1// Package mcp provides functionality for managing Model Context Protocol (MCP)
  2// clients within the Crush application.
  3package mcp
  4
  5import (
  6	"cmp"
  7	"context"
  8	"errors"
  9	"fmt"
 10	"io"
 11	"log/slog"
 12	"net/http"
 13	"os"
 14	"os/exec"
 15	"strings"
 16	"sync"
 17	"time"
 18
 19	"github.com/charmbracelet/crush/internal/config"
 20	"github.com/charmbracelet/crush/internal/csync"
 21	"github.com/charmbracelet/crush/internal/home"
 22	"github.com/charmbracelet/crush/internal/permission"
 23	"github.com/charmbracelet/crush/internal/pubsub"
 24	"github.com/charmbracelet/crush/internal/version"
 25	"github.com/modelcontextprotocol/go-sdk/mcp"
 26)
 27
 28var (
 29	sessions = csync.NewMap[string, *mcp.ClientSession]()
 30	states   = csync.NewMap[string, ClientInfo]()
 31	broker   = pubsub.NewBroker[Event]()
 32	initOnce sync.Once
 33	initDone = make(chan struct{})
 34)
 35
 36// State represents the current state of an MCP client
 37type State int
 38
 39const (
 40	StateDisabled State = iota
 41	StateStarting
 42	StateConnected
 43	StateError
 44)
 45
 46func (s State) String() string {
 47	switch s {
 48	case StateDisabled:
 49		return "disabled"
 50	case StateStarting:
 51		return "starting"
 52	case StateConnected:
 53		return "connected"
 54	case StateError:
 55		return "error"
 56	default:
 57		return "unknown"
 58	}
 59}
 60
 61// EventType represents the type of MCP event
 62type EventType uint
 63
 64const (
 65	EventStateChanged EventType = iota
 66	EventToolsListChanged
 67	EventPromptsListChanged
 68)
 69
 70// Event represents an event in the MCP system
 71type Event struct {
 72	Type   EventType
 73	Name   string
 74	State  State
 75	Error  error
 76	Counts Counts
 77}
 78
 79// Counts number of available tools, prompts, etc.
 80type Counts struct {
 81	Tools   int
 82	Prompts int
 83}
 84
 85// ClientInfo holds information about an MCP client's state
 86type ClientInfo struct {
 87	Name        string
 88	State       State
 89	Error       error
 90	Client      *mcp.ClientSession
 91	Counts      Counts
 92	ConnectedAt time.Time
 93}
 94
 95// SubscribeEvents returns a channel for MCP events
 96func SubscribeEvents(ctx context.Context) <-chan pubsub.Event[Event] {
 97	return broker.Subscribe(ctx)
 98}
 99
100// GetStates returns the current state of all MCP clients
101func GetStates() map[string]ClientInfo {
102	return states.Copy()
103}
104
105// GetState returns the state of a specific MCP client
106func GetState(name string) (ClientInfo, bool) {
107	return states.Get(name)
108}
109
110// Close closes all MCP clients. This should be called during application shutdown.
111func Close() error {
112	var wg sync.WaitGroup
113	done := make(chan struct{}, 1)
114	go func() {
115		for name, session := range sessions.Seq2() {
116			wg.Go(func() {
117				if err := session.Close(); err != nil &&
118					!errors.Is(err, io.EOF) &&
119					!errors.Is(err, context.Canceled) &&
120					err.Error() != "signal: killed" {
121					slog.Warn("Failed to shutdown MCP client", "name", name, "error", err)
122				}
123			})
124		}
125		wg.Wait()
126		done <- struct{}{}
127	}()
128	select {
129	case <-done:
130	case <-time.After(5 * time.Second):
131	}
132	broker.Shutdown()
133	return nil
134}
135
136// Initialize initializes MCP clients based on the provided configuration.
137func Initialize(ctx context.Context, permissions permission.Service, cfg *config.Config) {
138	var wg sync.WaitGroup
139	// Initialize states for all configured MCPs
140	for name, m := range cfg.MCP {
141		if m.Disabled {
142			updateState(name, StateDisabled, nil, nil, Counts{})
143			slog.Debug("skipping disabled mcp", "name", name)
144			continue
145		}
146
147		// Set initial starting state
148		updateState(name, StateStarting, nil, nil, Counts{})
149
150		wg.Add(1)
151		go func(name string, m config.MCPConfig) {
152			defer func() {
153				wg.Done()
154				if r := recover(); r != nil {
155					var err error
156					switch v := r.(type) {
157					case error:
158						err = v
159					case string:
160						err = fmt.Errorf("panic: %s", v)
161					default:
162						err = fmt.Errorf("panic: %v", v)
163					}
164					updateState(name, StateError, err, nil, Counts{})
165					slog.Error("panic in mcp client initialization", "error", err, "name", name)
166				}
167			}()
168
169			// createSession handles its own timeout internally.
170			session, err := createSession(ctx, name, m, cfg.Resolver())
171			if err != nil {
172				return
173			}
174
175			tools, err := getTools(ctx, session)
176			if err != nil {
177				slog.Error("error listing tools", "error", err)
178				updateState(name, StateError, err, nil, Counts{})
179				session.Close()
180				return
181			}
182
183			prompts, err := getPrompts(ctx, session)
184			if err != nil {
185				slog.Error("error listing prompts", "error", err)
186				updateState(name, StateError, err, nil, Counts{})
187				session.Close()
188				return
189			}
190
191			toolCount := updateTools(name, tools)
192			updatePrompts(name, prompts)
193			sessions.Set(name, session)
194
195			updateState(name, StateConnected, nil, session, Counts{
196				Tools:   toolCount,
197				Prompts: len(prompts),
198			})
199		}(name, m)
200	}
201	wg.Wait()
202	initOnce.Do(func() { close(initDone) })
203}
204
205// WaitForInit blocks until MCP initialization is complete.
