package agent import ( "bufio" "context" "encoding/json" "fmt" "log/slog" "os" "os/exec" "path/filepath" "strings" "sync" "time" ) // codexBlockedArgs are flags hardcoded by the daemon that must not be // overridden by user-configured custom_args. var codexBlockedArgs = map[string]blockedArgMode{ "--listen": blockedWithValue, // stdio:// transport for daemon communication } // codexStderrTailBytes bounds the stderr tail captured for inclusion in // error messages when codex exits before the JSON-RPC handshake (e.g. the // user supplied a custom_args flag that the `app-server` subcommand // rejects). Kept as its own constant so bumping codex independently of // other agents stays easy if codex starts shipping longer failure traces. const ( codexStderrTailBytes = 2048 defaultCodexSemanticInactivityTimeout = 10 * time.Minute ) // codexBackend implements Backend by spawning `codex app-server --listen stdio://` // and communicating via JSON-RPC 2.0 over stdin/stdout. type codexBackend struct { cfg Config } func buildCodexArgs(opts ExecOptions, logger *slog.Logger) []string { args := []string{"app-server", "--listen", "stdio://"} args = append(args, filterCustomArgs(opts.ExtraArgs, codexBlockedArgs, logger)...) args = append(args, filterCustomArgs(opts.CustomArgs, codexBlockedArgs, logger)...) return args } func (b *codexBackend) Execute(ctx context.Context, prompt string, opts ExecOptions) (*Session, error) { execPath := b.cfg.ExecutablePath if execPath == "" { execPath = "codex" } if _, err := exec.LookPath(execPath); err != nil { return nil, fmt.Errorf("codex executable not found at %q: %w", execPath, err) } timeout := opts.Timeout if timeout == 0 { timeout = 20 * time.Minute } semanticInactivityTimeout := opts.SemanticInactivityTimeout if semanticInactivityTimeout == 0 { semanticInactivityTimeout = defaultCodexSemanticInactivityTimeout } runCtx, cancel := context.WithTimeout(ctx, timeout) codexArgs := buildCodexArgs(opts, b.cfg.Logger) cmd := exec.CommandContext(runCtx, execPath, codexArgs...) hideAgentWindow(cmd) b.cfg.Logger.Info("agent command", "exec", execPath, "args", codexArgs) if opts.Cwd != "" { cmd.Dir = opts.Cwd } cmd.Env = buildEnv(b.cfg.Env) stdout, err := cmd.StdoutPipe() if err != nil { cancel() return nil, fmt.Errorf("codex stdout pipe: %w", err) } stdin, err := cmd.StdinPipe() if err != nil { cancel() return nil, fmt.Errorf("codex stdin pipe: %w", err) } stderrBuf := newStderrTail(newLogWriter(b.cfg.Logger, "[codex:stderr] "), codexStderrTailBytes) cmd.Stderr = stderrBuf if err := cmd.Start(); err != nil { cancel() return nil, fmt.Errorf("start codex: %w", err) } b.cfg.Logger.Info("codex started app-server", "pid", cmd.Process.Pid, "cwd", opts.Cwd) msgCh := make(chan Message, 256) resCh := make(chan Result, 1) semanticActivityCh := make(chan string, 256) var outputMu sync.Mutex var output strings.Builder // turnDone is set before starting the reader goroutine so there is no // race between the lifecycle goroutine writing and the reader reading. turnDone := make(chan bool, 1) // true = aborted c := &codexClient{ cfg: b.cfg, stdin: stdin, pending: make(map[int]*pendingRPC), notificationProtocol: "unknown", onMessage: func(msg Message) { logCodexAgentMessage(b.cfg.Logger, msg) if msg.Type == MessageText { outputMu.Lock() output.WriteString(msg.Content) outputMu.Unlock() } trySend(msgCh, msg) trySendString(semanticActivityCh, describeCodexSemanticActivity(msg)) }, onSemanticActivity: func(description string) { b.cfg.Logger.Debug("codex semantic activity observed", "activity", description) trySendString(semanticActivityCh, description) }, onTurnDone: func(aborted bool) { select { case turnDone <- aborted: default: } }, } // Start reading stdout in background readerDone := make(chan struct{}) go func() { defer close(readerDone) scanner := bufio.NewScanner(stdout) scanner.Buffer(make([]byte, 