package protocol import ( "bufio" "encoding/binary" "fmt" "io" "net" "sync" "time" "github.com/seaweedfs/seaweedfs/weed/mq/kafka/consumer" "github.com/seaweedfs/seaweedfs/weed/mq/kafka/integration" "github.com/seaweedfs/seaweedfs/weed/mq/kafka/offset" ) // TopicInfo holds basic information about a topic type TopicInfo struct { Name string Partitions int32 CreatedAt int64 } // TopicPartitionKey uniquely identifies a topic partition type TopicPartitionKey struct { Topic string Partition int32 } // Handler processes Kafka protocol requests from clients type Handler struct { // Legacy in-memory mode (for backward compatibility and tests) topicsMu sync.RWMutex topics map[string]*TopicInfo // topic name -> topic info ledgersMu sync.RWMutex ledgers map[TopicPartitionKey]*offset.Ledger // topic-partition -> offset ledger // SeaweedMQ integration (optional, for production use) seaweedMQHandler *integration.SeaweedMQHandler useSeaweedMQ bool // Consumer group coordination groupCoordinator *consumer.GroupCoordinator // Dynamic broker address for Metadata responses brokerHost string brokerPort int } // NewHandler creates a new handler in legacy in-memory mode func NewHandler() *Handler { return &Handler{ topics: make(map[string]*TopicInfo), ledgers: make(map[TopicPartitionKey]*offset.Ledger), useSeaweedMQ: false, groupCoordinator: consumer.NewGroupCoordinator(), brokerHost: "localhost", // default fallback brokerPort: 9092, // default fallback } } // NewSeaweedMQHandler creates a new handler with SeaweedMQ integration func NewSeaweedMQHandler(agentAddress string) (*Handler, error) { smqHandler, err := integration.NewSeaweedMQHandler(agentAddress) if err != nil { return nil, err } return &Handler{ topics: make(map[string]*TopicInfo), // Keep for compatibility ledgers: make(map[TopicPartitionKey]*offset.Ledger), // Keep for compatibility seaweedMQHandler: smqHandler, useSeaweedMQ: true, groupCoordinator: consumer.NewGroupCoordinator(), }, nil } // Close shuts down the handler and all connections func (h *Handler) Close() error { // Close group coordinator if h.groupCoordinator != nil { h.groupCoordinator.Close() } // Close SeaweedMQ handler if present if h.useSeaweedMQ && h.seaweedMQHandler != nil { return h.seaweedMQHandler.Close() } return nil } // GetOrCreateLedger returns the offset ledger for a topic-partition, creating it if needed func (h *Handler) GetOrCreateLedger(topic string, partition int32) *offset.Ledger { key := TopicPartitionKey{Topic: topic, Partition: partition} // First try to get existing ledger with read lock h.ledgersMu.RLock() ledger, exists := h.ledgers[key] h.ledgersMu.RUnlock() if exists { return ledger } // Create new ledger with write lock h.ledgersMu.Lock() defer h.ledgersMu.Unlock() // Double-check after acquiring write lock if ledger, exists := h.ledgers[key]; exists { return ledger } // Create and store new ledger ledger = offset.NewLedger() h.ledgers[key] = ledger return ledger } // GetLedger returns the offset ledger for a topic-partition, or nil if not found func (h *Handler) GetLedger(topic string, partition int32) *offset.Ledger { key := TopicPartitionKey{Topic: topic, Partition: partition} h.ledgersMu.RLock() defer h.ledgersMu.RUnlock() return h.ledgers[key] } // SetBrokerAddress updates the broker address used in Metadata responses func (h *Handler) SetBrokerAddress(host string, port int) { h.brokerHost = host h.brokerPort = port } // HandleConn processes a single client connection func (h *Handler) HandleConn(conn net.Conn) error { connectionID := fmt.Sprintf("%s->%s", conn.RemoteAddr(), conn.LocalAddr()) defer func() { fmt.Printf("DEBUG: [%s] Connection closing\n", connectionID) conn.Close() }() fmt.Printf("DEBUG: [%s] New connection established\n", connectionID) r := bufio.NewReader(conn) w := bufio.NewWriter(conn) defer w.Flush() for { // Read message size (4 bytes) var sizeBytes [4]byte if _, err := io.ReadFull(r, sizeBytes[:]); err != nil { if err == io.EOF { fmt.Printf("DEBUG: Client closed connection (clean EOF)\n") return nil // clean disconnect } fmt.Printf("DEBUG: Error reading message size: %v\n", err) return fmt.Errorf("read size: %w", err) } size := binary.BigEndian.Uint32(sizeBytes[:]) if size == 0 || size > 1024*1024 { // 1MB limit // TODO: Consider making message size limit configurable // 1MB might be too restrictive for some use cases // Kafka default max.message.bytes is often higher return fmt.Errorf("invalid message size: %d", size) } // Read the message messageBuf := make([]byte, size) if _, err := io.ReadFull(r, messageBuf); err != nil { return fmt.Errorf("read message: %w", err) } // Parse at least the basic header to get API key and correlation ID if len(messageBuf) < 8 { return fmt.Errorf("message too short") } apiKey := binary.BigEndian.Uint16(messageBuf[0:2]) apiVersion := binary.BigEndian.Uint16(messageBuf[2:4]) correlationID := binary.BigEndian.Uint32(messageBuf[4:8]) // DEBUG: Log all incoming requests (minimal for performance) apiName := getAPIName(apiKey) requestStart := time.Now() fmt.Printf("DEBUG: API %d (%s) v%d - Correlation: %d, Size: %d\n", apiKey, apiName, apiVersion, correlationID, size) // TODO: IMPORTANT - API version validation is missing // Different API versions have different request/response formats // Need to validate apiVersion against supported versions for each API // Currently ignoring apiVersion completely which may cause parsing errors // Handle the request based on API key var response []byte var err error switch apiKey { case 18: // ApiVersions response, err = h.handleApiVersions(correlationID) case 3: // Metadata response, err = h.handleMetadata(correlationID, messageBuf[8:]) // skip header case 2: // ListOffsets response, err = h.handleListOffsets(correlationID, messageBuf[8:]) // skip header case 19: // CreateTopics response, err = h.handleCreateTopics(correlationID, messageBuf[8:]) // skip header case 20: // DeleteTopics response, err = h.handleDeleteTopics(correlationID, messageBuf[8:]) // skip header case 0: // Produce fmt.Printf("DEBUG: *** PRODUCE REQUEST RECEIVED *** Correlation: %d\n", correlationID) response, err = h.handleProduce(correlationID, messageBuf[8:]) // skip header case 1: // Fetch response, err = h.handleFetch(correlationID, messageBuf[8:]) // skip header case 11: // JoinGroup response, err = h.handleJoinGroup(correlationID, messageBuf[8:]) // skip header case 14: // SyncGroup response, err = h.handleSyncGroup(correlationID, messageBuf[8:]) // skip header case 8: // OffsetCommit response, err = h.handleOffsetCommit(correlationID, messageBuf[8:]) // skip header case 9: // OffsetFetch response, err = h.handleOffsetFetch(correlationID, messageBuf[8:]) // skip header case 12: // Heartbeat response, err = h.handleHeartbeat(correlationID, messageBuf[8:]) // skip header case 13: // LeaveGroup response, err = h.handleLeaveGroup(correlationID, messageBuf[8:]) // skip header default: fmt.Printf("DEBUG: *** UNSUPPORTED API KEY *** %d (%s) v%d - Correlation: %d\n", apiKey, apiName, apiVersion, correlationID) err = fmt.Errorf("unsupported API key: %d (version %d)", apiKey, apiVersion) } if err != nil { return fmt.Errorf("handle request: %w", err) } // DEBUG: Log response details (minimal for performance) processingDuration := time.Since(requestStart) fmt.Printf("DEBUG: API %d (%s) response: %d bytes, %v\n", apiKey, apiName, len(response), processingDuration) // Write response size and data responseSizeBytes := make([]byte, 4) binary.BigEndian.PutUint32(responseSizeBytes, uint32(len(response))) if _, err := w.Write(responseSizeBytes); err != nil { return fmt.Errorf("write response size: %w", err) } if _, err := w.Write(response); err != nil { return fmt.Errorf("write response: %w", err) } if err := w.Flush(); err != nil { return fmt.Errorf("flush response: %w", err) } // Minimal flush logging // fmt.Printf("DEBUG: API %d flushed\n", apiKey) } } func (h *Handler) handleApiVersions(correlationID uint32) ([]byte, error) { // Build ApiVersions response manually // Response format: correlation_id(4) + error_code(2) + num_api_keys(4) + api_keys + throttle_time(4) response := make([]byte, 0, 64) // Correlation ID correlationIDBytes := make([]byte, 4) binary.BigEndian.PutUint32(correlationIDBytes, correlationID) response = append(response, correlationIDBytes...) // Error code (0 = no error) response = append(response, 0, 0) // Number of API keys (compact array format in newer versions, but using basic format for simplicity) response = append(response, 0, 0, 0, 13) // 13 API keys // API Key 18 (ApiVersions): api_key(2) + min_version(2) + max_version(2) response = append(response, 0, 18) // API key 18 response = append(response, 0, 0) // min version 0 response = append(response, 0, 3) // max version 3 // API Key 3 (Metadata): api_key(2) + min_version(2) + max_version(2) // TEMP: Limit to v1 to test if issue is v7-specific response = append(response, 0, 3) // API key 3 response = append(response, 0, 0) // min version 0 response = append(response, 0, 1) // max version 1 (instead of 7) // API Key 2 (ListOffsets): api_key(2) + min_version(2) + max_version(2) response = append(response, 0, 2) // API key 2 response = append(response, 0, 0) // min version 0 response = append(response, 0, 5) // max version 5 // API Key 19 (CreateTopics): api_key(2) + min_version(2) + max_version(2) response = append(response, 0, 19) // API key 19 response = append(response, 0, 0) // min version 0 response = append(response, 0, 4) // max version 4 // API Key 20 (DeleteTopics): api_key(2) + min_version(2) + max_version(2) response = append(response, 0, 20) // API key 20 response = append(response, 0, 0) // min version 0 response = append(response, 0, 4) // max version 4 // API Key 0 (Produce): api_key(2) + min_version(2) + max_version(2) response = append(response, 0, 0) // API key 0 response = append(response, 0, 0) // min version 0 response = append(response, 0, 7) // max version 7 // API Key 1 (Fetch): api_key(2) + min_version(2) + max_version(2) response = append(response, 0, 1) // API key 1 response = append(response, 0, 0) // min version 0 response = append(response, 0, 11) // max version 11 // API Key 11 (JoinGroup): api_key(2) + min_version(2) + max_version(2) response = append(response, 0, 11) // API key 11 response = append(response, 0, 0) // min version 0 response = append(response, 0, 7) // max version 7 // API Key 14 (SyncGroup): api_key(2) + min_version(2) + max_version(2) response = append(response, 0, 14) // API key 14 response = append(response, 0, 0) // min version 0 response = append(response, 0, 5) // max version 5 // API Key 8 (OffsetCommit): api_key(2) + min_version(2) + max_version(2) response = append(response, 0, 8) // API key 8 response = append(response, 0, 0) // min version 0 response = append(response, 0, 8) // max version 8 // API Key 9 (OffsetFetch): api_key(2) + min_version(2) + max_version(2) response = append(response, 0, 9) // API key 9 response = append(response, 0, 0) // min version 0 response = append(response, 0, 8) // max version 8 // API Key 12 (Heartbeat): api_key(2) + min_version(2) + max_version(2) response = append(response, 0, 12) // API key 12 response = append(response, 0, 0) // min version 0 response = append(response, 0, 4) // max version 4 // API Key 13 (LeaveGroup): api_key(2) + min_version(2) + max_version(2) response = append(response, 0, 13) // API key 13 response = append(response, 0, 0) // min version 0 response = append(response, 0, 4) // max version 4 // Throttle time (4 bytes, 0 = no throttling) response = append(response, 0, 0, 