package controller import ( "encoding/json" "fmt" "net/http" "strconv" "strings" "github.com/QuantumNous/new-api/common" "github.com/QuantumNous/new-api/constant" "github.com/QuantumNous/new-api/dto" "github.com/QuantumNous/new-api/model" "github.com/QuantumNous/new-api/service" "github.com/gin-gonic/gin" ) type OpenAIModel struct { ID string `json:"id"` Object string `json:"object"` Created int64 `json:"created"` OwnedBy string `json:"owned_by"` Permission []struct { ID string `json:"id"` Object string `json:"object"` Created int64 `json:"created"` AllowCreateEngine bool `json:"allow_create_engine"` AllowSampling bool `json:"allow_sampling"` AllowLogprobs bool `json:"allow_logprobs"` AllowSearchIndices bool `json:"allow_search_indices"` AllowView bool `json:"allow_view"` AllowFineTuning bool `json:"allow_fine_tuning"` Organization string `json:"organization"` Group string `json:"group"` IsBlocking bool `json:"is_blocking"` } `json:"permission"` Root string `json:"root"` Parent string `json:"parent"` } type OpenAIModelsResponse struct { Data []OpenAIModel `json:"data"` Success bool `json:"success"` } func parseStatusFilter(statusParam string) int { switch strings.ToLower(statusParam) { case "enabled", "1": return common.ChannelStatusEnabled case "disabled", "0": return 0 default: return -1 } } func clearChannelInfo(channel *model.Channel) { if channel.ChannelInfo.IsMultiKey { channel.ChannelInfo.MultiKeyDisabledReason = nil channel.ChannelInfo.MultiKeyDisabledTime = nil } } func GetAllChannels(c *gin.Context) { pageInfo := common.GetPageQuery(c) channelData := make([]*model.Channel, 0) idSort, _ := strconv.ParseBool(c.Query("id_sort")) enableTagMode, _ := strconv.ParseBool(c.Query("tag_mode")) statusParam := c.Query("status") // statusFilter: -1 all, 1 enabled, 0 disabled (include auto & manual) statusFilter := parseStatusFilter(statusParam) // type filter typeStr := c.Query("type") typeFilter := -1 if typeStr != "" { if t, err := strconv.Atoi(typeStr); err == nil { typeFilter = t } } var total int64 if enableTagMode { tags, err := model.GetPaginatedTags(pageInfo.GetStartIdx(), pageInfo.GetPageSize()) if err != nil { c.JSON(http.StatusOK, gin.H{"success": false, "message": err.Error()}) return } for _, tag := range tags { if tag == nil || *tag == "" { continue } tagChannels, err := model.GetChannelsByTag(*tag, idSort) if err != nil { continue } filtered := make([]*model.Channel, 0) for _, ch := range tagChannels { if statusFilter == common.ChannelStatusEnabled && ch.Status != common.ChannelStatusEnabled { continue } if statusFilter == 0 && ch.Status == common.ChannelStatusEnabled { continue } if typeFilter >= 0 && ch.Type != typeFilter { continue } filtered = append(filtered, ch) } channelData = append(channelData, filtered...) } total, _ = model.CountAllTags() } else { baseQuery := model.DB.Model(&model.Channel{}) if typeFilter >= 0 { baseQuery = baseQuery.Where("type = ?", typeFilter) } if statusFilter == common.ChannelStatusEnabled { baseQuery = baseQuery.Where("status = ?", common.ChannelStatusEnabled) } else if statusFilter == 0 { baseQuery = baseQuery.Where("status != ?", common.ChannelStatusEnabled) } baseQuery.Count(&total) order := "priority desc" if idSort { order = "id desc" } err := baseQuery.Order(order).Limit(pageInfo.GetPageSize()).Offset(pageInfo.GetStartIdx()).Omit("key").Find(&channelData).Error if err != nil { c.JSON(http.StatusOK, gin.H{"success": false, "message": err.Error()}) return } } for _, datum := range channelData { clearChannelInfo(datum) } countQuery := model.DB.Model(&model.Channel{}) if statusFilter == common.ChannelStatusEnabled { countQuery = countQuery.Where("status = ?", common.ChannelStatusEnabled) } else if statusFilter == 0 { countQuery = countQuery.Where("status != ?", common.ChannelStatusEnabled) } var results []struct { Type int64 Count int64 } _ = countQuery.Select("type, count(*) as count").Group("type").Find(&results).Error typeCounts := make(map[int64]int64) for _, r := range results { typeCounts[r.Type] = r.Count } common.ApiSuccess(c, gin.H{ "items": channelData, "total": total, "page": pageInfo.GetPage(), "page_size": pageInfo.GetPageSize(), "type_counts": typeCounts, }) return } func FetchUpstreamModels(c *gin.Context) { id, err := strconv.Atoi(c.Param("id")) if err != nil { common.ApiError(c, err) return } channel, err := model.GetChannelById(id, true) if err != nil { common.ApiError(c, err) return } baseURL := constant.ChannelBaseURLs[channel.Type] if channel.GetBaseURL() != "" { baseURL = channel.GetBaseURL() } var url string switch channel.Type { case constant.ChannelTypeGemini: // curl https://example.com/v1beta/models?key=$GEMINI_API_KEY url = fmt.Sprintf("%s/v1beta/openai/models", baseURL) // Remove key in url since we need to use AuthHeader case constant.ChannelTypeAli: url = fmt.Sprintf("%s/compatible-mode/v1/models", baseURL) case constant.ChannelTypeZhipu_v4: url = fmt.Sprintf("%s/api/paas/v4/models", baseURL) default: url = fmt.Sprintf("%s/v1/models", baseURL) } // 获取响应体 - 根据渠道类型决定是否添加 AuthHeader var body []byte key := strings.Split(channel.Key, "\n")[0] switch channel.Type { case constant.ChannelTypeAnthropic: body, err = GetResponseBody("GET", url, channel, GetClaudeAuthHeader(key)) default: body, err = GetResponseBody("GET", url, channel, GetAuthHeader(key)) } if err != nil { common.ApiError(c, err) return } var result OpenAIModelsResponse if err = json.Unmarshal(body, &result); err != nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": fmt.Sprintf("解析响应失败: %s", err.Error()), }) return } var ids []string for _, model := range result.Data { id := model.ID if channel.Type == constant.ChannelTypeGemini { id = strings.TrimPrefix(id, "models/") } ids = append(ids, id) } c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", "data": ids, }) } func FixChannelsAbilities(c *gin.Context) { success, fails, err := model.FixAbility() if err != nil { common.ApiError(c, err) return } c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", "data": gin.H{ "success": success, "fails": fails, }, }) } func SearchChannels(c *gin.Context) { keyword := c.Query("keyword") group := c.Query("group") modelKeyword := c.Query("model") statusParam := c.Query("status") statusFilter := parseStatusFilter(statusParam) idSort, _ := strconv.ParseBool(c.Query("id_sort")) enableTagMode, _ := strconv.ParseBool(c.Query("tag_mode")) channelData := make([]*model.Channel, 0) if enableTagMode { tags, err := model.SearchTags(keyword, group, modelKeyword, idSort) if err != nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": err.Error(), }) return } for _, tag := range tags { if tag != nil && *tag != "" { tagChannel, err := model.GetChannelsByTag(*tag, idSort) if err == nil { channelData = append(channelData, tagChannel...) } } } } else { channels, err := model.SearchChannels(keyword, group, modelKeyword, idSort) if err != nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": err.Error(), }) return } channelData = channels } if statusFilter == common.ChannelStatusEnabled || statusFilter == 0 { filtered := make([]*model.Channel, 0, len(channelData)) for _, ch := range channelData { if statusFilter == common.ChannelStatusEnabled && ch.Status != common.ChannelStatusEnabled { continue } if statusFilter == 0 && ch.Status == common.ChannelStatusEnabled { continue } filtered = append(filtered, ch) } channelData = filtered } // calculate type counts for search results typeCounts := make(map[int64]int64) for _, channel := range channelData { typeCounts[int64(channel.Type)]++ } typeParam := c.Query("type") typeFilter := -1 if typeParam != "" { if tp, err := strconv.Atoi(typeParam); err == nil { typeFilter = tp } } if typeFilter >= 0 { filtered := make([]*model.Channel, 0, len(channelData)) for _, ch := range channelData { if ch.Type == typeFilter { filtered = append(filtered, ch) } } channelData = filtered } page, _ := strconv.Atoi(c.DefaultQuery("p", "1")) pageSize, _ := strconv.Atoi(c.DefaultQuery("page_size", "20")) if page < 1 { page = 1 } if pageSize <= 0 { pageSize = 20 } total := len(channelData) startIdx := (page - 1) * pageSize if startIdx > total { startIdx = total } endIdx := startIdx + pageSize if endIdx > total { endIdx = total } pagedData := channelData[startIdx:endIdx] for _, datum := range pagedData { clearChannelInfo(datum) } c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", "data": gin.H{ "items": pagedData, "total": total, "type_counts": typeCounts, }, }) return } func GetChannel(c *gin.Context) { id, err := strconv.Atoi(c.Param("id")) if err != nil { common.ApiError(c, err) return } channel, err := model.GetChannelById(id, false) if