0, 1024*1024), 10*1024*1024) for scanner.Scan() { line := strings.TrimSpace(scanner.Text()) if line == "" { continue } c.handleLine(line) } c.closeAllPending(fmt.Errorf("codex process exited")) }() // drainAndWait closes stdin so codex shuts down, then joins cmd.Wait(). // cmd.Wait() is the only Go-stdlib-documented synchronization point for // os/exec's internal stderr/stdout copy goroutines — until it returns, // stderrBuf may not have observed every byte codex wrote before it // exited, and stderrBuf.Tail() can come back empty or truncated. Any // code that reads stderrBuf.Tail() must call drainAndWait() first. // sync.Once makes it safe to call from both error paths and the deferred // cleanup. var waitOnce sync.Once drainAndWait := func() { waitOnce.Do(func() { stdin.Close() _ = cmd.Wait() }) } // Drive the session lifecycle in a goroutine. // Shutdown sequence: lifecycle goroutine closes stdin + cancels context → // codex process exits → reader goroutine's scanner.Scan() returns false → // readerDone closes → lifecycle goroutine collects final output and sends Result. go func() { defer cancel() defer close(msgCh) defer close(resCh) defer drainAndWait() startTime := time.Now() finalStatus := "completed" var finalError string // 1. Initialize handshake _, err := c.request(runCtx, "initialize", map[string]any{ "clientInfo": map[string]any{ "name": "multica-agent-sdk", "title": "Multica Agent SDK", "version": "0.2.0", }, "capabilities": map[string]any{ "experimentalApi": true, }, }) if err != nil { drainAndWait() // flush os/exec stderr goroutine before sampling Tail finalStatus = "failed" finalError = withAgentStderr(fmt.Sprintf("codex initialize failed: %v", err), "codex", stderrBuf.Tail()) resCh <- Result{Status: finalStatus, Error: finalError, DurationMs: time.Since(startTime).Milliseconds()} return } c.notify("initialized") // 2. Start a new thread, or resume the prior one for this issue. When // resume fails (thread GCed on the server, schema drift, etc.) we fall // back to a fresh thread so the task still makes progress. threadID, resumed, err := c.startOrResumeThread(runCtx, opts, b.cfg.Logger) if err != nil { drainAndWait() // flush os/exec stderr goroutine before sampling Tail finalStatus = "failed" finalError = withAgentStderr(err.Error(), "codex", stderrBuf.Tail()) resCh <- Result{Status: finalStatus, Error: finalError, DurationMs: time.Since(startTime).Milliseconds()} return } c.threadID = threadID if resumed { b.cfg.Logger.Info("codex thread resumed", "thread_id", threadID) } else { b.cfg.Logger.Info("codex thread started", "thread_id", threadID) } // 3. Send turn and wait for completion _, err = c.request(runCtx, "turn/start", map[string]any{ "threadId": threadID, "input": []map[string]any{ {"type": "text", "text": prompt}, }, }) if err != nil { drainAndWait() // flush os/exec stderr goroutine before sampling Tail finalStatus = "failed" finalError = withAgentStderr(fmt.Sprintf("codex turn/start failed: %v", err), "codex", stderrBuf.Tail()) resCh <- Result{Status: finalStatus, Error: finalError, DurationMs: time.Since(startTime).Milliseconds()} return } lastSemanticActivity := time.Now() lastSemanticActivityDescription := "turn/start" semanticTimer := time.NewTimer(semanticInactivityTimeout) defer semanticTimer.Stop() waitingForTurn := true for waitingForTurn { select { case aborted := <-turnDone: waitingForTurn = false switch { case aborted: finalStatus = "aborted" finalError = "turn was aborted" default: if errMsg := c.getTurnError(); errMsg != "" { finalStatus = "failed" finalError = errMsg } } case activity := <-semanticActivityCh: lastSemanticActivity = time.Now() lastSemanticActivityDescription = activity resetTimer(semanticTimer, semanticInactivityTimeout) case <-semanticTimer.C: waitingForTurn = false finalStatus = "timeout" finalError = fmt.Sprintf("codex semantic inactivity timeout after %s without agent progress (last activity: %s)", semanticInactivityTimeout, lastSemanticActivityDescription) b.cfg.Logger.Warn("codex semantic inactivity timeout", "pid", cmd.Process.Pid, "thread_id", threadID, "turn_id", c.turnID, "timeout", semanticInactivityTimeout.String(), "last_activity", lastSemanticActivityDescription, "idle_for", time.Since(lastSemanticActivity).Round(time.Millisecond).String(), ) case <-runCtx.Done(): waitingForTurn = false if runCtx.Err() == context.DeadlineExceeded { finalStatus = "timeout" finalError = fmt.Sprintf("codex timed out after %s", timeout) } else { finalStatus = "aborted" finalError = "execution cancelled" } } } duration := time.Since(startTime) b.cfg.Logger.Info("codex finished", "pid", cmd.Process.Pid, "status", finalStatus, "duration", duration.Round(time.Millisecond).String()) // Close stdin and cancel context to signal the app-server to exit. // Without this, the long-running codex process keeps stdout open and // the reader goroutine blocks forever on scanner.Scan(). stdin.Close() cancel() // Wait for the reader goroutine to finish so all output is accumulated. <-readerDone outputMu.Lock() finalOutput := output.String() outputMu.Unlock() // Build usage map from accumulated codex usage. // First check JSON-RPC notifications (often empty for Codex). var usageMap map[string]TokenUsage c.usageMu.Lock() u := c.usage c.usageMu.Unlock() // Fallback: if no usage from JSON-RPC, scan Codex session JSONL logs. // Codex writes token_count events to ~/.codex/sessions/YYYY/MM/DD/*.jsonl. if u.InputTokens == 0 && u.OutputTokens == 0 { if scanned := scanCodexSessionUsage(startTime); scanned != nil { u = scanned.usage if scanned.model != "" && opts.Model == "" { opts.Model = scanned.model } } } if u.InputTokens > 0 || u.OutputTokens > 0 || u.CacheReadTokens > 0 || u.CacheWriteTokens > 0 { model := opts.Model if model == "" { model = "unknown" } usageMap = map[string]TokenUsage{model: u} } resCh <- Result{ Status: finalStatus, Output: finalOutput, Error: finalError, SessionID: threadID, DurationMs: duration.Milliseconds(), Usage: usageMap, } }() return &Session{Messages: msgCh, Result: resCh}, nil } // startOrResumeThread picks between Codex's thread/resume and thread/start // based on opts.ResumeSessionID. When a prior thread ID is provided it first // tries thread/resume; any error (unknown thread, schema mismatch, transport // failure) is logged and the method falls back to thread/start so the task // still executes. The returned threadID is what subsequent turn/start calls // must reference, and resumed indicates whether the prior thread was picked // up (only useful for logging). func (c *codexClient) startOrResumeThread(ctx context.Context, opts ExecOptions, logger *slog.Logger) (string, bool, error) { if priorThreadID := opts.ResumeSessionID; priorThreadID != "" { // thread/resume reuses the thread's persisted model and reasoning // effort; only override fields the daemon actually cares about. resumeResult, err := c.request(ctx, "thread/resume", map[string]any{ "threadId": priorThreadID, "cwd": opts.Cwd, "model": nilIfEmpty(opts.Model), "developerInstructions": nilIfEmpty(opts.SystemPrompt), }) if err == nil { if threadID := extractThreadID(resumeResult); threadID != "" { return threadID, true, nil } logger.Warn("codex thread/resume returned no thread ID; falling back to thread/start", "prior_thread_id", priorThreadID) } else { logger.Warn("codex thread/resume failed; falling back to thread/start", "prior_thread_id", priorThreadID, "error", err) } } startResult, err := c.request(ctx, "thread/start", map[string]any{ "model": nilIfEmpty(opts.Model), "modelProvider": nil, "profile": nil, "cwd": opts.Cwd, "approvalPolicy": nil, "sandbox": nil, "config": nil, "baseInstructions": nil, "developerInstructions": nilIfEmpty(opts.SystemPrompt), "compactPrompt": nil, "includeApplyPatchTool": nil, "experimentalRawEvents": false, "persistExtendedHistory": true, }) if