package handler import ( "bytes" "context" "fmt" "net/http" "os" "path/filepath" "strconv" "strings" "sync" "time" "cyberstrike-ai/internal/config" "cyberstrike-ai/internal/mcp" "cyberstrike-ai/internal/security" "github.com/gin-gonic/gin" "go.uber.org/zap" "gopkg.in/yaml.v3" ) // KnowledgeToolRegistrar 知识库工具注册器接口 type KnowledgeToolRegistrar func() error // ConfigHandler 配置处理器 type ConfigHandler struct { configPath string config *config.Config mcpServer *mcp.Server executor *security.Executor agent AgentUpdater // Agent接口,用于更新Agent配置 attackChainHandler AttackChainUpdater // 攻击链处理器接口,用于更新配置 externalMCPMgr *mcp.ExternalMCPManager // 外部MCP管理器 knowledgeToolRegistrar KnowledgeToolRegistrar // 知识库工具注册器(可选) logger *zap.Logger mu sync.RWMutex } // AttackChainUpdater 攻击链处理器更新接口 type AttackChainUpdater interface { UpdateConfig(cfg *config.OpenAIConfig) } // AgentUpdater Agent更新接口 type AgentUpdater interface { UpdateConfig(cfg *config.OpenAIConfig) UpdateMaxIterations(maxIterations int) } // NewConfigHandler 创建新的配置处理器 func NewConfigHandler(configPath string, cfg *config.Config, mcpServer *mcp.Server, executor *security.Executor, agent AgentUpdater, attackChainHandler AttackChainUpdater, externalMCPMgr *mcp.ExternalMCPManager, logger *zap.Logger) *ConfigHandler { return &ConfigHandler{ configPath: configPath, config: cfg, mcpServer: mcpServer, executor: executor, agent: agent, attackChainHandler: attackChainHandler, externalMCPMgr: externalMCPMgr, logger: logger, } } // SetKnowledgeToolRegistrar 设置知识库工具注册器 func (h *ConfigHandler) SetKnowledgeToolRegistrar(registrar KnowledgeToolRegistrar) { h.mu.Lock() defer h.mu.Unlock() h.knowledgeToolRegistrar = registrar } // GetConfigResponse 获取配置响应 type GetConfigResponse struct { OpenAI config.OpenAIConfig `json:"openai"` MCP config.MCPConfig `json:"mcp"` Tools []ToolConfigInfo `json:"tools"` Agent config.AgentConfig `json:"agent"` Knowledge config.KnowledgeConfig `json:"knowledge"` } // ToolConfigInfo 工具配置信息 type ToolConfigInfo struct { Name string `json:"name"` Description string `json:"description"` Enabled bool `json:"enabled"` IsExternal bool `json:"is_external,omitempty"` // 是否为外部MCP工具 ExternalMCP string `json:"external_mcp,omitempty"` // 外部MCP名称(如果是外部工具) } // GetConfig 获取当前配置 func (h *ConfigHandler) GetConfig(c *gin.Context) { h.mu.RLock() defer h.mu.RUnlock() // 获取工具列表(包含内部和外部工具) // 首先从配置文件获取工具 configToolMap := make(map[string]bool) tools := make([]ToolConfigInfo, 0, len(h.config.Security.Tools)) for _, tool := range h.config.Security.Tools { configToolMap[tool.Name] = true tools = append(tools, ToolConfigInfo{ Name: tool.Name, Description: tool.ShortDescription, Enabled: tool.Enabled, IsExternal: false, }) // 如果没有简短描述,使用详细描述的前100个字符 if tools[len(tools)-1].Description == "" { desc := tool.Description if len(desc) > 100 { desc = desc[:100] + "..." } tools[len(tools)-1].Description = desc } } // 从MCP服务器获取所有已注册的工具(包括直接注册的工具,如知识检索工具) if h.mcpServer != nil { mcpTools := h.mcpServer.GetAllTools() for _, mcpTool := range mcpTools { // 跳过已经在配置文件中的工具(避免重复) if configToolMap[mcpTool.Name] { continue } // 添加直接注册到MCP服务器的工具(如知识检索工具) description := mcpTool.ShortDescription if description == "" { description = mcpTool.Description } if len(description) > 100 { description = description[:100] + "..." } tools = append(tools, ToolConfigInfo{ Name: mcpTool.Name, Description: description, Enabled: true, // 直接注册的工具默认启用 IsExternal: false, }) } } // 获取外部MCP工具 if h.externalMCPMgr != nil { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) defer cancel() externalTools, err := h.externalMCPMgr.GetAllTools(ctx) if err == nil { externalMCPConfigs := h.externalMCPMgr.GetConfigs() for _, externalTool := range externalTools { var mcpName, actualToolName string if idx := strings.Index(externalTool.Name, "::"); idx > 0 { mcpName = externalTool.Name[:idx] actualToolName = externalTool.Name[idx+2:] } else { continue } enabled := false if cfg, exists := externalMCPConfigs[mcpName]; exists { // 首先检查外部MCP是否启用 if !cfg.ExternalMCPEnable && !(cfg.Enabled && !cfg.Disabled) { enabled = false // MCP未启用,所有工具都禁用 } else { // MCP已启用,检查单个工具的启用状态 // 如果ToolEnabled为空或未设置该工具,默认为启用(向后兼容) if cfg.ToolEnabled == nil { enabled = true // 未设置工具状态,默认为启用 } else if toolEnabled, exists := cfg.ToolEnabled[actualToolName]; exists { enabled = toolEnabled // 使用配置的工具状态 } else { enabled = true // 工具未在配置中,默认为启用 } } } client, exists := h.externalMCPMgr.GetClient(mcpName) if !exists || !client.IsConnected() { enabled = false } description := externalTool.ShortDescription if description == "" { description = externalTool.Description } if len(description) > 100 { description = description[:100] + "..." } tools = append(tools, ToolConfigInfo{ Name: actualToolName, Description: description, Enabled: enabled, IsExternal: true, ExternalMCP: mcpName, }) } } } c.JSON(http.StatusOK, GetConfigResponse{ OpenAI: h.config.OpenAI, MCP: h.config.MCP, Tools: tools, Agent: h.config.Agent, Knowledge: h.config.Knowledge, }) } // GetToolsResponse 获取工具列表响应(分页) type GetToolsResponse struct { Tools []ToolConfigInfo `json:"tools"` Total int `json:"total"` Page int `json:"page"` PageSize int `json:"page_size"` TotalPages int `json:"total_pages"` } // GetTools 获取工具列表(支持分页和搜索) func (h *ConfigHandler) GetTools(c *gin.Context) { h.mu.RLock() defer h.mu.RUnlock() // 解析分页参数 page := 1 pageSize := 20 if pageStr := c.Query("page"); pageStr != "" { if p, err := strconv.Atoi(pageStr); err == nil && p > 0 { page = p } } if pageSizeStr := c.Query("page_size"); pageSizeStr != "" { if ps, err := strconv.Atoi(pageSizeStr); err == nil && ps > 0 && ps <= 100 { pageSize = ps } } // 解析搜索参数 searchTerm := c.Query("search") searchTermLower := "" if searchTerm != "" { searchTermLower = strings.ToLower(searchTerm) } // 获取所有内部工具并应用搜索过滤 configToolMap := make(map[string]bool) allTools := make([]ToolConfigInfo, 0, len(h.config.Security.Tools)) for _, tool := range h.config.Security.Tools { configToolMap[tool.Name] = true toolInfo := ToolConfigInfo{ Name: tool.Name, Description: tool.ShortDescription, Enabled: tool.Enabled, IsExternal: false, } // 如果没有简短描述,使用详细描述的前100个字符 if toolInfo.Description == "" { desc := tool.Description if len(desc) > 100 { desc = desc[:100] + "..." } toolInfo.Description = desc } // 如果有关键词,进行搜索过滤 if searchTermLower != "" { nameLower := strings.ToLower(toolInfo.Name) descLower := strings.ToLower(toolInfo.Description) if !strings.Contains(nameLower, searchTermLower) && !strings.Contains(descLower, searchTermLower) { continue // 不匹配,跳过 } } allTools = append(allTools, toolInfo) } // 从MCP服务器获取所有已注册的工具(包括直接注册的工具,如知识检索工具) if h.mcpServer != nil { mcpTools := h.mcpServer.GetAllTools() for _, mcpTool := range mcpTools { // 跳过已经在配置文件中的工具(避免重复) if