err != nil { common.ApiError(c, err) return } if channel != nil { clearChannelInfo(channel) } c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", "data": channel, }) return } // GetChannelKey 获取渠道密钥(需要通过安全验证中间件) // 此函数依赖 SecureVerificationRequired 中间件,确保用户已通过安全验证 func GetChannelKey(c *gin.Context) { userId := c.GetInt("id") channelId, err := strconv.Atoi(c.Param("id")) if err != nil { common.ApiError(c, fmt.Errorf("渠道ID格式错误: %v", err)) return } // 获取渠道信息(包含密钥) channel, err := model.GetChannelById(channelId, true) if err != nil { common.ApiError(c, fmt.Errorf("获取渠道信息失败: %v", err)) return } if channel == nil { common.ApiError(c, fmt.Errorf("渠道不存在")) return } // 记录操作日志 model.RecordLog(userId, model.LogTypeSystem, fmt.Sprintf("查看渠道密钥信息 (渠道ID: %d)", channelId)) // 返回渠道密钥 c.JSON(http.StatusOK, gin.H{ "success": true, "message": "获取成功", "data": map[string]interface{}{ "key": channel.Key, }, }) } // validateTwoFactorAuth 统一的2FA验证函数 func validateTwoFactorAuth(twoFA *model.TwoFA, code string) bool { // 尝试验证TOTP if cleanCode, err := common.ValidateNumericCode(code); err == nil { if isValid, _ := twoFA.ValidateTOTPAndUpdateUsage(cleanCode); isValid { return true } } // 尝试验证备用码 if isValid, err := twoFA.ValidateBackupCodeAndUpdateUsage(code); err == nil && isValid { return true } return false } // validateChannel 通用的渠道校验函数 func validateChannel(channel *model.Channel, isAdd bool) error { // 校验 channel settings if err := channel.ValidateSettings(); err != nil { return fmt.Errorf("渠道额外设置[channel setting] 格式错误:%s", err.Error()) } // 如果是添加操作,检查 channel 和 key 是否为空 if isAdd { if channel == nil || channel.Key == "" { return fmt.Errorf("channel cannot be empty") } // 检查模型名称长度是否超过 255 for _, m := range channel.GetModels() { if len(m) > 255 { return fmt.Errorf("模型名称过长: %s", m) } } } // VertexAI 特殊校验 if channel.Type == constant.ChannelTypeVertexAi { if channel.Other == "" { return fmt.Errorf("部署地区不能为空") } regionMap, err := common.StrToMap(channel.Other) if err != nil { return fmt.Errorf("部署地区必须是标准的Json格式,例如{\"default\": \"us-central1\", \"region2\": \"us-east1\"}") } if regionMap["default"] == nil { return fmt.Errorf("部署地区必须包含default字段") } } return nil } type AddChannelRequest struct { Mode string `json:"mode"` MultiKeyMode constant.MultiKeyMode `json:"multi_key_mode"` BatchAddSetKeyPrefix2Name bool `json:"batch_add_set_key_prefix_2_name"` Channel *model.Channel `json:"channel"` } func getVertexArrayKeys(keys string) ([]string, error) { if keys == "" { return nil, nil } var keyArray []interface{} err := common.Unmarshal([]byte(keys), &keyArray) if err != nil { return nil, fmt.Errorf("批量添加 Vertex AI 必须使用标准的JsonArray格式,例如[{key1}, {key2}...],请检查输入: %w", err) } cleanKeys := make([]string, 0, len(keyArray)) for _, key := range keyArray { var keyStr string switch v := key.(type) { case string: keyStr = strings.TrimSpace(v) default: bytes, err := json.Marshal(v) if err != nil { return nil, fmt.Errorf("Vertex AI key JSON 编码失败: %w", err) } keyStr = string(bytes) } if keyStr != "" { cleanKeys = append(cleanKeys, keyStr) } } if len(cleanKeys) == 0 { return nil, fmt.Errorf("批量添加 Vertex AI 的 keys 不能为空") } return cleanKeys, nil } func AddChannel(c *gin.Context) { addChannelRequest := AddChannelRequest{} err := c.ShouldBindJSON(&addChannelRequest) if err != nil { common.ApiError(c, err) return } // 使用统一的校验函数 if err := validateChannel(addChannelRequest.Channel, true); err != nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": err.Error(), }) return } addChannelRequest.Channel.CreatedTime = common.GetTimestamp() keys := make([]string, 0) switch addChannelRequest.Mode { case "multi_to_single": addChannelRequest.Channel.ChannelInfo.IsMultiKey = true addChannelRequest.Channel.ChannelInfo.MultiKeyMode = addChannelRequest.MultiKeyMode if addChannelRequest.Channel.Type == constant.ChannelTypeVertexAi && addChannelRequest.Channel.GetOtherSettings().VertexKeyType != dto.VertexKeyTypeAPIKey { array, err := getVertexArrayKeys(addChannelRequest.Channel.Key) if err != nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": err.Error(), }) return } addChannelRequest.Channel.ChannelInfo.MultiKeySize = len(array) addChannelRequest.Channel.Key = strings.Join(array, "\n") } else { cleanKeys := make([]string, 0) for _, key := range strings.Split(addChannelRequest.Channel.Key, "\n") { if key == "" { continue } key = strings.TrimSpace(key) cleanKeys = append(cleanKeys, key) } addChannelRequest.Channel.ChannelInfo.MultiKeySize = len(cleanKeys) addChannelRequest.Channel.Key = strings.Join(cleanKeys, "\n") } keys = []string{addChannelRequest.Channel.Key} case "batch": if addChannelRequest.Channel.Type == constant.ChannelTypeVertexAi && addChannelRequest.Channel.GetOtherSettings().VertexKeyType != dto.VertexKeyTypeAPIKey { // multi json keys, err = getVertexArrayKeys(addChannelRequest.Channel.Key) if err != nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": err.Error(), }) return } } else { keys = strings.Split(addChannelRequest.Channel.Key, "\n") } case "single": keys = []string{addChannelRequest.Channel.Key} default: c.JSON(http.StatusOK, gin.H{ "success": false, "message": "不支持的添加模式", }) return } channels := make([]model.Channel, 0, len(keys)) for _, key := range keys { if key == "" { continue } localChannel := addChannelRequest.Channel localChannel.Key = key if addChannelRequest.BatchAddSetKeyPrefix2Name && len(keys) > 1 { keyPrefix := localChannel.Key if len(localChannel.Key) > 8 { keyPrefix = localChannel.Key[:8] } localChannel.Name = fmt.Sprintf("%s %s", localChannel.Name, keyPrefix) } channels = append(channels, *localChannel) } err = model.BatchInsertChannels(channels) if err != nil { common.ApiError(c, err) return } service.ResetProxyClientCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", }) return } func DeleteChannel(c *gin.Context) { id, _ := strconv.Atoi(c.Param("id")) channel := model.Channel{Id: id} err := channel.Delete() if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", }) return } func DeleteDisabledChannel(c *gin.Context) { rows, err := model.DeleteDisabledChannel() if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", "data": rows, }) return } type ChannelTag struct { Tag string `json:"tag"` NewTag *string `json:"new_tag"` Priority *int64 `json:"priority"` Weight *uint `json:"weight"` ModelMapping *string `json:"model_mapping"` Models *string `json:"models"` Groups *string `json:"groups"` } func DisableTagChannels(c *gin.Context) { channelTag := ChannelTag{} err := c.ShouldBindJSON(&channelTag) if err != nil || channelTag.Tag == "" { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "参数错误", }) return } err = model.DisableChannelByTag(channelTag.Tag) if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", }) return } func EnableTagChannels(c *gin.Context) { channelTag := ChannelTag{} err := c.ShouldBindJSON(&channelTag) if err != nil || channelTag.Tag == "" { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "参数错误", }) return } err = model.EnableChannelByTag(channelTag.Tag) if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", }) return } func EditTagChannels(c *gin.Context) { channelTag := ChannelTag{} err := c.ShouldBindJSON(&channelTag) if err != nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "参数错误", }) return } if channelTag.Tag == "" { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "tag不能为空", }) return } err = model.EditChannelByTag(channelTag.Tag, channelTag.NewTag, channelTag.ModelMapping, channelTag.Models, channelTag.Groups, channelTag.Priority, channelTag.Weight) if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", }) return } type ChannelBatch struct { Ids []int `json:"ids"` Tag *string `json:"tag"` } func DeleteChannelBatch(c *gin.Context) { channelBatch := ChannelBatch{} err := c.ShouldBindJSON(&channelBatch) if err != nil || len(channelBatch.Ids) == 0 { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "参数错误", }) return } err = model.BatchDeleteChannels(channelBatch.Ids) if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", "data": len(channelBatch.Ids), }) return } type PatchChannel struct { model.Channel MultiKeyMode *string `json:"multi_key_mode"` KeyMode *string `json:"key_mode"` // 多key模式下密钥覆盖或者追加 } func UpdateChannel(c *gin.Context) { channel := PatchChannel{} err := c.ShouldBindJSON(&channel) if err != nil { common.ApiError(c, err) return } // 使用统一的校验函数 if err := validateChannel(&channel.Channel, false); err != nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": err.Error(), }) return } // Preserve existing ChannelInfo to ensure multi-key channels keep correct state even if the client does not send ChannelInfo in the request. originChannel, err := model.GetChannelById(channel.Id, true) if err != nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": err.Error(), }) return } // Always copy the original ChannelInfo so that fields like IsMultiKey and MultiKeySize are retained. channel.ChannelInfo = originChannel.ChannelInfo // If the request explicitly specifies a new MultiKeyMode, apply it on top of the original info. if channel.MultiKeyMode != nil && *channel.MultiKeyMode != "" { channel.ChannelInfo.MultiKeyMode = constant.MultiKeyMode(*channel.MultiKeyMode) } // 处理多key模式下的密钥追加/覆盖逻辑 if channel.KeyMode != nil && channel.ChannelInfo.IsMultiKey { switch *channel.KeyMode { case "append": // 追加模式:将新密钥添加到现有密钥列表 if originChannel.Key != "" { var newKeys []string var existingKeys []string // 解析现有密钥 if strings.HasPrefix(strings.TrimSpace(originChannel.Key), "[") { // JSON数组格式 var arr []json.RawMessage if err := json.Unmarshal([]byte(strings.TrimSpace(originChannel.Key)), &arr); err == nil { existingKeys = make([]string, len(arr)) for i, v := range arr { existingKeys[i] = string(v) } } } else { // 换行分隔格式 existingKeys = strings.Split(strings.Trim(originChannel.Key, "\n"), "\n") } // 处理 Vertex AI 的特殊情况 if channel.Type == constant.ChannelTypeVertexAi && channel.GetOtherSettings().VertexKeyType != dto.VertexKeyTypeAPIKey { // 尝试解析新密钥为JSON数组 if strings.HasPrefix(strings.TrimSpace(channel.Key), "[") { array, err := getVertexArrayKeys(channel.Key) if err != nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "追加密钥解析失败: " + err.Error(), }) return } newKeys = array } else { // 单个JSON密钥 newKeys = []string{channel.Key} } // 合并密钥 allKeys := append(existingKeys, newKeys...) channel.Key = strings.Join(allKeys, "\n") } else { // 普通渠道的处理 inputKeys := strings.Split(channel.Key, "\n") for _, key := range inputKeys { key = strings.TrimSpace(key) if key != "" { newKeys = append(newKeys, key) } } // 合并密钥 allKeys := append(existingKeys, newKeys...) channel.Key = strings.Join(allKeys, "\n") } } case "replace": // 覆盖模式:直接使用新密钥(默认行为,不需要特殊处理) } } err = channel.Update() if err != nil { common.ApiError(c, err) return } model.InitChannelCache() service.ResetProxyClientCache() channel.Key = "" clearChannelInfo(&channel.Channel) c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", "data": channel, }) return } func FetchModels(c *gin.Context) { var req struct { BaseURL string `json:"base_url"` Type int `json:"type"` Key string `json:"key"` } if err := c.ShouldBindJSON(&req); err != nil { c.JSON(http.StatusBadRequest, gin.H{ "success": false, "message": "Invalid request", }) return } baseURL := req.BaseURL if baseURL == "" { baseURL = constant.ChannelBaseURLs[req.Type] } client := &http.Client{} url := fmt.Sprintf("%s/v1/models", baseURL) request, err := http.NewRequest("GET", url, nil) if err != nil { c.JSON(http.StatusInternalServerError, gin.H{ "success": false, "message": err.Error(), }) return } // remove line breaks and extra spaces. key := strings.TrimSpace(req.Key) // If the key contains a line break, only take the first part. key = strings.Split(key, "\n")[0] request.Header.Set("Authorization", "Bearer "+key) response, err := client.Do(request) if err != nil { c.JSON(http.StatusInternalServerError, gin.H{ "success": false, "message": err.Error(), }) return } //check status code if response.StatusCode != http.StatusOK { c.JSON(http.StatusInternalServerError, gin.H{ "success": false, "message": "Failed to fetch models", }) return } defer response.Body.Close() var result struct { Data []struct { ID string `json:"id"` } `json:"data"` } if err := json.NewDecoder(response.Body).Decode(&result); err != nil { c.JSON(http.StatusInternalServerError, gin.H{ "success": false, "message": err.Error(), }) return } var models []string for _, model := range result.Data { models = append(models, model.ID) } c.JSON(http.StatusOK, gin.H{ "success": true, "data": models, }) } func BatchSetChannelTag(c *gin.Context) { channelBatch := ChannelBatch{} err := c.ShouldBindJSON(&channelBatch) if err != nil || len(channelBatch.Ids) == 0 { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "参数错误", }) return } err = model.BatchSetChannelTag(channelBatch.Ids, channelBatch.Tag) if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", "data": len(channelBatch.Ids), }) return } func GetTagModels(c *gin.Context) { tag := c.Query("tag") if tag == "" { c.JSON(http.StatusBadRequest, gin.H{ "success": false, "message": "tag不能为空", }) return } channels, err := model.GetChannelsByTag(tag, false) // Assuming false for idSort is fine here if err != nil { c.JSON(http.StatusInternalServerError, gin.H{ "success": false, "message": err.Error(), }) return } var longestModels string maxLength := 0 // Find the longest models string among all channels with the given tag for _, channel := range channels { if channel.Models != "" { currentModels := strings.Split(channel.Models, ",") if len(currentModels) > maxLength { maxLength = len(currentModels) longestModels = channel.Models } } } c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", "data": longestModels, }) return } // CopyChannel handles cloning an existing channel with its key. // POST /api/channel/copy/:id // Optional query params: // // suffix - string appended to the original name (default "_复制") // reset_balance - bool, when true will reset balance & used_quota to 0 (default true) func CopyChannel(c *gin.Context) { id, err := strconv.Atoi(c.Param("id")) if err != nil { c.JSON(http.StatusOK, gin.H{"success": false, "message": "invalid id"}) return } suffix := c.DefaultQuery("suffix", "_复制") resetBalance := true if rbStr := c.DefaultQuery("reset_balance", "true"); rbStr != "" { if v, err := strconv.ParseBool(rbStr); err == nil { resetBalance = v } } // fetch original channel with key origin, err := model.GetChannelById(id, true) if err != nil { c.JSON(http.StatusOK, gin.H{"success": false, "message": err.Error()}) return } // clone channel clone := *origin // shallow copy is sufficient as we will overwrite primitives clone.Id = 0 // let DB auto-generate clone.CreatedTime = common.GetTimestamp() clone.Name = origin.Name + suffix clone.TestTime = 0 clone.ResponseTime = 0 if resetBalance { clone.Balance = 0 clone.UsedQuota = 0 } // insert if err := model.BatchInsertChannels([]model.Channel{clone}); err != nil { c.JSON(http.StatusOK, gin.H{"success": false, "message": err.Error()}) return } model.InitChannelCache() // success c.JSON(http.StatusOK, gin.H{"success": true, "message": "", "data": gin.H{"id": clone.Id}}) } // MultiKeyManageRequest represents the request for multi-key management operations type MultiKeyManageRequest struct { ChannelId int `json:"channel_id"` Action string `json:"action"` // "disable_key", "enable_key", "delete_key", "delete_disabled_keys", "get_key_status" KeyIndex *int `json:"key_index,omitempty"` // for disable_key, enable_key, and delete_key actions Page int `json:"page,omitempty"` // for get_key_status pagination PageSize int `json:"page_size,omitempty"` // for get_key_status pagination Status *int `json:"status,omitempty"` // for get_key_status filtering: 1=enabled, 2=manual_disabled, 3=auto_disabled, nil=all } // MultiKeyStatusResponse represents the response for key status query type MultiKeyStatusResponse struct { Keys []KeyStatus `json:"keys"` Total int `json:"total"` Page int `json:"page"` PageSize int `json:"page_size"` TotalPages int `json:"total_pages"` // Statistics EnabledCount int `json:"enabled_count"` ManualDisabledCount int `json:"manual_disabled_count"` AutoDisabledCount int `json:"auto_disabled_count"` } type KeyStatus struct { Index int `json:"index"` Status int `json:"status"` // 1: enabled, 2: disabled DisabledTime int64 `json:"disabled_time,omitempty"` Reason string `json:"reason,omitempty"` KeyPreview string `json:"key_preview"` // first 10 chars of key for identification } // ManageMultiKeys handles multi-key management operations func ManageMultiKeys(c *gin.Context) { request := MultiKeyManageRequest{} err := c.ShouldBindJSON(&request) if err != nil { common.ApiError(c, err) return } channel, err := model.GetChannelById(request.ChannelId, true) if err != nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "渠道不存在", }) return } if !channel.ChannelInfo.IsMultiKey { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "该渠道不是多密钥模式", }) return } lock := model.GetChannelPollingLock(channel.Id) lock.Lock() defer lock.Unlock() switch request.Action { case "get_key_status": keys := channel.GetKeys() // Default pagination parameters page := request.Page pageSize := request.PageSize if page <= 0 { page = 1 } if pageSize <= 0 { pageSize = 50 // Default page size } // Statistics for all keys (unchanged