err != nil { return "", false, fmt.Errorf("codex thread/start failed: %w", err) } threadID := extractThreadID(startResult) if threadID == "" { return "", false, fmt.Errorf("codex thread/start returned no thread ID") } return threadID, false, nil } func resetTimer(timer *time.Timer, d time.Duration) { if !timer.Stop() { select { case <-timer.C: default: } } timer.Reset(d) } func trySendString(ch chan<- string, value string) { select { case ch <- value: default: } } func logCodexAgentMessage(logger *slog.Logger, msg Message) { if logger == nil { return } attrs := []any{ "type", string(msg.Type), "tool", msg.Tool, "call_id", msg.CallID, "status", msg.Status, "content_len", len(msg.Content), "output_len", len(msg.Output), } logger.Info("codex agent message received", attrs...) if msg.Type == MessageToolResult { logger.Info("codex tool_result observed", "tool", msg.Tool, "call_id", msg.CallID, "output_len", len(msg.Output)) } } func describeCodexSemanticActivity(msg Message) string { switch msg.Type { case MessageToolUse, MessageToolResult: if msg.Tool != "" { return fmt.Sprintf("%s:%s", msg.Type, msg.Tool) } case MessageStatus: if msg.Status != "" { return fmt.Sprintf("%s:%s", msg.Type, msg.Status) } } return string(msg.Type) } // ── codexClient: JSON-RPC 2.0 transport ── type codexClient struct { cfg Config stdin interface{ Write([]byte) (int, error) } mu sync.Mutex nextID int pending map[int]*pendingRPC threadID string turnID string onMessage func(Message) onSemanticActivity func(description string) onTurnDone func(aborted bool) notificationProtocol string // "unknown", "legacy", "raw" turnStarted bool completedTurnIDs map[string]bool usageMu sync.Mutex usage TokenUsage // accumulated from turn events turnErrorMu sync.Mutex turnError string // captured from turn/completed status=failed or terminal error notifications } func (c *codexClient) setTurnError(msg string) { if msg == "" { return } c.turnErrorMu.Lock() defer c.turnErrorMu.Unlock() if c.turnError == "" { c.turnError = msg } } func (c *codexClient) getTurnError() string { c.turnErrorMu.Lock() defer c.turnErrorMu.Unlock() return c.turnError } type pendingRPC struct { ch chan rpcResult method string } type rpcResult struct { result json.RawMessage err error } func (c *codexClient) request(ctx context.Context, method string, params any) (json.RawMessage, error) { c.mu.Lock() c.nextID++ id := c.nextID pr := &pendingRPC{ch: make(chan rpcResult, 1), method: method} c.pending[id] = pr c.mu.Unlock() msg := map[string]any{ "jsonrpc": "2.0", "id": id, "method": method, "params": params, } data, err := json.Marshal(msg) if err != nil { c.mu.Lock() delete(c.pending, id) c.mu.Unlock() return nil, err } data = append(data, '\n') if _, err := c.stdin.Write(data); err != nil { c.mu.Lock() delete(c.pending, id) c.mu.Unlock() return nil, fmt.Errorf("write %s: %w", method, err) } if method == "turn/start" { threadID := "" if paramMap, ok := params.(map[string]any); ok { threadID, _ = paramMap["threadId"].(string) } c.cfg.Logger.Info("codex turn/start sent", "request_id", id, "thread_id", threadID) } select { case res := <-pr.ch: return res.result, res.err case <-ctx.Done(): c.mu.Lock() delete(c.pending, id) c.mu.Unlock() return nil, ctx.Err() } } func (c *codexClient) notify(method string) { msg := map[string]any{ "jsonrpc": "2.0", "method": method, } data, _ := json.Marshal(msg) data = append(data, '\n') _, _ = c.stdin.Write(data) } func (c *codexClient) respond(id int, result any) { msg := map[string]any{ "jsonrpc": "2.0", "id": id, "result": result, } data, _ := json.Marshal(msg) data = append(data, '\n') _, _ = c.stdin.Write(data) } func (c *codexClient) respondError(id int, code int, message