjectNotExist { log.Error("Unable to get LFS MetaObject [%s] for %s/%s. Error: %v", p.Oid, rc.User, rc.Repo, err) writeStatus(ctx, http.StatusInternalServerError) return } if meta != nil && p.Size != meta.Size { responseObjects = append(responseObjects, buildObjectResponse(rc, p, false, false, &lfs_module.ObjectError{ Code: http.StatusUnprocessableEntity, Message: fmt.Sprintf("Object %s is not %d bytes", p.Oid, p.Size), })) continue } var responseObject *lfs_module.ObjectResponse if isUpload { var err *lfs_module.ObjectError if !exists && setting.LFS.MaxFileSize > 0 && p.Size > setting.LFS.MaxFileSize { err = &lfs_module.ObjectError{ Code: http.StatusUnprocessableEntity, Message: fmt.Sprintf("Size must be less than or equal to %d", setting.LFS.MaxFileSize), } } if exists && meta == nil { accessible, err := git_model.LFSObjectAccessible(ctx, ctx.Doer, p.Oid) if err != nil { log.Error("Unable to check if LFS MetaObject [%s] is accessible. Error: %v", p.Oid, err) writeStatus(ctx, http.StatusInternalServerError) return } if accessible { _, err := git_model.NewLFSMetaObject(ctx, repository.ID, p) if err != nil { log.Error("Unable to create LFS MetaObject [%s] for %s/%s. Error: %v", p.Oid, rc.User, rc.Repo, err) writeStatus(ctx, http.StatusInternalServerError) return } } else { exists = false } } responseObject = buildObjectResponse(rc, p, false, !exists, err) } else { var err *lfs_module.ObjectError if !exists || meta == nil { err = &lfs_module.ObjectError{ Code: http.StatusNotFound, Message: http.StatusText(http.StatusNotFound), } } responseObject = buildObjectResponse(rc, p, true, false, err) } responseObjects = append(responseObjects, responseObject) } respobj := &lfs_module.BatchResponse{Objects: responseObjects} ctx.Resp.Header().Set("Content-Type", lfs_module.MediaType) enc := json.NewEncoder(ctx.Resp) if err := enc.Encode(respobj); err != nil { log.Error("Failed to encode representation as json. Error: %v", err) } } // UploadHandler receives data from the client and puts it into the content store func UploadHandler(ctx *context.Context) { rc := getRequestContext(ctx) p := lfs_module.Pointer{Oid: ctx.PathParam("oid")} var err error if p.Size, err = strconv.ParseInt(ctx.PathParam("size"), 10, 64); err != nil { writeStatusMessage(ctx, http.StatusUnprocessableEntity, err.Error()) } if !p.IsValid() { log.Trace("Attempt to access invalid LFS OID[%s] in %s/%s", p.Oid, rc.User, rc.Repo) writeStatus(ctx, http.StatusUnprocessableEntity) return } repository := getAuthenticatedRepository(ctx, rc, true) if repository == nil { return } contentStore := lfs_module.NewContentStore() exists, err := contentStore.Exists(p) if err != nil { log.Error("Unable to check if LFS OID[%s] exist. Error: %v", p.Oid, err) writeStatus(ctx, http.StatusInternalServerError) return } uploadOrVerify := func() error { if exists { accessible, err := git_model.LFSObjectAccessible(ctx, ctx.Doer, p.Oid) if err != nil { log.Error("Unable to check if LFS MetaObject [%s] is accessible. Error: %v", p.Oid, err) return err } if !accessible { // The file exists but the user has no access to it. // The upload gets verified by hashing and size comparison to prove access to it. hash := sha256.New() written, err := io.Copy(hash, ctx.Req.Body) if err != nil { log.Error("Error creating hash. Error: %v", err) return err } if written != p.Size { return lfs_module.ErrSizeMismatch } if hex.EncodeToString(hash.Sum(nil)) != p.Oid { return lfs_module.ErrHashMismatch } } } else if err := contentStore.Put(p, ctx.Req.Body); err != nil { log.Error("Error putting LFS MetaObject [%s] into content store. Error: %v", p.Oid, err) return err } _, err := git_model.NewLFSMetaObject(ctx, repository.ID, p) return err } defer ctx.Req.Body.Close() if err := uploadOrVerify(); err != nil { if errors.Is(err, lfs_module.ErrSizeMismatch) || errors.Is(err, lfs_module.ErrHashMismatch) { log.Error("Upload does not