0, 0) return response, nil } func (h *Handler) handleMetadata(correlationID uint32, requestBody []byte) ([]byte, error) { // Parse Metadata request to extract requested topics and auto-create them // This implements auto.create.topics.enable=true behavior // Request format: client_id + topics_array (if topics_count > 0) // Response format: correlation_id(4) + throttle_time(4) + brokers + cluster_id + controller_id + topics response := make([]byte, 0, 256) // Correlation ID correlationIDBytes := make([]byte, 4) binary.BigEndian.PutUint32(correlationIDBytes, correlationID) response = append(response, correlationIDBytes...) // Throttle time (4 bytes, 0 = no throttling) response = append(response, 0, 0, 0, 0) // Brokers array length (4 bytes) - 1 broker (this gateway) response = append(response, 0, 0, 0, 1) // Broker 0: node_id(4) + host + port(4) + rack response = append(response, 0, 0, 0, 0) // node_id = 0 // Use dynamic broker address set by the server host := h.brokerHost port := h.brokerPort fmt.Printf("DEBUG: Advertising broker at %s:%d\n", host, port) response = append(response, 0, byte(len(host))) response = append(response, []byte(host)...) // Port (4 bytes) - Use actual gateway port portBytes := make([]byte, 4) binary.BigEndian.PutUint32(portBytes, uint32(port)) response = append(response, portBytes...) // Rack - nullable string, using null (-1 length) response = append(response, 0xFF, 0xFF) // null rack // Cluster ID - nullable string, using null response = append(response, 0xFF, 0xFF) // null cluster_id // Controller ID (4 bytes) - -1 (no controller) response = append(response, 0xFF, 0xFF, 0xFF, 0xFF) // TEMP: Removed v7+ fields to test with Metadata v1 // Cluster authorized operations removed for v1 compatibility // Parse topics from request (for metadata discovery) requestedTopics := h.parseMetadataTopics(requestBody) // fmt.Printf("DEBUG: Metadata request for topics: %v (empty=all topics)\n", requestedTopics) // Build topics array response - return existing topics only h.topicsMu.RLock() var topicsToReturn []string if len(requestedTopics) == 0 { // If no specific topics requested, return all existing topics for topicName := range h.topics { topicsToReturn = append(topicsToReturn, topicName) } // fmt.Printf("DEBUG: Returning all existing topics: %v\n", topicsToReturn) } else { // Return only requested topics that exist for _, topicName := range requestedTopics { if _, exists := h.topics[topicName]; exists { topicsToReturn = append(topicsToReturn, topicName) } } fmt.Printf("DEBUG: Returning requested existing topics: %v\n", topicsToReturn) } h.topicsMu.RUnlock() // Topics array length (4 bytes) topicsCountBytes := make([]byte, 4) binary.BigEndian.PutUint32(topicsCountBytes, uint32(len(topicsToReturn))) response = append(response, topicsCountBytes...) // Build each topic response for _, topicName := range topicsToReturn { // fmt.Printf("DEBUG: Building topic response for: '%s' (length: %d)\n", topicName, len(topicName)) // Topic error code (2 bytes) - 0 = no error response = append(response, 0, 0) // Topic name topicNameBytes := []byte(topicName) topicNameLen := make([]byte, 2) binary.BigEndian.PutUint16(topicNameLen, uint16(len(topicNameBytes))) response = append(response, topicNameLen...) response = append(response, topicNameBytes...) // TEMP: Removed v7+ fields for v1 compatibility // Topic UUID and is_internal_topic removed // Partitions array length (4 bytes) - 1 partition response = append(response, 0, 0, 0, 1) // fmt.Printf("DEBUG: Added partitions count: 1\n") // Partition 0: error_code(2) + partition_id(4) + leader_id(4) + replicas + isr response = append(response, 0, 0) // no error response = append(response, 0, 0, 0, 0) // partition_id = 0 response = append(response, 0, 0, 0, 0) // leader_id = 0 (this broker) response = append(response, 0, 0, 0, 1, 0, 0, 0, 0) // replicas = [0] response = append(response, 0, 0, 0, 1, 0, 0, 0, 0) // isr = [0] // TEMP: Removed v7+ topic authorized operations for v1 compatibility } fmt.Printf("DEBUG: Metadata response for %d topics: %v\n", len(topicsToReturn), topicsToReturn) fmt.Printf("DEBUG: Metadata response full hex dump (%d bytes): %x\n", len(response), response) return response, nil } func (h *Handler) parseMetadataTopics(requestBody []byte) []string { // Parse Metadata request to extract requested topics // Format: client_id + topics_array // Temporarily disable debug logging to test performance if len(requestBody) < 6 { // at minimum: client_id_size(2) + topics_count(4) return []string{} // Return empty - means "all topics" } // Skip client_id clientIDSize := binary.BigEndian.Uint16(requestBody[0:2]) offset := 2 + int(clientIDSize) if len(requestBody) < offset+4 { return []string{} } // Parse topics count topicsCount := binary.BigEndian.Uint32(requestBody[offset : offset+4]) offset += 4 if topicsCount == 0 || topicsCount > 1000000 { // sanity check return []string{} // Return empty - means "all topics" } // Parse each requested topic name topics := make([]string, 0, topicsCount) for i := uint32(0); i < topicsCount && offset < len(requestBody); i++ { if len(requestBody) < offset+2 { break } topicNameSize := binary.BigEndian.Uint16(requestBody[offset : offset+2]) offset += 2 if len(requestBody) < offset+int(topicNameSize) { break } topicName := string(requestBody[offset : offset+int(topicNameSize)]) topics = append(topics, topicName) offset += int(topicNameSize) } return topics } func (h *Handler) handleListOffsets(correlationID uint32, requestBody []byte) ([]byte, error) { // Parse minimal request to understand what's being asked // For this stub, we'll just return stub responses for any requested topic/partition // Request format after client_id: topics_array if len(requestBody) < 6 { // at minimum need client_id_size(2) + topics_count(4) return nil, fmt.Errorf("ListOffsets request too short") } // Skip client_id: client_id_size(2) + client_id_data clientIDSize := binary.BigEndian.Uint16(requestBody[0:2]) offset := 2 + int(clientIDSize) if len(requestBody) < offset+4 { return nil, fmt.Errorf("ListOffsets request missing topics count") } topicsCount := binary.BigEndian.Uint32(requestBody[offset : offset+4]) offset += 4 response := make([]byte, 0, 256) // Correlation ID correlationIDBytes := make([]byte, 4) binary.BigEndian.PutUint32(correlationIDBytes, correlationID) response = append(response, correlationIDBytes...) // Throttle time (4 bytes, 0 = no throttling) response = append(response, 0, 0, 0, 0) // Topics count (same as request) topicsCountBytes := make([]byte, 4) binary.BigEndian.PutUint32(topicsCountBytes, topicsCount) response = append(response, topicsCountBytes...) // Process each requested topic for i := uint32(0); i < topicsCount && offset < len(requestBody); i++ { if len(requestBody) < offset+2 { break } // Parse topic name topicNameSize := binary.BigEndian.Uint16(requestBody[offset : offset+2]) offset += 2 if len(requestBody) < offset+int(topicNameSize)+4 { break } topicName := requestBody[offset : offset+int(topicNameSize)] offset += int(topicNameSize) // Parse partitions count for this topic partitionsCount := binary.BigEndian.Uint32(requestBody[offset : offset+4]) offset += 4 // Response: topic_name_size(2) + topic_name + partitions_array response = append(response, byte(topicNameSize>>8), byte(topicNameSize)) response = append(response, topicName...) partitionsCountBytes := make([]byte, 4) binary.BigEndian.PutUint32(partitionsCountBytes, partitionsCount) response = append(response, partitionsCountBytes...) // Process each partition for j := uint32(0); j < partitionsCount && offset+12 <= len(requestBody); j++ { // Parse partition request: partition_id(4) + timestamp(8) partitionID := binary.BigEndian.Uint32(requestBody[offset : offset+4]) timestamp := int64(binary.BigEndian.Uint64(requestBody[offset+4 : offset+12])) offset += 12 // Response: partition_id(4) + error_code(2) + timestamp(8) + offset(8) partitionIDBytes := make([]byte, 4) binary.BigEndian.PutUint32(partitionIDBytes, partitionID) response = append(response, partitionIDBytes...) // Error code (0 = no error) response = append(response, 0, 0) // Get the ledger for this topic-partition ledger := h.GetOrCreateLedger(string(topicName), int32(partitionID)) var responseTimestamp int64 var responseOffset int64 switch timestamp { case -2: // earliest offset responseOffset = ledger.GetEarliestOffset() if responseOffset == ledger.GetHighWaterMark() { // No messages yet, return current time responseTimestamp = time.Now().UnixNano() } else { // Get timestamp of earliest message if ts, _, err := ledger.GetRecord(responseOffset); err == nil { responseTimestamp = ts } else { responseTimestamp = time.Now().UnixNano() } } case -1: // latest offset responseOffset = ledger.GetLatestOffset() if responseOffset == 0 && ledger.GetHighWaterMark() == 0 { // No messages yet responseTimestamp = time.Now().UnixNano() responseOffset = 0 } else { // Get timestamp of latest message if ts, _, err := ledger.GetRecord(responseOffset); err == nil { responseTimestamp = ts } else { responseTimestamp = time.Now().UnixNano() } } default: // specific timestamp - find offset by timestamp responseOffset = ledger.FindOffsetByTimestamp(timestamp) responseTimestamp = timestamp } timestampBytes := make([]byte, 8) binary.BigEndian.PutUint64(timestampBytes, uint64(responseTimestamp)) response = append(response, timestampBytes...) offsetBytes := make([]byte, 8) binary.BigEndian.PutUint64(offsetBytes, uint64(responseOffset)) response = append(response, offsetBytes...) } } return response, nil } func (h *Handler) handleCreateTopics(correlationID uint32, requestBody []byte) ([]byte, error) { // TODO: CRITICAL - This function only supports CreateTopics v0 format // kafka-go uses v2 which has a different request structure! // The wrong topics count (1274981) shows we're parsing from wrong offset // Need to implement proper v2 request parsing or negotiate API version // Parse minimal CreateTopics request // Request format: client_id + timeout(4) + topics_array if len(requestBody) < 6 { // client_id_size(2) + timeout(4) return nil, fmt.Errorf("CreateTopics request too short") } // Skip client_id clientIDSize := binary.BigEndian.Uint16(requestBody[0:2]) offset := 2 + int(clientIDSize) fmt.Printf("DEBUG: Client ID size: %d, client ID: %s\n", clientIDSize, string(requestBody[2:2+clientIDSize])) // CreateTopics v2 has different format than v0 // v2 format: client_id + topics_array + timeout(4) + validate_only(1) // (no separate timeout field before topics like in v0) if len(requestBody) < offset+4 { return nil, fmt.Errorf("CreateTopics request missing topics array") } // Read topics count directly (no timeout field before it in v2) topicsCount := binary.BigEndian.Uint32(requestBody[offset : offset+4]) offset += 4 // DEBUG: Hex dump first 50 bytes to understand v2 format dumpLen := len(requestBody) if dumpLen > 50 { dumpLen = 50 } fmt.Printf("DEBUG: CreateTopics v2 request hex dump (first %d bytes): %x\n", dumpLen, requestBody[:dumpLen]) fmt.Printf("DEBUG: CreateTopics v2 - Topics count: %d, remaining bytes: %d\n", topicsCount, len(requestBody)-offset) response := make([]byte, 0, 256) // Correlation ID correlationIDBytes := make([]byte, 4) binary.BigEndian.PutUint32(correlationIDBytes, correlationID) response = append(response, correlationIDBytes...) // Throttle time (4 bytes, 0 = no throttling) response = append(response, 0, 0, 0, 0) // Topics count (same as request) topicsCountBytes := make([]byte, 4) binary.BigEndian.PutUint32(topicsCountBytes, topicsCount) response = append(response, topicsCountBytes...) // Process each topic h.topicsMu.Lock() defer h.topicsMu.Unlock() for i := uint32(0); i < topicsCount && offset < len(requestBody); i++ { if len(requestBody) < offset+2 { break } // Parse topic name topicNameSize := binary.BigEndian.Uint16(requestBody[offset : offset+2]) offset += 2 if len(requestBody) < offset+int(topicNameSize)+12 { // name + num_partitions(4) + replication_factor(2) + configs_count(4) + timeout(4) - simplified break } topicName := string(requestBody[offset : offset+int(topicNameSize)]) offset += int(topicNameSize) // Parse num_partitions and replication_factor (skip others for simplicity) numPartitions := binary.BigEndian.Uint32(requestBody[offset : offset+4]) offset += 4 replicationFactor := binary.BigEndian.Uint16(requestBody[offset : offset+2]) offset += 2 // Skip configs and remaining fields for simplicity // In a real implementation, we'd parse these properly if len(requestBody) >= offset+4 { configsCount := binary.BigEndian.Uint32(requestBody[offset : offset+4]) offset += 4 // Skip configs (simplified) for j := uint32(0); j < configsCount && offset+6 <= len(requestBody); j++ { if len(requestBody) >= offset+2 { configNameSize := binary.BigEndian.Uint16(requestBody[offset : offset+2]) offset += 2 + int(configNameSize) if len(requestBody) >= offset+2 { configValueSize := binary.BigEndian.Uint16(requestBody[offset : offset+2]) offset += 2 + int(configValueSize) } } } } // Skip timeout field if present if len(requestBody) >= offset+4 { offset += 4 } // Response: topic_name + error_code(2) + error_message response = append(response, byte(topicNameSize>>8), byte(topicNameSize)) response = append(response, []byte(topicName)...) // Check if topic already exists var errorCode uint16 = 0 var errorMessage string = "" if h.useSeaweedMQ { // Use SeaweedMQ integration if h.seaweedMQHandler.TopicExists(topicName) { errorCode = 36 // TOPIC_ALREADY_EXISTS errorMessage = "Topic already exists" } else if numPartitions <= 0 { errorCode = 37 // INVALID_PARTITIONS errorMessage = "Invalid number of partitions" } else if replicationFactor <= 0 { errorCode = 38 // INVALID_REPLICATION_FACTOR errorMessage = "Invalid replication factor" } else { // Create the topic in SeaweedMQ if err := h.seaweedMQHandler.CreateTopic(topicName, int32(numPartitions)); err != nil { errorCode = 1 // UNKNOWN_SERVER_ERROR errorMessage = err.Error() } } } else { // Use legacy in-memory mode if _, exists := h.topics[topicName]; exists { errorCode = 36 // TOPIC_ALREADY_EXISTS errorMessage = "Topic already exists" } else if numPartitions <= 0 { errorCode = 37 // INVALID_PARTITIONS errorMessage = "Invalid number of partitions" } else if replicationFactor <= 0 { errorCode = 38 // INVALID_REPLICATION_FACTOR errorMessage = "Invalid replication factor" } else { // Create the topic h.topics[topicName] = &TopicInfo{ Name: topicName, Partitions: int32(numPartitions), CreatedAt: time.Now().UnixNano(), } // Initialize ledgers for all partitions for partitionID := int32(0); partitionID < int32(numPartitions); partitionID++ { h.GetOrCreateLedger(topicName, partitionID) } } } // Error code response = append(response, byte(errorCode>>8), byte(errorCode)) // Error message (nullable string) if errorMessage == "" { response = append(response, 0xFF, 0xFF) // null string } else { errorMsgLen := uint16(len(errorMessage)) response = append(response, byte(errorMsgLen>>8), byte(errorMsgLen)) response = append(response, []byte(errorMessage)...) } } return response, nil } func (h *Handler) handleDeleteTopics(correlationID uint32, requestBody []byte) ([]byte, error) { // Parse minimal DeleteTopics request // Request format: client_id + timeout(4) + topics_array if len(requestBody) < 6 { // client_id_size(2) + timeout(4) return nil, fmt.Errorf("DeleteTopics request too short") } // Skip client_id