string) { msg := map[string]any{ "jsonrpc": "2.0", "id": id, "error": map[string]any{ "code": code, "message": message, }, } data, _ := json.Marshal(msg) data = append(data, '\n') _, _ = c.stdin.Write(data) } func (c *codexClient) closeAllPending(err error) { c.mu.Lock() defer c.mu.Unlock() for id, pr := range c.pending { pr.ch <- rpcResult{err: err} delete(c.pending, id) } } func (c *codexClient) handleLine(line string) { var raw map[string]json.RawMessage if err := json.Unmarshal([]byte(line), &raw); err != nil { return } // Check if it's a response to our request if _, hasID := raw["id"]; hasID { if _, hasResult := raw["result"]; hasResult { c.handleResponse(raw) return } if _, hasError := raw["error"]; hasError { c.handleResponse(raw) return } // Server request (has id + method) if _, hasMethod := raw["method"]; hasMethod { c.handleServerRequest(raw) return } } // Notification (no id, has method) if _, hasMethod := raw["method"]; hasMethod { c.handleNotification(raw) } } func (c *codexClient) handleResponse(raw map[string]json.RawMessage) { var id int if err := json.Unmarshal(raw["id"], &id); err != nil { return } c.mu.Lock() pr, ok := c.pending[id] if ok { delete(c.pending, id) } c.mu.Unlock() if !ok { return } if errData, hasErr := raw["error"]; hasErr { var rpcErr struct { Code int `json:"code"` Message string `json:"message"` } _ = json.Unmarshal(errData, &rpcErr) pr.ch <- rpcResult{err: fmt.Errorf("%s: %s (code=%d)", pr.method, rpcErr.Message, rpcErr.Code)} } else { pr.ch <- rpcResult{result: raw["result"]} } } func (c *codexClient) handleServerRequest(raw map[string]json.RawMessage) { var id int _ = json.Unmarshal(raw["id"], &id) var method string _ = json.Unmarshal(raw["method"], &method) // Auto-approve all exec/patch requests in daemon mode switch method { case "item/commandExecution/requestApproval", "execCommandApproval": c.respond(id, map[string]any{"decision": "accept"}) case "item/fileChange/requestApproval", "applyPatchApproval": c.respond(id, map[string]any{"decision": "accept"}) case "mcpServer/elicitation/request": c.respond(id, map[string]any{"action": "accept", "content": nil, "_meta": nil}) default: c.cfg.Logger.Warn("codex: unhandled server request", "method", method, "id", id) c.respondError(id, -32601, fmt.Sprintf("unhandled server request: %s", method)) } } func (c *codexClient) handleNotification(raw map[string]json.RawMessage) { var method string _ = json.Unmarshal(raw["method"], &method) var params map[string]any if p, ok := raw["params"]; ok { _ = json.Unmarshal(p, ¶ms) } // Legacy codex/event notifications if method == "codex/event" || strings.HasPrefix(method, "codex/event/") { c.notificationProtocol = "legacy" msgData, ok := params["msg"] if !ok { return } msgMap, ok := msgData.(map[string]any) if !ok { return } c.handleEvent(msgMap) return } // Raw v2 notifications if c.notificationProtocol != "legacy" { if c.notificationProtocol == "unknown" && (method == "turn/started" || method == "turn/completed" || method == "thread/started" || strings.HasPrefix(method, "item/")) { c.notificationProtocol = "raw" } if c.notificationProtocol == "raw" { c.handleRawNotification(method, params) } } } func (c *codexClient) handleEvent(msg map[string]any) { msgType, _ := msg["type"].(string) switch msgType { case "task_started": c.turnStarted = true if c.onMessage != nil { c.onMessage(Message{Type: MessageStatus, Status: "running", SessionID: c.threadID}) } case "agent_message": text, _ := msg["message"].(string) if text != "" && c.onMessage != nil { c.onMessage(Message{Type: MessageText, Content: text}) } case "exec_command_begin": callID, _ := msg["call_id"].(string) command, _ := msg["command"].(string) if c.onMessage != nil { c.onMessage(Message{ Type: MessageToolUse, Tool: "exec_command", CallID: callID, Input: map[string]any{"command": command}, }) } case "exec_command_end": callID, _ := msg["call_id"].