match LFS MetaObject [%s]. Error: %v", p.Oid, err) writeStatusMessage(ctx, http.StatusUnprocessableEntity, err.Error()) } else { log.Error("Error whilst uploadOrVerify LFS OID[%s]: %v", p.Oid, err) writeStatus(ctx, http.StatusInternalServerError) } if _, err = git_model.RemoveLFSMetaObjectByOid(ctx, repository.ID, p.Oid); err != nil { log.Error("Error whilst removing MetaObject for LFS OID[%s]: %v", p.Oid, err) } return } writeStatus(ctx, http.StatusOK) } // VerifyHandler verify oid and its size from the content store func VerifyHandler(ctx *context.Context) { var p lfs_module.Pointer if err := decodeJSON(ctx.Req, &p); err != nil { writeStatus(ctx, http.StatusUnprocessableEntity) return } rc := getRequestContext(ctx) meta := getAuthenticatedMeta(ctx, rc, p, true) if meta == nil { return } contentStore := lfs_module.NewContentStore() ok, err := contentStore.Verify(meta.Pointer) status := http.StatusOK if err != nil { log.Error("Error whilst verifying LFS OID[%s]: %v", p.Oid, err) status = http.StatusInternalServerError } else if !ok { status = http.StatusNotFound } writeStatus(ctx, status) } func decodeJSON(req *http.Request, v any) error { defer req.Body.Close() dec := json.NewDecoder(req.Body) return dec.Decode(v) } func getRequestContext(ctx *context.Context) *requestContext { return &requestContext{ User: ctx.PathParam("username"), Repo: strings.TrimSuffix(ctx.PathParam("reponame"), ".git"), Authorization: ctx.Req.Header.Get("Authorization"), } } func getAuthenticatedMeta(ctx *context.Context, rc *requestContext, p lfs_module.Pointer, requireWrite bool) *git_model.LFSMetaObject { if !p.IsValid() { log.Info("Attempt to access invalid LFS OID[%s] in %s/%s", p.Oid, rc.User, rc.Repo) writeStatusMessage(ctx, http.StatusUnprocessableEntity, "Oid or size are invalid") return nil } repository := getAuthenticatedRepository(ctx, rc, requireWrite) if repository == nil { return nil } meta, err := git_model.GetLFSMetaObjectByOid(ctx, repository.ID, p.Oid) if err != nil { log.Error("Unable to get LFS OID[%s] Error: %v", p.Oid, err) writeStatus(ctx, http.StatusNotFound) return nil } return meta } func getAuthenticatedRepository(ctx *context.Context, rc *requestContext, requireWrite bool) *repo_model.Repository { repository, err := repo_model.GetRepositoryByOwnerAndName(ctx, rc.User, rc.Repo) if err != nil { log.Error("Unable to get repository: %s/%s Error: %v", rc.User, rc.Repo, err) writeStatus(ctx, http.StatusNotFound) return nil } if !authenticate(ctx, repository, rc.Authorization, false, requireWrite) { requireAuth(ctx) return nil } if requireWrite { context.CheckRepoScopedToken(ctx, repository, auth_model.Write) } else { context.CheckRepoScopedToken(ctx, repository, auth_model.Read) } if ctx.Written() { return nil } return repository } func buildObjectResponse(rc *requestContext, pointer lfs_module.Pointer, download, upload bool, err *lfs_module.ObjectError) *lfs_module.ObjectResponse { rep := &lfs_module.ObjectResponse{Pointer: pointer} if err != nil { rep.Error = err } else { rep.Actions = make(map[string]*lfs_module.Link) header := make(map[string]string) if len(rc.Authorization) > 0 { header["Authorization"] = rc.Authorization } if download { var link *lfs_module.Link if setting.LFS.Storage.ServeDirect() { // If we have a signed url (S3, object storage), redirect to this directly. u, err := storage.LFS.URL(pointer.RelativePath(), pointer.Oid, nil) if u != nil && err == nil { // Presigned url does not need the Authorization header // https://github.com/go-gitea/gitea/issues/21525 delete(header, "Authorization") link = &lfs_module.Link{Href: u.String(), Header: header} } } if link == nil { link = &lfs_module.Link{Href: rc.DownloadLink(pointer), Header: header} } rep.Actions["download"] = link } if upload { rep.Actions["upload"] = &lfs_module.Link{Href: rc.UploadLink(pointer), Header: header} verifyHeader := make(map[string]string) for