package controller import ( "errors" "fmt" "io" "log" "net/http" "strconv" "strings" "time" "github.com/QuantumNous/new-api/common" "github.com/QuantumNous/new-api/common/metrics" "github.com/QuantumNous/new-api/constant" "github.com/QuantumNous/new-api/dto" "github.com/QuantumNous/new-api/logger" "github.com/QuantumNous/new-api/middleware" "github.com/QuantumNous/new-api/model" "github.com/QuantumNous/new-api/relay" relaycommon "github.com/QuantumNous/new-api/relay/common" relayconstant "github.com/QuantumNous/new-api/relay/constant" "github.com/QuantumNous/new-api/relay/helper" "github.com/QuantumNous/new-api/service" "github.com/QuantumNous/new-api/setting" "github.com/QuantumNous/new-api/setting/operation_setting" "github.com/QuantumNous/new-api/setting/ratio_setting" "github.com/QuantumNous/new-api/types" "github.com/bytedance/gopkg/util/gopool" "github.com/gin-gonic/gin" "github.com/gorilla/websocket" ) func relayHandler(c *gin.Context, info *relaycommon.RelayInfo) *types.NewAPIError { var err *types.NewAPIError switch info.RelayMode { case relayconstant.RelayModeImagesGenerations, relayconstant.RelayModeImagesEdits: err = relay.ImageHelper(c, info) case relayconstant.RelayModeAudioSpeech: fallthrough case relayconstant.RelayModeAudioTranslation: fallthrough case relayconstant.RelayModeAudioTranscription: err = relay.AudioHelper(c, info) case relayconstant.RelayModeRerank: err = relay.RerankHelper(c, info) case relayconstant.RelayModeEmbeddings: err = relay.EmbeddingHelper(c, info) case relayconstant.RelayModeResponses, relayconstant.RelayModeResponsesCompact: err = relay.ResponsesHelper(c, info) default: err = relay.TextHelper(c, info) } return err } func geminiRelayHandler(c *gin.Context, info *relaycommon.RelayInfo) *types.NewAPIError { var err *types.NewAPIError if strings.Contains(c.Request.URL.Path, "embed") { err = relay.GeminiEmbeddingHandler(c, info) } else { err = relay.GeminiHelper(c, info) } return err } func Relay(c *gin.Context, relayFormat types.RelayFormat) { requestId := c.GetString(common.RequestIdKey) //group := common.GetContextKeyString(c, constant.ContextKeyUsingGroup) //originalModel := common.GetContextKeyString(c, constant.ContextKeyOriginalModel) var ( newAPIError *types.NewAPIError ws *websocket.Conn ) if relayFormat == types.RelayFormatOpenAIRealtime { var err error ws, err = upgrader.Upgrade(c.Writer, c.Request, nil) if err != nil { helper.WssError(c, ws, types.NewError(err, types.ErrorCodeGetChannelFailed, types.ErrOptionWithSkipRetry()).ToOpenAIError()) return } defer ws.Close() } defer func() { if newAPIError != nil { logger.LogError(c, fmt.Sprintf("relay error: %s", newAPIError.Error())) // Prometheus: 错误计数 if metrics.IsEnabled() { channelId := strconv.Itoa(c.GetInt("channel_id")) modelName := c.GetString("original_model") errorType, errorCode := metrics.ClassifyError(newAPIError.StatusCode, newAPIError.Error()) metrics.GetMetrics().RequestErrorsTotal.WithLabelValues(channelId, modelName, errorType, errorCode).Inc() } newAPIError.SetMessage(common.MessageWithRequestId(newAPIError.Error(), requestId)) switch relayFormat { case types.RelayFormatOpenAIRealtime: helper.WssError(c, ws, newAPIError.ToOpenAIError()) case types.RelayFormatClaude: c.JSON(newAPIError.StatusCode, gin.H{ "type": "error", "error": newAPIError.ToClaudeError(), }) default: c.JSON(newAPIError.StatusCode, gin.H{ "error": newAPIError.ToOpenAIError(), }) } } }() request, err := helper.GetAndValidateRequest(c, relayFormat) if err != nil { // Map "request body too large" to 413 so clients can handle it correctly if common.IsRequestBodyTooLargeError(err) || errors.Is(err, common.ErrRequestBodyTooLarge) { newAPIError = types.NewErrorWithStatusCode(err, types.ErrorCodeReadRequestBodyFailed, http.StatusRequestEntityTooLarge, types.ErrOptionWithSkipRetry()) } else { newAPIError = types.NewError(err, types.ErrorCodeInvalidRequest) } return } relayInfo, err := relaycommon.GenRelayInfo(c, relayFormat, request, ws) if err != nil { newAPIError = types.NewError(err, types.ErrorCodeGenRelayInfoFailed) return } needSensitiveCheck := setting.ShouldCheckPromptSensitive() needCountToken := constant.CountToken // Avoid building huge CombineText (strings.Join) when token counting and sensitive check are both disabled. var meta *types.TokenCountMeta if needSensitiveCheck || needCountToken { meta = request.GetTokenCountMeta() } else { meta = fastTokenCountMetaForPricing(request) } if needSensitiveCheck && meta != nil { contains, words := service.CheckSensitiveText(meta.CombineText) if contains { logger.LogWarn(c, fmt.Sprintf("user sensitive words detected: %s", strings.Join(words, ", "))) newAPIError = types.NewError(err, types.ErrorCodeSensitiveWordsDetected) return } } tokens, err := service.EstimateRequestToken(c, meta, relayInfo) if err != nil { newAPIError = types.NewError(err, types.ErrorCodeCountTokenFailed) return } relayInfo.SetEstimatePromptTokens(tokens) priceData, err := helper.ModelPriceHelper(c, relayInfo, tokens, meta) if err != nil { newAPIError = types.NewError(err, types.ErrorCodeModelPriceError) return } // common.SetContextKey(c, constant.ContextKeyTokenCountMeta, meta) if priceData.FreeModel { logger.LogInfo(c, fmt.Sprintf("模型 %s 免费,跳过预扣费", relayInfo.OriginModelName)) } else { common.SysLog(fmt.Sprintf("[RegionSync] relay PreConsumeBilling: userId=%d, QuotaToPreConsume=%d, FreeModel=%v, UsePrice=%v, ModelRatio=%.4f, GroupRatio=%.4f, ModelPrice=%.4f, model=%s", relayInfo.UserId, priceData.QuotaToPreConsume, priceData.FreeModel, priceData.UsePrice, priceData.ModelRatio, priceData.GroupRatioInfo.GroupRatio, priceData.ModelPrice, relayInfo.OriginModelName)) newAPIError = service.PreConsumeBilling(c, priceData.QuotaToPreConsume, relayInfo) if newAPIError != nil { return } } defer func() { // Only return quota if downstream failed and quota was actually pre-consumed if newAPIError != nil { newAPIError = service.NormalizeViolationFeeError(newAPIError) if relayInfo.Billing != nil { relayInfo.Billing.Refund(c) } service.ChargeViolationFeeIfNeeded(c, relayInfo, newAPIError) } }() retryParam := &service.RetryParam{ Ctx: c, TokenGroup: relayInfo.TokenGroup, ModelName: relayInfo.OriginModelName, Retry: common.GetPointer(0), RequireMatrixUsageBilling: relayInfo.RequireMatrixUsageBilling, } for ; retryParam.GetRetry() <= common.RetryTimes; retryParam.IncreaseRetry() { channel, _, channelErr := getChannel(c, relayInfo, retryParam) if channelErr != nil { logger.LogError(c, channelErr.Error()) newAPIError = channelErr break } addUsedChannel(c, channel.Id) bodyStorage, bodyErr := common.GetBodyStorage(c) if bodyErr != nil { // Ensure consistent 413 for oversized bodies even when error occurs later (e.g., retry path) if common.IsRequestBodyTooLargeError(bodyErr) || errors.Is(bodyErr, common.ErrRequestBodyTooLarge) { newAPIError = types.NewErrorWithStatusCode(bodyErr, types.ErrorCodeReadRequestBodyFailed, http.StatusRequestEntityTooLarge, types.ErrOptionWithSkipRetry()) } else { newAPIError = types.NewErrorWithStatusCode(bodyErr, types.ErrorCodeReadRequestBodyFailed, http.StatusBadRequest, types.ErrOptionWithSkipRetry()) } break } c.Request.Body = io.NopCloser(bodyStorage) switch relayFormat { case types.RelayFormatOpenAIRealtime: newAPIError = relay.WssHelper(c, relayInfo) case types.RelayFormatClaude: newAPIError = relay.ClaudeHelper(c, relayInfo) case types.RelayFormatGemini: newAPIError = geminiRelayHandler(c, relayInfo) default: newAPIError = relayHandler(c, relayInfo) } if newAPIError == nil { return } newAPIError = service.NormalizeViolationFeeError(newAPIError) processChannelError(c, *types.NewChannelError(channel.Id, channel.Type, channel.Name, channel.ChannelInfo.IsMultiKey, common.GetContextKeyString(c, constant.ContextKeyChannelKey), channel.GetAutoBan()), newAPIError) if !shouldRetry(c, newAPIError, common.RetryTimes-retryParam.GetRetry()) { break } // Prometheus: 重试计数 if metrics.IsEnabled() { channelIdStr := strconv.Itoa(channel.Id) metrics.GetMetrics().RequestRetriesTotal.WithLabelValues(channelIdStr, relayInfo.OriginModelName).Inc() } } useChannel := c.GetStringSlice("use_channel") if len(useChannel) > 1 { retryLogStr := fmt.Sprintf("重试:%s", strings.Trim(strings.Join(strings.Fields(fmt.Sprint(useChannel)), "->"), "[]")) logger.LogInfo(c, retryLogStr) } } var upgrader = websocket.Upgrader{ Subprotocols: []string{"realtime"}, // WS 握手支持的协议,如果有使用 Sec-WebSocket-Protocol,则必须在此声明对应的 Protocol TODO add other protocol CheckOrigin: func(r *http.Request) bool { return true // 允许跨域 }, } func addUsedChannel(c *gin.Context, channelId int) { useChannel := c.GetStringSlice("use_channel") useChannel = append(useChannel, fmt.Sprintf("%d", channelId)) c.Set("use_channel", useChannel) } func fastTokenCountMetaForPricing(request dto.Request) *types.TokenCountMeta { if request == nil { return &types.TokenCountMeta{} } meta := &types.TokenCountMeta{ TokenType: types.TokenTypeTokenizer, } switch r := request.(type) { case *dto.GeneralOpenAIRequest: if r.MaxCompletionTokens > r.MaxTokens { meta.MaxTokens = int(r.MaxCompletionTokens) } else { meta.MaxTokens = int(r.MaxTokens) } case *dto.OpenAIResponsesRequest: meta.MaxTokens = int(r.MaxOutputTokens) case *dto.ClaudeRequest: meta.MaxTokens = int(r.MaxTokens) case *dto.ImageRequest: // Pricing for image requests depends on ImagePriceRatio; safe to compute even when CountToken is disabled. return r.GetTokenCountMeta() default: // Best-effort: leave CombineText empty to avoid large allocations. } return meta } func concreteTaskVideoBindingGroup(c *gin.Context, group string) string { group = strings.TrimSpace(group) if group == "" { group = strings.TrimSpace(common.GetContextKeyString(c, constant.ContextKeyTokenGroup)) } if group == "auto" { autoGroup := strings.TrimSpace(common.GetContextKeyString(c, constant.ContextKeyAutoGroup)) if autoGroup == "" || autoGroup == "auto" { return "" } return