(string) output, _ := msg["output"].(string) if c.onMessage != nil { c.onMessage(Message{ Type: MessageToolResult, Tool: "exec_command", CallID: callID, Output: output, }) } case "patch_apply_begin": callID, _ := msg["call_id"].(string) if c.onMessage != nil { c.onMessage(Message{ Type: MessageToolUse, Tool: "patch_apply", CallID: callID, }) } case "patch_apply_end": callID, _ := msg["call_id"].(string) if c.onMessage != nil { c.onMessage(Message{ Type: MessageToolResult, Tool: "patch_apply", CallID: callID, }) } case "task_complete": // Extract usage from legacy task_complete if present. c.extractUsageFromMap(msg) if c.onTurnDone != nil { c.onTurnDone(false) } case "turn_aborted": if c.onTurnDone != nil { c.onTurnDone(true) } } } func (c *codexClient) handleRawNotification(method string, params map[string]any) { // Ignore notifications from threads other than the one we are tracking. // Codex multiplexes subagent threads (e.g. memory consolidation) on the // same stdio pipe; only our thread should drive turn lifecycle and output. // // The v2 app-server-protocol schema guarantees a top-level threadId on // every notification, so this dispatch-level guard transparently covers // every handler below. If a future codex revision introduces notifications // without threadId, they fall through (ok=false) — re-audit this guard // when bumping codex. if threadID, ok := params["threadId"].(string); ok && c.threadID != "" && threadID != c.threadID { return } switch method { case "turn/started": c.turnStarted = true if turnID := extractNestedString(params, "turn", "id"); turnID != "" { c.turnID = turnID } if c.onMessage != nil { c.onMessage(Message{Type: MessageStatus, Status: "running", SessionID: c.threadID}) } case "turn/completed": turnID := extractNestedString(params, "turn", "id") status := extractNestedString(params, "turn", "status") threadID, _ := params["threadId"].(string) c.cfg.Logger.Info("codex turn/completed received", "thread_id", threadID, "turn_id", turnID, "status", status) aborted := status == "cancelled" || status == "canceled" || status == "aborted" || status == "interrupted" // Capture the error message from failed turns so callers can surface // a real reason instead of falling back to "empty output". if status == "failed" { errMsg := extractNestedString(params, "turn", "error", "message") if errMsg == "" { errMsg = "codex turn failed" } c.setTurnError(errMsg) } if c.completedTurnIDs == nil { c.completedTurnIDs = map[string]bool{} } if turnID != "" { if c.completedTurnIDs[turnID] { return } c.completedTurnIDs[turnID] = true } // Extract usage from turn/completed if present (e.g. params.turn.usage). if turn, ok := params["turn"].(map[string]any); ok { c.extractUsageFromMap(turn) } if c.onTurnDone != nil { c.onTurnDone(aborted) } case "error": // Top-level protocol error. Retrying notifications (willRetry=true) are // transient reconnect attempts; only capture terminal errors so we // don't stomp on a real failure later with a retry placeholder. willRetry, _ := params["willRetry"].(bool) errMsg := extractNestedString(params, "error", "message") if errMsg == "" { errMsg = extractNestedString(params, "message") } if errMsg != "" { c.cfg.Logger.Warn("codex error notification", "message", errMsg, "will_retry", willRetry) if !willRetry { c.setTurnError(errMsg) } } case "thread/status/changed": statusType := extractNestedString(params, "status", "type") if statusType == "idle" && c.turnStarted { if c.onTurnDone != nil { c.onTurnDone(false) } } default: if strings.HasPrefix(method, "item/") { c.handleItemNotification(method, params) } } } func (c *codexClient) handleItemNotification(method string, params map[string]any) { item, _ := params["item"].(map[string]any) itemType, _ := item["type"].(string) itemID, _ := item["id"].