clientIDSize := binary.BigEndian.Uint16(requestBody[0:2]) offset := 2 + int(clientIDSize) if len(requestBody) < offset+8 { // timeout(4) + topics_count(4) return nil, fmt.Errorf("DeleteTopics request missing data") } // Skip timeout offset += 4 topicsCount := binary.BigEndian.Uint32(requestBody[offset : offset+4]) offset += 4 response := make([]byte, 0, 256) // Correlation ID correlationIDBytes := make([]byte, 4) binary.BigEndian.PutUint32(correlationIDBytes, correlationID) response = append(response, correlationIDBytes...) // Throttle time (4 bytes, 0 = no throttling) response = append(response, 0, 0, 0, 0) // Topics count (same as request) topicsCountBytes := make([]byte, 4) binary.BigEndian.PutUint32(topicsCountBytes, topicsCount) response = append(response, topicsCountBytes...) // Process each topic h.topicsMu.Lock() defer h.topicsMu.Unlock() for i := uint32(0); i < topicsCount && offset < len(requestBody); i++ { if len(requestBody) < offset+2 { break } // Parse topic name topicNameSize := binary.BigEndian.Uint16(requestBody[offset : offset+2]) offset += 2 if len(requestBody) < offset+int(topicNameSize) { break } topicName := string(requestBody[offset : offset+int(topicNameSize)]) offset += int(topicNameSize) // Response: topic_name + error_code(2) + error_message response = append(response, byte(topicNameSize>>8), byte(topicNameSize)) response = append(response, []byte(topicName)...) // Check if topic exists and delete it var errorCode uint16 = 0 var errorMessage string = "" if h.useSeaweedMQ { // Use SeaweedMQ integration if !h.seaweedMQHandler.TopicExists(topicName) { errorCode = 3 // UNKNOWN_TOPIC_OR_PARTITION errorMessage = "Unknown topic" } else { // Delete the topic from SeaweedMQ if err := h.seaweedMQHandler.DeleteTopic(topicName); err != nil { errorCode = 1 // UNKNOWN_SERVER_ERROR errorMessage = err.Error() } } } else { // Use legacy in-memory mode topicInfo, exists := h.topics[topicName] if !exists { errorCode = 3 // UNKNOWN_TOPIC_OR_PARTITION errorMessage = "Unknown topic" } else { // Delete the topic delete(h.topics, topicName) // Clean up associated ledgers h.ledgersMu.Lock() for partitionID := int32(0); partitionID < topicInfo.Partitions; partitionID++ { key := TopicPartitionKey{Topic: topicName, Partition: partitionID} delete(h.ledgers, key) } h.ledgersMu.Unlock() } } // Error code response = append(response, byte(errorCode>>8), byte(errorCode)) // Error message (nullable string) if errorMessage == "" { response = append(response, 0xFF, 0xFF) // null string } else { errorMsgLen := uint16(len(errorMessage)) response = append(response, byte(errorMsgLen>>8), byte(errorMsgLen)) response = append(response, []byte(errorMessage)...) } } return response, nil } // getAPIName returns a human-readable name for Kafka API keys (for debugging) func getAPIName(apiKey uint16) string { switch apiKey { case 0: return "Produce" case 1: return "Fetch" case 2: return "ListOffsets" case 3: return "Metadata" case 8: return "OffsetCommit" case 9: return "OffsetFetch" case 11: return "JoinGroup" case 12: return "Heartbeat" case 13: return "LeaveGroup" case 14: return "SyncGroup" case 18: return "ApiVersions" case 19: return "CreateTopics" case 20: return "DeleteTopics" default: return "Unknown" } } // AddTopicForTesting adds a topic directly to the handler (for testing only) func (h *Handler) AddTopicForTesting(topicName string, partitions int32) { h.topicsMu.Lock() defer h.topicsMu.Unlock() if _, exists := h.topics[topicName]; !exists { h.topics[topicName] = &TopicInfo{ Name: topicName, Partitions: partitions, CreatedAt: time.Now().UnixNano(), } // Initialize ledgers for all partitions for partitionID := int32(0); partitionID < partitions; partitionID++ { h.GetOrCreateLedger(topicName, partitionID) } fmt.Printf("DEBUG: Added topic for testing: %s with %d partitions\n", topicName, partitions) } }