autoGroup } return group } func persistTaskVideoBindingIfNeeded(userId int, group string, channel *model.Channel) error { group = strings.TrimSpace(group) if group == "" || group == "auto" || channel == nil { return nil } family, ok := service.VideoAssetFamilyForChannelType(channel.Type) if !ok { return nil } if !service.IsUsableVideoAssetChannelForFamily(channel, group, "", family) { return nil } return service.BindVideoAssetChannel(userId, group, channel, family) } func getChannel(c *gin.Context, info *relaycommon.RelayInfo, retryParam *service.RetryParam) (*model.Channel, string, *types.NewAPIError) { if info.ChannelMeta == nil { autoBan := c.GetBool("auto_ban") autoBanInt := 1 if !autoBan { autoBanInt = 0 } return &model.Channel{ Id: c.GetInt("channel_id"), Type: c.GetInt("channel_type"), Name: c.GetString("channel_name"), AutoBan: &autoBanInt, }, concreteTaskVideoBindingGroup(c, info.TokenGroup), nil } channel, selectGroup, err := service.CacheGetRandomSatisfiedChannel(retryParam) info.PriceData.GroupRatioInfo = helper.HandleGroupRatio(c, info) if err != nil { if apiErr, ok := err.(*types.NewAPIError); ok { return nil, selectGroup, apiErr } return nil, selectGroup, types.NewError(fmt.Errorf("获取分组 %s 下模型 %s 的可用渠道失败(retry): %s", selectGroup, info.OriginModelName, err.Error()), types.ErrorCodeGetChannelFailed, types.ErrOptionWithSkipRetry()) } if channel == nil { return nil, selectGroup, types.NewError(fmt.Errorf("分组 %s 下模型 %s 的可用渠道不存在(retry)", selectGroup, info.OriginModelName), types.ErrorCodeGetChannelFailed, types.ErrOptionWithSkipRetry()) } newAPIError := middleware.SetupContextForSelectedChannel(c, channel, info.OriginModelName) if newAPIError != nil { return nil, selectGroup, newAPIError } return channel, selectGroup, nil } func requiredTaskChannelTypeForRequest(c *gin.Context) int { return 0 } func allowedTaskChannelTypesForRequest(c *gin.Context) []int { if strings.HasPrefix(c.Request.URL.Path, "/api/v3/contents/generations/tasks") { return service.VideoAssetChannelTypesForFamily(service.VideoAssetFamilySeedance) } if isKlingAipingNativePath(c.Request.URL.Path) { return service.VideoAssetChannelTypesForFamily(service.VideoAssetFamilyKling) } return nil } func shouldRetry(c *gin.Context, openaiErr *types.NewAPIError, retryTimes int) bool { if openaiErr == nil { return false } if service.ShouldSkipRetryAfterChannelAffinityFailure(c) { return false } if types.IsChannelError(openaiErr) { return true } if types.IsSkipRetryError(openaiErr) { return false } if retryTimes <= 0 { return false } code := openaiErr.StatusCode if code >= 200 && code < 300 { return false } if code < 100 || code > 599 { return true } return operation_setting.ShouldRetryByStatusCode(code) } func processChannelError(c *gin.Context, channelError types.ChannelError, err *types.NewAPIError) { logger.LogError(c, fmt.Sprintf("channel error (channel #%d, status code: %d): %s", channelError.ChannelId, err.StatusCode, err.Error())) // 不要使用context获取渠道信息,异步处理时可能会出现渠道信息不一致的情况 // do not use context to get channel info, there may be inconsistent channel info when processing asynchronously if service.ShouldDisableChannel(channelError.ChannelType, err) && channelError.AutoBan { gopool.Go(func() { service.DisableChannel(channelError, err.ErrorWithStatusCode()) }) } if