(string) if isCodexItemProgressActivity(method) && c.onSemanticActivity != nil { c.onSemanticActivity(describeCodexItemProgressActivity(method, itemType, itemID)) } if item == nil { return } switch { case method == "item/started" && itemType == "commandExecution": command, _ := item["command"].(string) if c.onMessage != nil { c.onMessage(Message{ Type: MessageToolUse, Tool: "exec_command", CallID: itemID, Input: map[string]any{"command": command}, }) } case method == "item/completed" && itemType == "commandExecution": output, _ := item["aggregatedOutput"].(string) if c.onMessage != nil { c.onMessage(Message{ Type: MessageToolResult, Tool: "exec_command", CallID: itemID, Output: output, }) } case method == "item/started" && itemType == "fileChange": if c.onMessage != nil { c.onMessage(Message{ Type: MessageToolUse, Tool: "patch_apply", CallID: itemID, }) } case method == "item/completed" && itemType == "fileChange": if c.onMessage != nil { c.onMessage(Message{ Type: MessageToolResult, Tool: "patch_apply", CallID: itemID, }) } case method == "item/completed" && itemType == "agentMessage": text, _ := item["text"].(string) if text != "" && c.onMessage != nil { c.onMessage(Message{Type: MessageText, Content: text}) } phase, _ := item["phase"].(string) if phase == "final_answer" && c.turnStarted { if c.onTurnDone != nil { c.onTurnDone(false) } } } } func isCodexItemProgressActivity(method string) bool { switch method { case "item/agentMessage/delta", "item/commandExecution/outputDelta", "item/fileChange/outputDelta", "item/mcpToolCall/progress": return true default: return false } } func describeCodexItemProgressActivity(method, itemType, itemID string) string { if itemType == "" { itemType = "unknown" } if itemID == "" { return fmt.Sprintf("%s:%s", method, itemType) } return fmt.Sprintf("%s:%s:%s", method, itemType, itemID) } // extractUsageFromMap extracts token usage from a map that may contain // "usage", "token_usage", or "tokens" fields. Handles various Codex formats. func (c *codexClient) extractUsageFromMap(data map[string]any) { // Try common field names for usage data. var usageMap map[string]any for _, key := range []string{"usage", "token_usage", "tokens"} { if v, ok := data[key].(map[string]any); ok { usageMap = v break } } if usageMap == nil { return } c.usageMu.Lock() defer c.usageMu.Unlock() // Try various key conventions. c.usage.InputTokens += codexInt64(usageMap, "input_tokens", "input", "prompt_tokens") c.usage.OutputTokens += codexInt64(usageMap, "output_tokens", "output", "completion_tokens") c.usage.CacheReadTokens += codexInt64(usageMap, "cache_read_tokens", "cache_read_input_tokens") c.usage.CacheWriteTokens += codexInt64(usageMap, "cache_write_tokens", "cache_creation_input_tokens") } // codexInt64 returns the first non-zero int64 value from the map for the given keys. func codexInt64(m map[string]any, keys ...string) int64 { for _, key := range keys { switch v := m[key].(type) { case float64: if v != 0 { return int64(v) } case int64: if v != 0 { return v } } } return 0 } // ── Codex session log scanner ── // codexSessionUsage holds usage extracted from a Codex session JSONL file. type codexSessionUsage struct { usage TokenUsage model string } // scanCodexSessionUsage scans Codex session JSONL files written after startTime // to extract token usage. Codex writes token_count events to // ~/.codex/sessions/YYYY/MM/DD/*.jsonl. func scanCodexSessionUsage(startTime time.Time) *codexSessionUsage { root := codexSessionRoot() if root == "" { return nil } // Look in today's session directory. dateDir := filepath.Join(root, fmt.Sprintf("%04d", startTime.Year()), fmt.Sprintf("%02d", int(startTime.Month())), fmt.Sprintf("%02d", startTime.Day()), ) files, err := filepath.Glob(filepath.Join(dateDir, "*.jsonl")) if err != nil || len(files) == 0 { return nil } // Only scan files modified after