by filtering) var enabledCount, manualDisabledCount, autoDisabledCount int // Build all key status data first var allKeyStatusList []KeyStatus for i, key := range keys { status := 1 // default enabled var disabledTime int64 var reason string if channel.ChannelInfo.MultiKeyStatusList != nil { if s, exists := channel.ChannelInfo.MultiKeyStatusList[i]; exists { status = s } } // Count for statistics (all keys) switch status { case 1: enabledCount++ case 2: manualDisabledCount++ case 3: autoDisabledCount++ } if status != 1 { if channel.ChannelInfo.MultiKeyDisabledTime != nil { disabledTime = channel.ChannelInfo.MultiKeyDisabledTime[i] } if channel.ChannelInfo.MultiKeyDisabledReason != nil { reason = channel.ChannelInfo.MultiKeyDisabledReason[i] } } // Create key preview (first 10 chars) keyPreview := key if len(key) > 10 { keyPreview = key[:10] + "..." } allKeyStatusList = append(allKeyStatusList, KeyStatus{ Index: i, Status: status, DisabledTime: disabledTime, Reason: reason, KeyPreview: keyPreview, }) } // Apply status filter if specified var filteredKeyStatusList []KeyStatus if request.Status != nil { for _, keyStatus := range allKeyStatusList { if keyStatus.Status == *request.Status { filteredKeyStatusList = append(filteredKeyStatusList, keyStatus) } } } else { filteredKeyStatusList = allKeyStatusList } // Calculate pagination based on filtered results filteredTotal := len(filteredKeyStatusList) totalPages := (filteredTotal + pageSize - 1) / pageSize if totalPages == 0 { totalPages = 1 } if page > totalPages { page = totalPages } // Calculate range for current page start := (page - 1) * pageSize end := start + pageSize if end > filteredTotal { end = filteredTotal } // Get the page data var pageKeyStatusList []KeyStatus if start < filteredTotal { pageKeyStatusList = filteredKeyStatusList[start:end] } c.JSON(http.StatusOK, gin.H{ "success": true, "message": "", "data": MultiKeyStatusResponse{ Keys: pageKeyStatusList, Total: filteredTotal, // Total of filtered results Page: page, PageSize: pageSize, TotalPages: totalPages, EnabledCount: enabledCount, // Overall statistics ManualDisabledCount: manualDisabledCount, // Overall statistics AutoDisabledCount: autoDisabledCount, // Overall statistics }, }) return case "disable_key": if request.KeyIndex == nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "未指定要禁用的密钥索引", }) return } keyIndex := *request.KeyIndex if keyIndex < 0 || keyIndex >= channel.ChannelInfo.MultiKeySize { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "密钥索引超出范围", }) return } if channel.ChannelInfo.MultiKeyStatusList == nil { channel.ChannelInfo.MultiKeyStatusList = make(map[int]int) } if channel.ChannelInfo.MultiKeyDisabledTime == nil { channel.ChannelInfo.MultiKeyDisabledTime = make(map[int]int64) } if channel.ChannelInfo.MultiKeyDisabledReason == nil { channel.ChannelInfo.MultiKeyDisabledReason = make(map[int]string) } channel.ChannelInfo.MultiKeyStatusList[keyIndex] = 2 // disabled err = channel.Update() if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": "密钥已禁用", }) return case "enable_key": if request.KeyIndex == nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "未指定要启用的密钥索引", }) return } keyIndex := *request.KeyIndex if keyIndex < 0 || keyIndex >= channel.ChannelInfo.MultiKeySize { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "密钥索引超出范围", }) return } // 从状态列表中删除该密钥的记录,使其回到默认启用状态 if channel.ChannelInfo.MultiKeyStatusList != nil { delete(channel.ChannelInfo.MultiKeyStatusList, keyIndex) } if channel.ChannelInfo.MultiKeyDisabledTime != nil { delete(channel.ChannelInfo.MultiKeyDisabledTime, keyIndex) } if channel.ChannelInfo.MultiKeyDisabledReason != nil { delete(channel.ChannelInfo.MultiKeyDisabledReason, keyIndex) } err = channel.Update() if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": "密钥已启用", }) return case "enable_all_keys": // 清空所有禁用状态,使所有密钥回到默认启用状态 var enabledCount int if channel.ChannelInfo.MultiKeyStatusList != nil { enabledCount = len(channel.ChannelInfo.MultiKeyStatusList) } channel.ChannelInfo.MultiKeyStatusList = make(map[int]int) channel.ChannelInfo.MultiKeyDisabledTime = make(map[int]int64) channel.ChannelInfo.MultiKeyDisabledReason = make(map[int]string) err = channel.Update() if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": fmt.Sprintf("已启用 %d 个密钥", enabledCount), }) return