configToolMap[mcpTool.Name] { continue } description := mcpTool.ShortDescription if description == "" { description = mcpTool.Description } if len(description) > 100 { description = description[:100] + "..." } toolInfo := ToolConfigInfo{ Name: mcpTool.Name, Description: description, Enabled: true, // 直接注册的工具默认启用 IsExternal: false, } // 如果有关键词,进行搜索过滤 if searchTermLower != "" { nameLower := strings.ToLower(toolInfo.Name) descLower := strings.ToLower(toolInfo.Description) if !strings.Contains(nameLower, searchTermLower) && !strings.Contains(descLower, searchTermLower) { continue // 不匹配,跳过 } } allTools = append(allTools, toolInfo) } } // 获取外部MCP工具 if h.externalMCPMgr != nil { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) defer cancel() externalTools, err := h.externalMCPMgr.GetAllTools(ctx) if err != nil { h.logger.Warn("获取外部MCP工具失败", zap.Error(err)) } else { // 获取外部MCP配置,用于判断启用状态 externalMCPConfigs := h.externalMCPMgr.GetConfigs() for _, externalTool := range externalTools { // 解析工具名称:mcpName::toolName var mcpName, actualToolName string if idx := strings.Index(externalTool.Name, "::"); idx > 0 { mcpName = externalTool.Name[:idx] actualToolName = externalTool.Name[idx+2:] } else { continue // 跳过格式不正确的工具 } // 获取外部工具的启用状态 enabled := false if cfg, exists := externalMCPConfigs[mcpName]; exists { // 首先检查外部MCP是否启用 if !cfg.ExternalMCPEnable && !(cfg.Enabled && !cfg.Disabled) { enabled = false // MCP未启用,所有工具都禁用 } else { // MCP已启用,检查单个工具的启用状态 // 如果ToolEnabled为空或未设置该工具,默认为启用(向后兼容) if cfg.ToolEnabled == nil { enabled = true // 未设置工具状态,默认为启用 } else if toolEnabled, exists := cfg.ToolEnabled[actualToolName]; exists { enabled = toolEnabled // 使用配置的工具状态 } else { enabled = true // 工具未在配置中,默认为启用 } } } // 检查外部MCP是否已连接 client, exists := h.externalMCPMgr.GetClient(mcpName) if !exists || !client.IsConnected() { enabled = false // 未连接时视为禁用 } description := externalTool.ShortDescription if description == "" { description = externalTool.Description } if len(description) > 100 { description = description[:100] + "..." } // 如果有关键词,进行搜索过滤 if searchTermLower != "" { nameLower := strings.ToLower(actualToolName) descLower := strings.ToLower(description) if !strings.Contains(nameLower, searchTermLower) && !strings.Contains(descLower, searchTermLower) { continue // 不匹配,跳过 } } allTools = append(allTools, ToolConfigInfo{ Name: actualToolName, // 显示实际工具名称,不带前缀 Description: description, Enabled: enabled, IsExternal: true, ExternalMCP: mcpName, }) } } } total := len(allTools) totalPages := (total + pageSize - 1) / pageSize if totalPages == 0 { totalPages = 1 } // 计算分页范围 offset := (page - 1) * pageSize end := offset + pageSize if end > total { end = total } var tools []ToolConfigInfo if offset < total { tools = allTools[offset:end] } else { tools = []ToolConfigInfo{} } c.JSON(http.StatusOK, GetToolsResponse{ Tools: tools, Total: total, Page: page, PageSize: pageSize, TotalPages: totalPages, }) } // UpdateConfigRequest 更新配置请求 type UpdateConfigRequest struct { OpenAI *config.OpenAIConfig `json:"openai,omitempty"` MCP *config.MCPConfig `json:"mcp,omitempty"` Tools []ToolEnableStatus `json:"tools,omitempty"` Agent *config.AgentConfig `json:"agent,omitempty"` Knowledge *config.KnowledgeConfig `json:"knowledge,omitempty"` } // ToolEnableStatus 工具启用状态 type ToolEnableStatus struct { Name string `json:"name"` Enabled bool `json:"enabled"` IsExternal