constant.ErrorLogEnabled && types.IsRecordErrorLog(err) { // 保存错误日志到mysql中 userId := c.GetInt("id") tokenName := c.GetString("token_name") modelName := c.GetString("original_model") tokenId := c.GetInt("token_id") userGroup := c.GetString("group") channelId := c.GetInt("channel_id") other := make(map[string]interface{}) if c.Request != nil && c.Request.URL != nil { other["request_path"] = c.Request.URL.Path } other["error_type"] = err.GetErrorType() other["error_code"] = err.GetErrorCode() other["status_code"] = err.StatusCode other["channel_id"] = channelId other["channel_name"] = c.GetString("channel_name") other["channel_type"] = c.GetInt("channel_type") if err.UpstreamRequestId != "" { other["upstream_request_id"] = err.UpstreamRequestId } if err.UpstreamBody != "" { other["upstream_body"] = err.UpstreamBody } adminInfo := make(map[string]interface{}) adminInfo["use_channel"] = c.GetStringSlice("use_channel") isMultiKey := common.GetContextKeyBool(c, constant.ContextKeyChannelIsMultiKey) if isMultiKey { adminInfo["is_multi_key"] = true adminInfo["multi_key_index"] = common.GetContextKeyInt(c, constant.ContextKeyChannelMultiKeyIndex) } service.AppendChannelAffinityAdminInfo(c, adminInfo) other["admin_info"] = adminInfo startTime := common.GetContextKeyTime(c, constant.ContextKeyRequestStartTime) if startTime.IsZero() { startTime = time.Now() } useTimeSeconds := int(time.Since(startTime).Seconds()) model.RecordErrorLog(c, userId, channelId, modelName, tokenName, err.MaskSensitiveErrorWithStatusCode(), tokenId, useTimeSeconds, false, userGroup, other) } } func RelayMidjourney(c *gin.Context) { relayInfo, err := relaycommon.GenRelayInfo(c, types.RelayFormatMjProxy, nil, nil) if err != nil { c.JSON(http.StatusInternalServerError, gin.H{ "description": fmt.Sprintf("failed to generate relay info: %s", err.Error()), "type": "upstream_error", "code": 4, }) return } var mjErr *dto.MidjourneyResponse switch relayInfo.RelayMode { case relayconstant.RelayModeMidjourneyNotify: mjErr = relay.RelayMidjourneyNotify(c) case relayconstant.RelayModeMidjourneyTaskFetch, relayconstant.RelayModeMidjourneyTaskFetchByCondition: mjErr = relay.RelayMidjourneyTask(c, relayInfo.RelayMode) case relayconstant.RelayModeMidjourneyTaskImageSeed: mjErr = relay.RelayMidjourneyTaskImageSeed(c) case relayconstant.RelayModeSwapFace: mjErr = relay.RelaySwapFace(c, relayInfo) default: mjErr = relay.RelayMidjourneySubmit(c, relayInfo) } //err = relayMidjourneySubmit(c, relayMode) log.Println(mjErr) if mjErr != nil { statusCode := http.StatusBadRequest if mjErr.Code == 30 { mjErr.Result = "当前分组负载已饱和,请稍后再试,或升级账户以提升服务质量。" statusCode = http.StatusTooManyRequests } c.JSON(statusCode, gin.H{ "description": fmt.Sprintf("%s %s", mjErr.Description, mjErr.Result), "type": "upstream_error", "code": mjErr.Code, }) channelId := c.GetInt("channel_id") logger.LogError(c, fmt.Sprintf("relay error (channel #%d, status code %d): %s", channelId, statusCode, fmt.Sprintf("%s %s", mjErr.Description, mjErr.Result))) } } func RelayNotImplemented(c *gin.Context) { err := types.OpenAIError{ Message: "API not implemented", Type: "new_api_error", Param: "", Code: "api_not_implemented", } c.JSON(http.StatusNotImplemented, gin.H{ "error": err, }) } func RelayNotFound(c *gin.Context) { err := types.OpenAIError{ Message: fmt.Sprintf("Invalid URL (%s %s)", c.Request.Method, c.Request.URL.Path), Type: "invalid_request_error", Param: "", Code: "", } c.JSON(http.StatusNotFound, gin.H{ "error": err, }) } func RelayTaskFetch(c *gin.Context) { relayInfo, err := relaycommon.GenRelayInfo(c, types.RelayFormatTask, nil, nil) if err != nil { c.JSON(http.StatusInternalServerError, &dto.TaskError{ Code: "gen_relay_info_failed", Message: err.Error(), StatusCode: http.StatusInternalServerError, }) return } if taskErr := relay.RelayTaskFetch(c, relayInfo.RelayMode); taskErr != nil { respondTaskError(c, taskErr) } } func preloadTaskPricingConfig(c *gin.Context, info *relaycommon.RelayInfo) *dto.TaskError { modelName := strings.TrimSpace(info.OriginModelName) action := strings.TrimSpace(info.Action) contentType := c.Request.Header.Get("Content-Type") storage, err := common.GetBodyStorage(c) if err != nil { status := http.StatusBadRequest if common.IsRequestBodyTooLargeError(err) || errors.Is(err, common.ErrRequestBodyTooLarge) { status = http.StatusRequestEntityTooLarge } return service.TaskErrorWrapperLocal(err, "read_request_body_failed", status) } defer func() { _, _ = storage.Seek(0, io.SeekStart) c.Request.Body = io.NopCloser(storage) }() switch { case strings.HasPrefix(contentType, "application/json"): body, err := storage.Bytes() if err != nil { return service.TaskErrorWrapperLocal(err, "read_request_body_failed", http.StatusBadRequest) } if strings.TrimSpace(string(body)) != "" { var payload map[string]any if err := common.Unmarshal(body, &payload); err != nil { return service.TaskErrorWrapperLocal(err, "invalid_json", http.StatusBadRequest) } if raw, ok := payload["model_name"].(string); ok && strings.TrimSpace(raw) != "" { modelName = strings.TrimSpace(raw) } else if raw, ok := payload["model"].(string); ok && strings.TrimSpace(raw) != "" { modelName = strings.TrimSpace(raw) } if raw, ok := payload["action"].(string); ok && strings.TrimSpace(raw) != "" { action = strings.TrimSpace(raw) } } case strings.Contains(contentType, gin.MIMEMultipartPOSTForm): form, err := common.ParseMultipartFormReusable(c) if err != nil { return service.TaskErrorWrapperLocal(err, "invalid_multipart_form", http.StatusBadRequest) } if vals := form.Value["model"]; len(vals) > 0 && strings.TrimSpace(vals[0]) != "" { modelName = strings.TrimSpace(vals[0]) } if vals := form.Value["action"]; len(vals) > 0 && strings.TrimSpace(vals[0]) != "" { action = strings.TrimSpace(vals[0]) } } if modelName == "" && action != "" { platform := constant.TaskPlatform(c.GetString("platform")) modelName = service.CoverTaskActionToModelName(platform, action) } if modelName != "" { info.OriginModelName = modelName } if action != "" { info.Action = action } info.PricingConfigSnapshotLoaded = true info.PricingConfigSnapshot = ratio_setting.GetPricingConfig(info.OriginModelName) info.RequireMatrixUsageBilling = info.PricingConfigSnapshot != nil && info.PricingConfigSnapshot.BillingUnit == types.BillingUnitPer1MTokens return nil } func buildTaskBillingContext(info *relaycommon.RelayInfo) *model.TaskBillingContext { bc := &model.TaskBillingContext{ ModelPrice: info.PriceData.ModelPrice, GroupRatio: info.PriceData.GroupRatioInfo.GroupRatio, ModelRatio: info.PriceData.ModelRatio, OtherRatios: info.PriceData.OtherRatios, OriginModelName: info.OriginModelName, PerCallBilling: common.StringsContains(constant.TaskPricePatches, info.OriginModelName), } if decision := info.PricingDecisionFrozen; decision != nil && decision.BillingMode == types.BillingModeMatrix { bc.BillingMode = decision.BillingMode bc.PricingSnapshot = types.CloneMapAny(decision.Snapshot) bc.BillingUnit = decision.BillingUnit bc.TokenUnitPriceUSD = decision.TokenUnitPriceUSD bc.PerCallBilling = decision.PerCallBilling if decision.BillingUnit == types.BillingUnitPer1MTokens { bc.ModelPrice = decision.TokenUnitPriceUSD } else { bc.ModelPrice = decision.PriceUSD } bc.GroupRatio = decision.GroupRatioInfo.GroupRatio bc.OtherRatios = types.CloneRatios(decision.OtherRatios) } return bc } func RelayTask(c *gin.Context) { relayInfo, err := relaycommon.GenRelayInfo(c, types.RelayFormatTask, nil, nil) if err != nil { c.JSON(http.StatusInternalServerError, &dto.TaskError{ Code: "gen_relay_info_failed", Message: err.Error(), StatusCode: http.StatusInternalServerError, }) return } relayTaskWithInfo(c, relayInfo) } func relayTaskWithInfo(c *gin.Context, relayInfo *relaycommon.RelayInfo) { if taskErr := relay.ResolveOriginTask(c, relayInfo); taskErr != nil { respondTaskError(c, taskErr) return } if taskErr := preloadTaskPricingConfig(c, relayInfo); taskErr != nil { respondTaskError(c, taskErr) return } var result *relay.TaskSubmitResult var taskErr *dto.TaskError defer func() { if taskErr != nil && relayInfo.Billing != nil { relayInfo.Billing.Refund(c) } }() retryParam := &service.RetryParam{ Ctx: c, TokenGroup: relayInfo.TokenGroup, ModelName: relayInfo.OriginModelName, Retry: common.GetPointer(0), RequiredChannelType: requiredTaskChannelTypeForRequest(c), AllowedChannelTypes: allowedTaskChannelTypesForRequest(c), } for ; retryParam.GetRetry() <= common.RetryTimes; retryParam.IncreaseRetry() { var channel *model.Channel var selectedGroup string if lockedCh, ok := relayInfo.LockedChannel.(*model.Channel); ok && lockedCh != nil { channel = lockedCh selectedGroup = concreteTaskVideoBindingGroup(c, relayInfo.TokenGroup) if setupErr := middleware.SetupContextForSelectedChannel(c, channel, relayInfo.OriginModelName); setupErr != nil { taskErr = service.TaskErrorWrapperLocal(setupErr.Err, "setup_locked_channel_failed", http.StatusInternalServerError) break } } else { var channelErr *types.NewAPIError channel, selectedGroup, channelErr = getChannel(c, relayInfo, retryParam) if channelErr != nil { logger.LogError(c, channelErr.Error()) taskErr = service.TaskErrorWrapperLocal(channelErr.Err, "get_channel_failed", http.StatusInternalServerError) break } } if bindErr := persistTaskVideoBindingIfNeeded(c.GetInt("id"), selectedGroup, channel); bindErr != nil { taskErr = service.TaskErrorWrapperLocal(bindErr, "bind_task_video_channel_failed", http.StatusServiceUnavailable) break } addUsedChannel(c, channel.Id) bodyStorage, bodyErr := common.GetBodyStorage(c) if bodyErr != nil { if common.IsRequestBodyTooLargeError(bodyErr) || errors.Is(bodyErr, common.ErrRequestBodyTooLarge) { taskErr = service.TaskErrorWrapperLocal(bodyErr, "read_request_body_failed", http.StatusRequestEntityTooLarge) } else { taskErr = service.TaskErrorWrapperLocal(bodyErr, "read_request_body_failed", http.StatusBadRequest) } break } c.Request.Body = io.NopCloser(bodyStorage) result, taskErr = relay.RelayTaskSubmit(c, relayInfo) if taskErr == nil { break } if !taskErr.LocalError { processChannelError(c, *types.NewChannelError(channel.Id, channel.Type, channel.Name, channel.ChannelInfo.IsMultiKey, common.GetContextKeyString(c, constant.ContextKeyChannelKey), channel.GetAutoBan()), types.NewOpenAIError(taskErr.Error, types.ErrorCodeBadResponseStatusCode, taskErr.StatusCode)) } if !shouldRetryTaskRelay(c, channel.Id, taskErr, common.RetryTimes-retryParam.GetRetry()) { break } } useChannel := c.GetStringSlice("use_channel") if len(useChannel) > 1 { retryLogStr := fmt.Sprintf("重试:%s", strings.Trim(strings.Join(strings.Fields(fmt.Sprint(useChannel)), "->"), "[]")) logger.LogInfo(c, retryLogStr) } // ── 成功:结算 + 日志 + 插入任务 ── if taskErr == nil { if settleErr := service.SettleBilling(c, relayInfo, result.Quota); settleErr != nil { common.SysError("settle task billing error: " + settleErr.Error()) } service.LogTaskConsumption(c, relayInfo) task := model.InitTask(result.Platform, relayInfo) task.PrivateData.UpstreamTaskID = result.UpstreamTaskID task.PrivateData.BillingSource = relayInfo.BillingSource task.PrivateData.SubscriptionId = relayInfo.SubscriptionId task.PrivateData.TokenId = relayInfo.TokenId task.PrivateData.BillingContext = buildTaskBillingContext(relayInfo) task.PrivateData.UpstreamRequest = relay.BuildUpstreamRequestSnapshotForTask(result.UpstreamReqJSON) task.Quota = result.Quota task.Data = result.TaskData task.Action = relayInfo.Action if insertErr := task.Insert(); insertErr != nil { common.SysError("insert task error: " + insertErr.Error()) } } if taskErr != nil { respondTaskError(c, taskErr) } } // respondTaskError 统一输出 Task 错误响应(含 429 限流提示改写) func respondTaskError(c *gin.Context, taskErr *dto.TaskError) { if taskErr.StatusCode == http.StatusTooManyRequests { taskErr.Message = "当前分组上游负载已饱和,请稍后再试" } if isKlingAipingNativePath(c.Request.URL.Path) { normalizeKlingAipingTaskError(taskErr) } c.JSON(taskErr.StatusCode, taskErr) } func isKlingAipingNativePath(path string) bool { return pathMatchesAnyKlingAipingNativePrefix(path, "/v1/videos/text2video", "/v1/videos/image2video", "/v1/videos/motion-control", "/v1/videos/omni-video", "/v1/videos/multi-image2video", "/v1/videos/video-extend", "/v1/general/advanced-custom-elements", "/v1/general/custom-voices", ) } func pathMatchesAnyKlingAipingNativePrefix(path string, prefixes ...string) bool { for _, prefix := range prefixes { if path == prefix || strings.HasPrefix(path, prefix+"/") { return true } } return false } func shouldRetryTaskRelay(c *gin.Context, channelId int, taskErr *dto.TaskError, retryTimes int) bool { if taskErr == nil { return false } if service.ShouldSkipRetryAfterChannelAffinityFailure(c) { return false } if retryTimes <= 0 { return false } if taskErr.StatusCode == http.StatusTooManyRequests { return true } if taskErr.StatusCode == 307 { return true } if taskErr.StatusCode/100 == 5 { // 超时不重试 if operation_setting.IsAlwaysSkipRetryStatusCode(taskErr.StatusCode) { return false } return true } if taskErr.StatusCode == http.StatusBadRequest { return false } if taskErr.StatusCode == 408 { // azure处理超时不重试 return false } if taskErr.LocalError { return false } if taskErr.StatusCode/100 == 2 { return false } return true }