package service

import (
	"bytes"
	"encoding/json"
	"fmt"
)

// ParsedRequest 保存网关请求的预解析结果
//
// 性能优化说明：
// 原实现在多个位置重复解析请求体（Handler、Service 各解析一次）：
// 1. gateway_handler.go 解析获取 model 和 stream
// 2. gateway_service.go 再次解析获取 system、messages、metadata
// 3. GenerateSessionHash 又一次解析获取会话哈希所需字段
//
// 新实现一次解析，多处复用：
// 1. 在 Handler 层统一调用 ParseGatewayRequest 一次性解析
// 2. 将解析结果 ParsedRequest 传递给 Service 层
// 3. 避免重复 json.Unmarshal，减少 CPU 和内存开销
type ParsedRequest struct {
	Body           []byte // 原始请求体（保留用于转发）
	Model          string // 请求的模型名称
	Stream         bool   // 是否为流式请求
	MetadataUserID string // metadata.user_id（用于会话亲和）
	System         any    // system 字段内容
	Messages       []any  // messages 数组
	HasSystem      bool   // 是否包含 system 字段（包含 null 也视为显式传入）
}

// ParseGatewayRequest 解析网关请求体并返回结构化结果
// 性能优化：一次解析提取所有需要的字段，避免重复 Unmarshal
func ParseGatewayRequest(body []byte) (*ParsedRequest, error) {
	var req map[string]any
	if err := json.Unmarshal(body, &req); err != nil {
		return nil, err
	}

	parsed := &ParsedRequest{
		Body: body,
	}

	if rawModel, exists := req["model"]; exists {
		model, ok := rawModel.(string)
		if !ok {
			return nil, fmt.Errorf("invalid model field type")
		}
		parsed.Model = model
	}
	if rawStream, exists := req["stream"]; exists {
		stream, ok := rawStream.(bool)
		if !ok {
			return nil, fmt.Errorf("invalid stream field type")
		}
		parsed.Stream = stream
	}
	if metadata, ok := req["metadata"].(map[string]any); ok {
		if userID, ok := metadata["user_id"].(string); ok {
			parsed.MetadataUserID = userID
		}
	}
	// system 字段只要存在就视为显式提供（即使为 null），
	// 以避免客户端传 null 时被默认 system 误注入。
	if system, ok := req["system"]; ok {
		parsed.HasSystem = true
		parsed.System = system
	}
	if messages, ok := req["messages"].([]any); ok {
		parsed.Messages = messages
	}

	return parsed, nil
}

// FilterThinkingBlocks removes thinking blocks from request body
// Returns filtered body or original body if filtering fails (fail-safe)
// This prevents 400 errors from invalid thinking block signatures
func FilterThinkingBlocks(body []byte) []byte {
	// Fast path: if body doesn't contain "thinking", skip parsing
	if !bytes.Contains(body, []byte("thinking")) {
		return body
	}

	var req map[string]any
	if err := json.Unmarshal(body, &req); err != nil {
		return body // Return original on parse error
	}

	messages, ok := req["messages"].([]any)
	if !ok {
		return body // No messages array
	}

	filtered := false
	for _, msg := range messages {
		msgMap, ok := msg.(map[string]any)
		if !ok {
			continue
		}

		content, ok := msgMap["content"].([]any)
		if !ok {
			continue
		}

		// Filter thinking blocks from content array
		newContent := make([]any, 0, len(content))
		filteredThisMessage := false
		for _, block := range content {
			blockMap, ok := block.(map[string]any)
			if !ok {
				newContent = append(newContent, block)
				continue
			}

			blockType, _ := blockMap["type"].(string)
			// Explicit Anthropic-style thinking block: {"type":"thinking", ...}
			if blockType == "thinking" {
				filtered = true
				filteredThisMessage = true
				continue // Skip thinking blocks
			}

			// Some clients send the "thinking" object without a "type" discriminator.
			// Vertex/Claude still expects a signature for any thinking block, so we drop it.
			// We intentionally do not drop other typed blocks (e.g. tool_use) that might
			// legitimately contain a "thinking" key inside their payload.
			if blockType == "" {
				if _, hasThinking := blockMap["thinking"]; hasThinking {
					filtered = true
					filteredThisMessage = true
					continue // Skip thinking blocks
				}
			}

			newContent = append(newContent, block)
		}

		if filteredThisMessage {
			msgMap["content"] = newContent
		}
	}

	if !filtered {
		return body // No changes needed
	}

	// Re-serialize
	newBody, err := json.Marshal(req)
	if err != nil {
		return body // Return original on marshal error
	}

	return newBody
}