bool `json:"is_external,omitempty"` // 是否为外部MCP工具 ExternalMCP string `json:"external_mcp,omitempty"` // 外部MCP名称(如果是外部工具) } // UpdateConfig 更新配置 func (h *ConfigHandler) UpdateConfig(c *gin.Context) { var req UpdateConfigRequest if err := c.ShouldBindJSON(&req); err != nil { c.JSON(http.StatusBadRequest, gin.H{"error": "无效的请求参数: " + err.Error()}) return } h.mu.Lock() defer h.mu.Unlock() // 更新OpenAI配置 if req.OpenAI != nil { h.config.OpenAI = *req.OpenAI h.logger.Info("更新OpenAI配置", zap.String("base_url", h.config.OpenAI.BaseURL), zap.String("model", h.config.OpenAI.Model), ) } // 更新MCP配置 if req.MCP != nil { h.config.MCP = *req.MCP h.logger.Info("更新MCP配置", zap.Bool("enabled", h.config.MCP.Enabled), zap.String("host", h.config.MCP.Host), zap.Int("port", h.config.MCP.Port), ) } // 更新Agent配置 if req.Agent != nil { h.config.Agent = *req.Agent h.logger.Info("更新Agent配置", zap.Int("max_iterations", h.config.Agent.MaxIterations), ) } // 更新Knowledge配置 if req.Knowledge != nil { h.config.Knowledge = *req.Knowledge h.logger.Info("更新Knowledge配置", zap.Bool("enabled", h.config.Knowledge.Enabled), zap.String("base_path", h.config.Knowledge.BasePath), zap.String("embedding_model", h.config.Knowledge.Embedding.Model), zap.Int("retrieval_top_k", h.config.Knowledge.Retrieval.TopK), zap.Float64("similarity_threshold", h.config.Knowledge.Retrieval.SimilarityThreshold), zap.Float64("hybrid_weight", h.config.Knowledge.Retrieval.HybridWeight), ) } // 更新工具启用状态 if req.Tools != nil { // 分离内部工具和外部工具 internalToolMap := make(map[string]bool) // 外部工具状态:MCP名称 -> 工具名称 -> 启用状态 externalMCPToolMap := make(map[string]map[string]bool) for _, toolStatus := range req.Tools { if toolStatus.IsExternal && toolStatus.ExternalMCP != "" { // 外部工具:保存每个工具的独立状态 mcpName := toolStatus.ExternalMCP if externalMCPToolMap[mcpName] == nil { externalMCPToolMap[mcpName] = make(map[string]bool) } externalMCPToolMap[mcpName][toolStatus.Name] = toolStatus.Enabled } else { // 内部工具 internalToolMap[toolStatus.Name] = toolStatus.Enabled } } // 更新内部工具状态 for i := range h.config.Security.Tools { if enabled, ok := internalToolMap[h.config.Security.Tools[i].Name]; ok { h.config.Security.Tools[i].Enabled = enabled h.logger.Info("更新工具启用状态", zap.String("tool", h.config.Security.Tools[i].Name), zap.Bool("enabled", enabled), ) } } // 更新外部MCP工具状态 if h.externalMCPMgr != nil { for mcpName, toolStates := range externalMCPToolMap { // 更新配置中的工具启用状态 if h.config.ExternalMCP.Servers == nil { h.config.ExternalMCP.Servers = make(map[string]config.ExternalMCPServerConfig) } cfg, exists := h.config.ExternalMCP.Servers[mcpName] if !exists { h.logger.Warn("外部MCP配置不存在", zap.String("mcp", mcpName)) continue } // 初始化ToolEnabled map if cfg.ToolEnabled == nil { cfg.ToolEnabled = make(map[string]bool) } // 更新每个工具的启用状态 for toolName, enabled := range toolStates { cfg.ToolEnabled[toolName] = enabled h.logger.Info("更新外部工具启用状态", zap.String("mcp", mcpName), zap.String("tool", toolName), zap.Bool("enabled", enabled), ) } // 检查是否有任何工具启用,如果有则启用MCP hasEnabledTool := false for _, enabled := range cfg.ToolEnabled { if enabled { hasEnabledTool = true break } } // 如果MCP之前未启用,但现在有工具启用,则启用MCP // 如果MCP之前已启用,保持启用状态(允许部分工具禁用) if !cfg.ExternalMCPEnable && hasEnabledTool { cfg.ExternalMCPEnable = true h.logger.Info("自动启用外部MCP(因为有工具启用)", zap.String("mcp", mcpName)) } h.config.ExternalMCP.Servers[mcpName] = cfg } // 同步更新 externalMCPMgr 中的配置,确保 GetConfigs() 返回最新配置 // 在循环外部统一更新,避免重复调用 h.externalMCPMgr.LoadConfigs(&h.config.ExternalMCP) // 处理MCP连接状态(异步启动,避免阻塞) for mcpName := range externalMCPToolMap { cfg := h.config.ExternalMCP.Servers[mcpName] // 如果MCP需要启用,确保客户端已启动 if cfg.ExternalMCPEnable { // 启动外部MCP(如果未启动)- 异步执行,避免阻塞 client, exists := h.externalMCPMgr.GetClient(mcpName) if !exists || !client.IsConnected() { go func(name string) { if err := h.externalMCPMgr.StartClient(name); err != nil { h.logger.Warn("启动外部MCP失败", zap.String("mcp", name), zap.Error(err), ) } else { h.logger.Info("启动外部MCP", zap.String("mcp", name), ) } }(mcpName) } } } } } // 保存配置到文件 if err := h.saveConfig(); err != nil { h.logger.Error("保存配置失败", zap.Error(err)) c.JSON(http.StatusInternalServerError, gin.H{"error": "保存配置失败: " + err.Error()}) return } c.JSON(http.StatusOK, gin.H{"message": "配置已更新"}) } // ApplyConfig 应用配置(重新加载并重启相关服务) func (h *ConfigHandler) ApplyConfig(c *gin.Context) { h.mu.Lock() defer h.mu.Unlock() // 重新注册工具(根据新的启用状态) h.logger.Info("重新注册工具") // 清空MCP服务器中的工具 h.mcpServer.ClearTools() // 重新注册安全工具 h.executor.RegisterTools(h.mcpServer) // 如果知识库启用,重新注册知识库工具 if h.config.Knowledge.Enabled && h.knowledgeToolRegistrar != nil { h.logger.Info("重新注册知识库工具") if err := h.knowledgeToolRegistrar(); err != nil { h.logger.Error("重新注册知识库工具失败", zap.Error(err)) } else { h.logger.Info("知识库工具已重新注册") } } // 更新Agent的OpenAI配置 if h.agent != nil { h.agent.UpdateConfig(&h.config.OpenAI) h.agent.UpdateMaxIterations(h.config.Agent.MaxIterations) h.logger.Info("Agent配置已更新") } // 更新AttackChainHandler的OpenAI配置 if h.attackChainHandler != nil { h.attackChainHandler.UpdateConfig(&h.config.OpenAI) h.logger.Info("AttackChainHandler配置已更新") } h.logger.Info("配置已应用", zap.Int("tools_count", len(h.config.Security.Tools)), ) c.JSON(http.StatusOK, gin.H{ "message": "配置已应用", "tools_count": len(h.config.Security.Tools), }) } // saveConfig 保存配置到文件 func (h *ConfigHandler) saveConfig() error { // 读取现有配置文件并创建备份 data, err := os.ReadFile(h.configPath) if err != nil { return fmt.Errorf("读取配置文件失败: %w", err) } if err := os.WriteFile(h.configPath+".backup", data, 0644); err != nil { h.logger.Warn("创建配置备份失败", zap.Error(err)) } root, err := loadYAMLDocument(h.configPath) if err != nil { return fmt.Errorf("解析配置文件失败: %w", err) } updateAgentConfig(root, h.config.Agent.MaxIterations) updateMCPConfig(root, h.config.MCP) updateOpenAIConfig(root, h.config.OpenAI) updateKnowledgeConfig(root, h.config.Knowledge) // 更新外部MCP配置(使用external_mcp.go中的函数,同一包中可直接调用) // 读取原始配置以保持向后兼容 originalConfigs := make(map[string]map[string]bool) externalMCPNode := findMapValue(root, "external_mcp") if externalMCPNode != nil && externalMCPNode.Kind == yaml.MappingNode { serversNode := findMapValue(externalMCPNode, "servers") if serversNode != nil && serversNode.Kind == yaml.MappingNode { for i := 0; i < len(serversNode.Content); i += 2 { if i+1 >= len(serversNode.Content) { break } nameNode := serversNode.Content[i] serverNode := serversNode.Content[i+1] if nameNode.Kind == yaml.ScalarNode && serverNode.Kind == yaml.MappingNode { serverName := nameNode.Value originalConfigs[serverName] = make(map[string]bool) if enabledVal := findBoolInMap(serverNode, "enabled"); enabledVal != nil { originalConfigs[serverName]["enabled"] = *enabledVal } if disabledVal := findBoolInMap(serverNode, "disabled"); disabledVal != nil { originalConfigs[serverName]["disabled"] = *disabledVal } } } } } updateExternalMCPConfig(root, h.config.ExternalMCP, originalConfigs) if err := writeYAMLDocument(h.configPath, root); err != nil { return fmt.Errorf("保存配置文件失败: %w", err) } // 更新工具配置文件中的enabled状态 if h.config.Security.ToolsDir != "" { configDir := filepath.Dir(h.configPath) toolsDir := h.config.Security.ToolsDir if !filepath.IsAbs(toolsDir) { toolsDir = filepath.Join(configDir, toolsDir) } for _, tool := range h.config.Security.Tools { toolFile := filepath.Join(toolsDir, tool.Name+".yaml") // 检查文件是否存在 if _, err := os.Stat(toolFile); os.IsNotExist(err) { // 尝试.yml扩展名 toolFile = filepath.Join(toolsDir, tool.Name+".yml") if _, err := os.Stat(toolFile); os.IsNotExist(err) { h.logger.Warn("工具配置文件不存在", zap.String("tool", tool.Name)) continue } } toolDoc, err := loadYAMLDocument(toolFile) if err != nil { h.logger.Warn("解析工具配置失败", zap.String("tool", tool.Name), zap.Error(err)) continue } setBoolInMap(toolDoc.Content[0], "enabled", tool.Enabled) if err := writeYAMLDocument(toolFile, toolDoc); err != nil { h.logger.Warn("保存工具配置文件失败", zap.String("tool", tool.Name), zap.Error(err)) continue } h.logger.Info("更新工具配置", zap.String("tool", tool.Name), zap.Bool("enabled", tool.Enabled)) } } h.logger.Info("配置已保存", zap.String("path", h.configPath)) return nil } func loadYAMLDocument(path string) (*yaml.Node, error) { data, err := os.ReadFile(path) if err != nil { return nil, err } if len(bytes.TrimSpace(data)) == 0 { return newEmptyYAMLDocument(), nil } var doc yaml.Node if err := yaml.Unmarshal(data, &doc); err != nil { return nil, err } if doc.Kind != yaml.DocumentNode || len(doc.Content) == 0 { return newEmptyYAMLDocument(), nil } if doc.Content[0].Kind != yaml.MappingNode { root := &yaml.Node{Kind: yaml.MappingNode, Tag: "!!map"} doc.Content = []*yaml.Node{root} } return &doc, nil } func newEmptyYAMLDocument() *yaml.Node { root := &yaml.Node{ Kind: yaml.DocumentNode, Content: []*yaml.Node{{Kind: yaml.MappingNode, Tag: "!!map"}}, } return root } func writeYAMLDocument(path string, doc *yaml.Node) error { var buf bytes.Buffer encoder := yaml.NewEncoder(&buf) encoder.SetIndent(2) if err := encoder.Encode(doc); err != nil { return err } if err := encoder.Close(); err != nil { return err } return os.WriteFile(path, buf.Bytes(), 0644) } func updateAgentConfig(doc *yaml.Node, maxIterations int) { root := doc.Content[0] agentNode := ensureMap(root, "agent") setIntInMap(agentNode, "max_iterations", maxIterations) } func updateMCPConfig(doc *yaml.Node, cfg config.MCPConfig) { root := doc.Content[0] mcpNode := ensureMap(root, "mcp") setBoolInMap(mcpNode, "enabled", cfg.Enabled) setStringInMap(mcpNode, "host", cfg.Host) setIntInMap(mcpNode, "port", cfg.Port) } func updateOpenAIConfig(doc *yaml.Node, cfg config.OpenAIConfig) { root := doc.Content[0] openaiNode := ensureMap(root, "openai") setStringInMap(openaiNode, "api_key", cfg.APIKey) setStringInMap(openaiNode, "base_url", cfg.BaseURL) setStringInMap(openaiNode, "model", cfg.Model) } func updateKnowledgeConfig(doc *yaml.Node, cfg config.KnowledgeConfig) { root := doc.Content[0] knowledgeNode := ensureMap(root, "knowledge") setBoolInMap(knowledgeNode, "enabled", cfg.Enabled) setStringInMap(knowledgeNode, "base_path", cfg.BasePath) // 更新嵌入配置 embeddingNode := ensureMap(knowledgeNode, "embedding") setStringInMap(embeddingNode, "provider", cfg.Embedding.Provider) setStringInMap(embeddingNode, "model", cfg.Embedding.Model) if cfg.Embedding.BaseURL != "" { setStringInMap(embeddingNode, "base_url", cfg.Embedding.BaseURL) } if cfg.Embedding.APIKey != "" { setStringInMap(embeddingNode, "api_key", cfg.Embedding.APIKey) } // 更新检索配置 retrievalNode := ensureMap(knowledgeNode, "retrieval") setIntInMap(retrievalNode, "top_k", cfg.Retrieval.TopK) setFloatInMap(retrievalNode, "similarity_threshold", cfg.Retrieval.SimilarityThreshold) setFloatInMap(retrievalNode, "hybrid_weight", cfg.Retrieval.HybridWeight) } func ensureMap(parent *yaml.Node, path ...string) *yaml.Node { current := parent for _, key := range path { value := findMapValue(current, key) if value == nil { keyNode := &yaml.Node{Kind: yaml.ScalarNode, Tag: "!!str", Value: key} mapNode := &yaml.Node{Kind: yaml.MappingNode, Tag: "!!map"} current.Content = append(current.Content, keyNode, mapNode) value = mapNode } if value.Kind != yaml.MappingNode { value.Kind = yaml.MappingNode value.Tag = "!!map" value.Style = 0 value.Content = nil } current = value } return current } func findMapValue(mapNode *yaml.Node, key string) *yaml.Node { if mapNode == nil || mapNode.Kind != yaml.MappingNode { return nil } for i := 0; i < len(mapNode.Content); i += 2 { if mapNode.Content[i].Value == key { return mapNode.Content[i+1] } } return nil } func ensureKeyValue(mapNode *yaml.Node, key string) (*yaml.Node, *yaml.Node) { if mapNode == nil || mapNode.Kind != yaml.MappingNode { return nil, nil } for i := 0; i < len(mapNode.Content); i += 2 { if mapNode.Content[i].Value == key { return mapNode.Content[i], mapNode.Content[i+1] } } keyNode := &yaml.Node{Kind: yaml.ScalarNode, Tag: "!!str", Value: key} valueNode := &yaml.Node{} mapNode.Content = append(mapNode.Content, keyNode, valueNode) return keyNode, valueNode } func setStringInMap(mapNode *yaml.Node, key, value string) { _, valueNode := ensureKeyValue(mapNode, key) valueNode.Kind = yaml.ScalarNode valueNode.Tag = "!!str" valueNode.Style = 0 valueNode.Value = value } func setIntInMap(mapNode *yaml.Node, key string, value int) { _, valueNode := ensureKeyValue(mapNode, key) valueNode.Kind = yaml.ScalarNode valueNode.Tag = "!!int" valueNode.Style = 0 valueNode.Value = fmt.Sprintf("%d", value) } func findBoolInMap(mapNode *yaml.Node, key string) *bool { if mapNode == nil || mapNode.Kind != yaml.MappingNode { return nil } for i := 0; i < len(mapNode.Content); i += 2 { if i+1 >= len(mapNode.Content) { break } keyNode := mapNode.Content[i] valueNode := mapNode.Content[i+1] if keyNode.Kind == yaml.ScalarNode && keyNode.Value == key { if valueNode.Kind == yaml.ScalarNode { if valueNode.Value == "true" { result := true return &result } else if valueNode.Value == "false" { result := false return &result } } return nil } } return nil } func setBoolInMap(mapNode *yaml.Node, key string, value bool) { _, valueNode := ensureKeyValue(mapNode, key) valueNode.Kind = yaml.ScalarNode valueNode.Tag = "!!bool" valueNode.Style = 0 if value { valueNode.Value = "true" } else { valueNode.Value = "false" } } func setFloatInMap(mapNode *yaml.Node, key string, value float64) { _, valueNode := ensureKeyValue(mapNode, key) valueNode.Kind = yaml.ScalarNode valueNode.Tag = "!!float" valueNode.Style = 0 valueNode.Value = fmt.Sprintf("%g", value) }