case "disable_all_keys": // 禁用所有启用的密钥 if channel.ChannelInfo.MultiKeyStatusList == nil { channel.ChannelInfo.MultiKeyStatusList = make(map[int]int) } if channel.ChannelInfo.MultiKeyDisabledTime == nil { channel.ChannelInfo.MultiKeyDisabledTime = make(map[int]int64) } if channel.ChannelInfo.MultiKeyDisabledReason == nil { channel.ChannelInfo.MultiKeyDisabledReason = make(map[int]string) } var disabledCount int for i := 0; i < channel.ChannelInfo.MultiKeySize; i++ { status := 1 // default enabled if s, exists := channel.ChannelInfo.MultiKeyStatusList[i]; exists { status = s } // 只禁用当前启用的密钥 if status == 1 { channel.ChannelInfo.MultiKeyStatusList[i] = 2 // disabled disabledCount++ } } if disabledCount == 0 { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "没有可禁用的密钥", }) return } err = channel.Update() if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": fmt.Sprintf("已禁用 %d 个密钥", disabledCount), }) return case "delete_key": if request.KeyIndex == nil { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "未指定要删除的密钥索引", }) return } keyIndex := *request.KeyIndex if keyIndex < 0 || keyIndex >= channel.ChannelInfo.MultiKeySize { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "密钥索引超出范围", }) return } keys := channel.GetKeys() var remainingKeys []string var newStatusList = make(map[int]int) var newDisabledTime = make(map[int]int64) var newDisabledReason = make(map[int]string) newIndex := 0 for i, key := range keys { // 跳过要删除的密钥 if i == keyIndex { continue } remainingKeys = append(remainingKeys, key) // 保留其他密钥的状态信息,重新索引 if channel.ChannelInfo.MultiKeyStatusList != nil { if status, exists := channel.ChannelInfo.MultiKeyStatusList[i]; exists && status != 1 { newStatusList[newIndex] = status } } if channel.ChannelInfo.MultiKeyDisabledTime != nil { if t, exists := channel.ChannelInfo.MultiKeyDisabledTime[i]; exists { newDisabledTime[newIndex] = t } } if channel.ChannelInfo.MultiKeyDisabledReason != nil { if r, exists := channel.ChannelInfo.MultiKeyDisabledReason[i]; exists { newDisabledReason[newIndex] = r } } newIndex++ } if len(remainingKeys) == 0 { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "不能删除最后一个密钥", }) return } // Update channel with remaining keys channel.Key = strings.Join(remainingKeys, "\n") channel.ChannelInfo.MultiKeySize = len(remainingKeys) channel.ChannelInfo.MultiKeyStatusList = newStatusList channel.ChannelInfo.MultiKeyDisabledTime = newDisabledTime channel.ChannelInfo.MultiKeyDisabledReason = newDisabledReason err = channel.Update() if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": "密钥已删除", }) return case "delete_disabled_keys": keys := channel.GetKeys() var remainingKeys []string var deletedCount int var newStatusList = make(map[int]int) var newDisabledTime = make(map[int]int64) var newDisabledReason = make(map[int]string) newIndex := 0 for i, key := range keys { status := 1 // default enabled if channel.ChannelInfo.MultiKeyStatusList != nil { if s, exists := channel.ChannelInfo.MultiKeyStatusList[i]; exists { status = s } } // 只删除自动禁用(status == 3)的密钥,保留启用(status == 1)和手动禁用(status == 2)的密钥 if status == 3 { deletedCount++ } else { remainingKeys = append(remainingKeys, key) // 保留非自动禁用密钥的状态信息,重新索引 if status != 1 { newStatusList[newIndex] = status if channel.ChannelInfo.MultiKeyDisabledTime != nil { if t, exists := channel.ChannelInfo.MultiKeyDisabledTime[i]; exists { newDisabledTime[newIndex] = t } } if channel.ChannelInfo.MultiKeyDisabledReason != nil { if r, exists := channel.ChannelInfo.MultiKeyDisabledReason[i]; exists { newDisabledReason[newIndex] = r } } } newIndex++ } } if deletedCount == 0 { c.JSON(http.StatusOK, gin.H{ "success": false, "message": "没有需要删除的自动禁用密钥", }) return } // Update channel with remaining keys channel.Key = strings.Join(remainingKeys, "\n") channel.ChannelInfo.MultiKeySize = len(remainingKeys) channel.ChannelInfo.MultiKeyStatusList = newStatusList channel.ChannelInfo.MultiKeyDisabledTime = newDisabledTime channel.ChannelInfo.MultiKeyDisabledReason = newDisabledReason err = channel.Update() if err != nil { common.ApiError(c, err) return } model.InitChannelCache() c.JSON(http.StatusOK, gin.H{ "success": true, "message": fmt.Sprintf("已删除 %d 个自动禁用的密钥", deletedCount), "data": deletedCount, }) return default: c.JSON(http.StatusOK, gin.H{ "success": false, "message": "不支持的操作", }) return } }