key, value := range header { verifyHeader[key] = value } // This is only needed to workaround https://github.com/git-lfs/git-lfs/issues/3662 verifyHeader["Accept"] = lfs_module.AcceptHeader rep.Actions["verify"] = &lfs_module.Link{Href: rc.VerifyLink(pointer), Header: verifyHeader} } } return rep } func writeStatus(ctx *context.Context, status int) { writeStatusMessage(ctx, status, http.StatusText(status)) } func writeStatusMessage(ctx *context.Context, status int, message string) { ctx.Resp.Header().Set("Content-Type", lfs_module.MediaType) ctx.Resp.WriteHeader(status) er := lfs_module.ErrorResponse{Message: message} enc := json.NewEncoder(ctx.Resp) if err := enc.Encode(er); err != nil { log.Error("Failed to encode error response as json. Error: %v", err) } } // authenticate uses the authorization string to determine whether // to proceed. This server assumes an HTTP Basic auth format. func authenticate(ctx *context.Context, repository *repo_model.Repository, authorization string, requireSigned, requireWrite bool) bool { accessMode := perm_model.AccessModeRead if requireWrite { accessMode = perm_model.AccessModeWrite } if ctx.Data["IsActionsToken"] == true { taskID := ctx.Data["ActionsTaskID"].(int64) task, err := actions_model.GetTaskByID(ctx, taskID) if err != nil { log.Error("Unable to GetTaskByID for task[%d] Error: %v", taskID, err) return false } if task.RepoID != repository.ID { return false } if task.IsForkPullRequest { return accessMode <= perm_model.AccessModeRead } return accessMode <= perm_model.AccessModeWrite } // ctx.IsSigned is unnecessary here, this will be checked in perm.CanAccess perm, err := access_model.GetUserRepoPermission(ctx, repository, ctx.Doer) if err != nil { log.Error("Unable to GetUserRepoPermission for user %-v in repo %-v Error: %v", ctx.Doer, repository, err) return false } canRead := perm.CanAccess(accessMode, unit.TypeCode) if canRead && (!requireSigned || ctx.IsSigned) { return true } user, err := parseToken(ctx, authorization, repository, accessMode) if err != nil { // Most of these are Warn level - the true internal server errors are logged in parseToken already log.Warn("Authentication failure for provided token with Error: %v", err) return false } ctx.Doer = user return true } func handleLFSToken(ctx stdCtx.Context, tokenSHA string, target *repo_model.Repository, mode perm_model.AccessMode) (*user_model.User, error) { if !strings.Contains(tokenSHA, ".") { return nil, nil } token, err := jwt.ParseWithClaims(tokenSHA, &Claims{}, func(t *jwt.Token) (any, error) { if _, ok := t.Method.(*jwt.SigningMethodHMAC); !ok { return nil, fmt.Errorf("unexpected signing method: %v", t.Header["alg"]) } return setting.LFS.JWTSecretBytes, nil }) if err != nil { return nil, nil } claims, claimsOk := token.Claims.(*Claims) if !token.Valid || !claimsOk { return nil, fmt.Errorf("invalid token claim") } if claims.RepoID != target.ID { return nil, fmt.Errorf("invalid token claim") } if mode == perm_model.AccessModeWrite && claims.Op != "upload" { return nil, fmt.Errorf("invalid token claim") } u, err := user_model.GetUserByID(ctx, claims.UserID) if err != nil { log.Error("Unable to GetUserById[%d]: Error: %v", claims.UserID, err) return nil, err } return u, nil } func parseToken(ctx stdCtx.Context, authorization string, target *repo_model.Repository, mode perm_model.AccessMode) (*user_model.User, error) { if authorization == "" { return nil, fmt.Errorf("no token") } parts := strings.SplitN(authorization, " ", 2) if len(parts) != 2 { return nil, fmt.Errorf("no token") } tokenSHA := parts[1] switch strings.ToLower(parts[0]) { case "bearer": fallthrough case "token": return handleLFSToken(ctx, tokenSHA, target, mode) } return nil, fmt.Errorf("token not found") } func requireAuth(ctx *context.Context) { ctx.Resp.Header().Set("WWW-Authenticate", `Basic realm="gitea-lfs"`) writeStatus(ctx, http.StatusUnauthorized) }