func FetchArchive(w http.ResponseWriter, r *http.Request, cfg config.Configuration, ctx model.Context) { params := mux.Vars(r) t := model.Tag{} err := t.SetTag(params["tag"]) if err != nil { ctx.Log.Println(err) http.Error(w, "Invalid tag", 400) return } t.SetTagDir(cfg.Filedir) t.CalculateExpiration(cfg.Expiration) if t.TagDirExists() { expired, err := t.IsExpired(cfg.Expiration) if err != nil { ctx.Log.Println(err) http.Error(w, "Internal server error", 500) return } if expired { ctx.Log.Println("Expired: " + t.ExpirationReadable) http.Error(w, "This tag has expired.", 410) return } err = t.StatInfo() if err != nil { ctx.Log.Println(err) http.Error(w, "Internal Server Error", 500) return } err = t.List(cfg.Baseurl) if err != nil { ctx.Log.Println(err) http.Error(w, "Error reading the tag contents.", 404) return } } else { // The tag does not exist http.Error(w, "Not found", 404) return } w.Header().Set("Cache-Control", "s-maxage=3600") var status = 200 w.Header().Set("Content-Type", "application/zip") // Generate a map of paths to add to the zip response var paths []string for _, f := range t.Files { path := filepath.Join(f.TagDir, f.Filename) paths = append(paths, path) } output.ZIPresponse(w, status, t.Tag, paths, ctx) return }
func FetchTag(w http.ResponseWriter, r *http.Request, cfg config.Configuration, ctx model.Context) { params := mux.Vars(r) t := model.Tag{} err := t.SetTag(params["tag"]) if err != nil { ctx.Log.Println(err) http.Error(w, "Invalid tag", 400) return } t.SetTagDir(cfg.Filedir) t.CalculateExpiration(cfg.Expiration) if t.TagDirExists() { expired, err := t.IsExpired(cfg.Expiration) if err != nil { ctx.Log.Println(err) http.Error(w, "Internal server error", 500) return } if expired { ctx.Log.Println("Expired: " + t.ExpirationReadable) http.Error(w, "This tag has expired.", 410) return } err = t.StatInfo() if err != nil { ctx.Log.Println(err) http.Error(w, "Internal Server Error", 500) return } err = t.List(cfg.Baseurl) if err != nil { ctx.Log.Println(err) http.Error(w, "Error reading the tag contents.", 404) return } } w.Header().Set("Vary", "Content-Type") w.Header().Set("Cache-Control", "s-maxage=3600") var status = 200 if r.Header.Get("Content-Type") == "application/json" { w.Header().Set("Content-Type", "application/json") output.JSONresponse(w, status, t, ctx) return } else { if len(t.Files) == 0 { output.HTMLresponse(w, "newtag", status, t, ctx) } else { output.HTMLresponse(w, "viewtag", status, t, ctx) } return } }
func FetchAlbum(w http.ResponseWriter, r *http.Request, cfg config.Configuration, ctx model.Context) { t := model.Tag{} params := mux.Vars(r) err := t.SetTag(params["tag"]) if err != nil { ctx.Log.Println(err) http.Error(w, "Invalid tag", 400) return } t.SetTagDir(cfg.Filedir) t.CalculateExpiration(cfg.Expiration) if t.TagDirExists() { expired, err := t.IsExpired(cfg.Expiration) if err != nil { ctx.Log.Println(err) http.Error(w, "Internal server error", 500) return } if expired { ctx.Log.Println("Expired: " + t.ExpirationReadable) http.Error(w, "This tag has expired.", 410) return } err = t.StatInfo() if err != nil { ctx.Log.Println(err) http.Error(w, "Internal Server Error", 500) return } err = t.List(cfg.Baseurl) if err != nil { ctx.Log.Println(err) http.Error(w, "Error reading the tag contents.", 404) return } } else { // The tag does not exist http.Error(w, "Not found", 404) return } w.Header().Set("Cache-Control", "s-maxage=3600") var status = 200 output.HTMLresponse(w, "viewalbum", status, t, ctx) return }
func Upload(w http.ResponseWriter, r *http.Request, cfg config.Configuration, ctx model.Context) { var err error f := model.File{} f.RemoteAddr = r.RemoteAddr f.UserAgent = r.Header.Get("User-Agent") // Extract the tag from the request if r.Header.Get("tag") == "" { tag := randomString(cfg.DefaultTagLength) err = f.SetTag(tag) ctx.Log.Println("Tag generated: " + f.Tag) } else { tag := r.Header.Get("tag") err = f.SetTag(tag) ctx.Log.Println("Tag specified: " + tag) } if err != nil { ctx.Log.Println(err) http.Error(w, err.Error(), http.StatusBadRequest) return } f.SetTagDir(cfg.Filedir) ctx.Log.Println("Tag directory: " + f.TagDir) // Write the request body to a temporary file err = f.WriteTempfile(r.Body, cfg.Tempdir) if err != nil { ctx.Log.Println("Unable to write tempfile: ", err) // Clean up by removing the tempfile f.ClearTemp() http.Error(w, "Internal Server Error", http.StatusInternalServerError) return } ctx.Log.Println("Tempfile: " + f.Tempfile) ctx.Log.Println("Tempfile size: " + strconv.FormatInt(f.Bytes, 10) + " bytes") // Do not accept files that are 0 bytes if f.Bytes == 0 { ctx.Log.Println("Empty files are not allowed. Aborting.") // Clean up by removing the tempfile f.ClearTemp() http.Error(w, "No content. The file size must be more than "+ "0 bytes.", http.StatusBadRequest) return } // Calculate and verify the checksum checksum := r.Header.Get("content-sha256") if checksum != "" { ctx.Log.Println("Checksum specified: " + checksum) } err = f.VerifySHA256(checksum) ctx.Log.Println("Checksum calculated: " + f.Checksum) if err != nil { ctx.Log.Println("The specified checksum did not match") http.Error(w, "Checksum did not match", http.StatusConflict) return } // Trigger new tag t := model.Tag{} t.SetTag(f.Tag) t.SetTagDir(cfg.Filedir) if !t.TagDirExists() { if cfg.TriggerNewTag != "" { ctx.Log.Println("Executing trigger: New tag") triggerNewTagHandler(cfg.TriggerNewTag, f.Tag) } } // Create the tag directory if it does not exist err = f.EnsureTagDirectoryExists() if err != nil { ctx.Log.Println("Unable to create tag directory: ", f.TagDir) http.Error(w, "Internal Server Error", http.StatusInternalServerError) return } t.CalculateExpiration(cfg.Expiration) expired, err := t.IsExpired(cfg.Expiration) if err != nil { ctx.Log.Println(err) http.Error(w, "Internal server error", 500) return } if expired { ctx.Log.Println("The tag has expired. Aborting.") http.Error(w, "This tag has expired.", 410) return } // Extract the filename from the request fname := r.Header.Get("filename") if fname == "" { ctx.Log.Println("Filename generated: " + f.Checksum) f.SetFilename(f.Checksum) } else { ctx.Log.Println("Filename specified: " + fname) err = f.SetFilename(fname) if err != nil { ctx.Log.Println(err) http.Error(w, "Invalid filename specified. It contains illegal characters or is too short.", http.StatusBadRequest) return } } if fname != f.Filename { ctx.Log.Println("Filename sanitized: " + f.Filename) } err = f.DetectMIME() if err != nil { ctx.Log.Println("Unable to detect MIME: ", err) } else { ctx.Log.Println("MIME detected: " + f.MIME) } ctx.Log.Println("Media type: " + f.MediaType()) if f.MediaType() == "image" { err = f.ParseExif() if err != nil { ctx.Log.Println(err) } // iOS devices provide only one filename even when uploading // multiple images. Providing some workaround for this below. // XXX: Refactoring needed. if isWorkaroundNeeded(f.UserAgent) && !f.DateTime.IsZero() { var fname string dt := f.DateTime.Format("060102-150405") // List of filenames to modify if f.Filename == "image.jpeg" { fname = "img-" + dt + ".jpeg" } if f.Filename == "image.gif" { fname = "img-" + dt + ".gif" } if f.Filename == "image.png" { fname = "img-" + dt + ".png" } if fname != "" { ctx.Log.Println("Filename workaround triggered") ctx.Log.Println("Filename modified: " + fname) err = f.SetFilename(fname) if err != nil { ctx.Log.Println(err) } } } //err = f.GenerateThumbnail() //if err != nil { // ctx.Log.Println(err) //} //extra := make(map[string]string) //if !f.DateTime.IsZero() { // extra["DateTime"] = f.DateTime.String() //} //f.Extra = extra } // Promote file from tempdir to the published tagdir f.Publish() // Clean up by removing the tempfile f.ClearTemp() err = f.StatInfo() if err != nil { ctx.Log.Println(err) http.Error(w, "Internal Server Error", 500) return } f.GenerateLinks(cfg.Baseurl) f.CreatedAt = time.Now().UTC() //f.ExpiresAt = time.Now().UTC().Add(24 * 7 * 4 * time.Hour) if cfg.TriggerUploadFile != "" { ctx.Log.Println("Executing trigger: Uploaded file") triggerUploadFileHandler(cfg.TriggerUploadFile, f.Tag, f.Filename) } // Purging any old content if cfg.CacheInvalidation { if err := f.Purge(); err != nil { ctx.Log.Println(err) } } ctx.WorkQueue <- f w.Header().Set("Content-Type", "application/json") var status = 201 output.JSONresponse(w, status, f, ctx) }
func DeleteTag(w http.ResponseWriter, r *http.Request, cfg config.Configuration, ctx model.Context) { var err error params := mux.Vars(r) t := model.Tag{} err = t.SetTag(params["tag"]) if err != nil { ctx.Log.Println(err) http.Error(w, "Invalid tag", 400) return } t.SetTagDir(cfg.Filedir) // Tag does not exist if t.TagDirExists() == false { http.Error(w, "Tag Not Found", 404) return } t.List(cfg.Baseurl) if err != nil { ctx.Log.Println(err) http.Error(w, "Internal Server Error", 500) return } if cfg.TriggerDeleteTag != "" { ctx.Log.Println("Executing trigger: Delete tag") triggerDeleteTagHandler(cfg.TriggerDeleteTag, t.Tag) } // Tag exists, so let's remove it. err = t.Remove() if err != nil { ctx.Log.Println(err) http.Error(w, "Internal Server Error", 500) return } // Verify that the tag directory is removed before sending the response. if t.TagDirExists() == true { // Failsafe. This should not happen. ctx.Log.Println("Failed to delete the tag. The tag dir still exists.") http.Error(w, "Internal Server Error", 500) return } // Purging any old content if cfg.CacheInvalidation { for _, f := range t.Files { if err := f.Purge(); err != nil { ctx.Log.Println(err) } } } ctx.Log.Println("Tag deleted successfully.") http.Error(w, "Tag Deleted Successfully", 200) return }