startTime (this task's session). var result codexSessionUsage for _, f := range files { info, err := os.Stat(f) if err != nil || info.ModTime().Before(startTime) { continue } if u := parseCodexSessionFile(f); u != nil { // Take the last matching file's data (usually there's only one per task). result = *u } } if result.usage.InputTokens == 0 && result.usage.OutputTokens == 0 { return nil } return &result } // codexSessionRoot returns the Codex sessions directory. func codexSessionRoot() string { if codexHome := os.Getenv("CODEX_HOME"); codexHome != "" { dir := filepath.Join(codexHome, "sessions") if info, err := os.Stat(dir); err == nil && info.IsDir() { return dir } } home, err := os.UserHomeDir() if err != nil { return "" } dir := filepath.Join(home, ".codex", "sessions") if info, err := os.Stat(dir); err == nil && info.IsDir() { return dir } return "" } // codexSessionTokenCount represents a token_count event in Codex JSONL. type codexSessionTokenCount struct { Type string `json:"type"` Payload *struct { Type string `json:"type"` Info *struct { TotalTokenUsage *struct { InputTokens int64 `json:"input_tokens"` OutputTokens int64 `json:"output_tokens"` CachedInputTokens int64 `json:"cached_input_tokens"` CacheReadInputTokens int64 `json:"cache_read_input_tokens"` ReasoningOutputTokens int64 `json:"reasoning_output_tokens"` } `json:"total_token_usage"` LastTokenUsage *struct { InputTokens int64 `json:"input_tokens"` OutputTokens int64 `json:"output_tokens"` CachedInputTokens int64 `json:"cached_input_tokens"` CacheReadInputTokens int64 `json:"cache_read_input_tokens"` ReasoningOutputTokens int64 `json:"reasoning_output_tokens"` } `json:"last_token_usage"` Model string `json:"model"` } `json:"info"` Model string `json:"model"` } `json:"payload"` } // parseCodexSessionFile extracts the final token_count from a Codex session file. func parseCodexSessionFile(path string) *codexSessionUsage { f, err := os.Open(path) if err != nil { return nil } defer f.Close() var result codexSessionUsage found := false scanner := bufio.NewScanner(f) scanner.Buffer(make([]byte, 0, 256*1024), 1024*1024) for scanner.Scan() { line := scanner.Bytes() // Fast pre-filter. if !bytesContainsStr(line, "token_count") && !bytesContainsStr(line, "turn_context") { continue } var evt codexSessionTokenCount if err := json.Unmarshal(line, &evt); err != nil || evt.Payload == nil { continue } // Track model from turn_context events. if evt.Type == "turn_context" && evt.Payload.Model != "" { result.model = evt.Payload.Model continue } // Extract token usage from token_count events. if evt.Payload.Type == "token_count" && evt.Payload.Info != nil { usage := evt.Payload.Info.TotalTokenUsage if usage == nil { usage = evt.Payload.Info.LastTokenUsage } if usage != nil { cachedTokens := usage.CachedInputTokens if cachedTokens == 0 { cachedTokens = usage.CacheReadInputTokens } result.usage = TokenUsage{ InputTokens: usage.InputTokens, OutputTokens: usage.OutputTokens + usage.ReasoningOutputTokens, CacheReadTokens: cachedTokens, } if evt.Payload.Info.Model != "" { result.model = evt.Payload.Info.Model } found = true } } } if !found { return nil } return &result } // bytesContainsStr checks if b contains the string s (without allocating). func bytesContainsStr(b []byte, s string) bool { return strings.Contains(string(b), s) } // ── Helpers ── func extractThreadID(result json.RawMessage) string { var r struct { Thread struct { ID string `json:"id"` } `json:"thread"` } if err := json.Unmarshal(result, &r); err != nil { return "" } return r.Thread.ID } func extractNestedString(m map[string]any, keys ...string) string { current := any(m) for _, key := range keys { obj, ok := current.(map[string]any) if !ok { return "" } current = obj[key] } s, _ := current.(string) return s } func nilIfEmpty(s string) any { if s == "" { return nil } return s }