206// If Initialize was never called, this returns immediately.
207func WaitForInit(ctx context.Context) error {
208	select {
209	case <-initDone:
210		return nil
211	case <-ctx.Done():
212		return ctx.Err()
213	}
214}
215
216func getOrRenewClient(ctx context.Context, name string) (*mcp.ClientSession, error) {
217	sess, ok := sessions.Get(name)
218	if !ok {
219		return nil, fmt.Errorf("mcp '%s' not available", name)
220	}
221
222	cfg := config.Get()
223	m := cfg.MCP[name]
224	state, _ := states.Get(name)
225
226	timeout := mcpTimeout(m)
227	pingCtx, cancel := context.WithTimeout(ctx, timeout)
228	defer cancel()
229	err := sess.Ping(pingCtx, nil)
230	if err == nil {
231		return sess, nil
232	}
233	updateState(name, StateError, maybeTimeoutErr(err, timeout), nil, state.Counts)
234
235	sess, err = createSession(ctx, name, m, cfg.Resolver())
236	if err != nil {
237		return nil, err
238	}
239
240	updateState(name, StateConnected, nil, sess, state.Counts)
241	sessions.Set(name, sess)
242	return sess, nil
243}
244
245// updateState updates the state of an MCP client and publishes an event
246func updateState(name string, state State, err error, client *mcp.ClientSession, counts Counts) {
247	info := ClientInfo{
248		Name:   name,
249		State:  state,
250		Error:  err,
251		Client: client,
252		Counts: counts,
253	}
254	switch state {
255	case StateConnected:
256		info.ConnectedAt = time.Now()
257	case StateError:
258		sessions.Del(name)
259	}
260	states.Set(name, info)
261
262	// Publish state change event
263	broker.Publish(pubsub.UpdatedEvent, Event{
264		Type:   EventStateChanged,
265		Name:   name,
266		State:  state,
267		Error:  err,
268		Counts: counts,
269	})
270}
271
272func createSession(ctx context.Context, name string, m config.MCPConfig, resolver config.VariableResolver) (*mcp.ClientSession, error) {
273	timeout := mcpTimeout(m)
274	mcpCtx, cancel := context.WithCancel(ctx)
275	cancelTimer := time.AfterFunc(timeout, cancel)
276
277	transport, err := createTransport(mcpCtx, m, resolver)
278	if err != nil {
279		updateState(name, StateError, err, nil, Counts{})
280		slog.Error("error creating mcp client", "error", err, "name", name)
281		cancel()
282		cancelTimer.Stop()
283		return nil, err
284	}
285
286	client := mcp.NewClient(
287		&mcp.Implementation{
288			Name:    "crush",
289			Version: version.Version,
290			Title:   "Crush",
291		},
292		&mcp.ClientOptions{
293			ToolListChangedHandler: func(context.Context, *mcp.ToolListChangedRequest) {
294				broker.Publish(pubsub.UpdatedEvent, Event{
295					Type: EventToolsListChanged,
296					Name: name,
297				})
298			},
299			PromptListChangedHandler: func(context.Context, *mcp.PromptListChangedRequest) {
300				broker.Publish(pubsub.UpdatedEvent, Event{
301					Type: EventPromptsListChanged,
302					Name: name,
303				})
304			},
305			LoggingMessageHandler: func(_ context.Context, req *mcp.LoggingMessageRequest) {
306				slog.Info("MCP log", "name", name, "data", req.Params.Data)
307			},
308		},
309	)
310
311	session, err := client.Connect(mcpCtx, transport, nil)
312	if err != nil {
313		err = maybeStdioErr(err, transport)
314		updateState(name, StateError, maybeTimeoutErr(err, timeout), nil, Counts{})
315		slog.Error("MCP client failed to initialize", "error", err, "name", name)
316		cancel()
317		cancelTimer.Stop()
318		return nil, err
319	}
320
321	cancelTimer.Stop()
322	slog.Info("MCP client initialized", "name", name)
323	return session, nil
324}
325
326// maybeStdioErr if a stdio mcp prints an error in non-json format, it'll fail
327// to parse, and the cli will then close it, causing the EOF error.
328// so, if we got an EOF err, and the transport is STDIO, we try to exec it
329// again with a timeout and collect the output so we can add details to the
330// error.
331// this happens particularly when starting things with npx, e.g. if node can't
332// be found or some other error like that.
333func maybeStdioErr(err error, transport mcp.Transport) error {
334	if !errors.Is(err, io.EOF) {
335		return err
336	}
337	ct, ok := transport.(*mcp.CommandTransport)
338	if !ok {
339		return err
340	}
341	if err2 := stdioCheck(ct.Command); err2 != nil {
342		err = errors.Join(err, err2)
343	}
344	return err
345}
346
347func maybeTimeoutErr(err error, timeout time.Duration) error {
348	if errors.Is(err, context.Canceled) {
349		return fmt.Errorf("timed out after %s", timeout)
350	}
351	return err
352}
353
354func createTransport(ctx context.Context, m config.MCPConfig, resolver config.VariableResolver) (mcp.Transport, error) {
355	switch m.Type {
356	case config.MCPStdio:
357		command, err := resolver.ResolveValue(m.Command)
358		if err != nil {
359			return nil, fmt.Errorf("invalid mcp command: %w", err)
360		}
361		if strings.TrimSpace(command) == "" {
362			return nil, fmt.Errorf("mcp stdio config requires a non-empty 'command' field")
363		}
364		cmd := exec.CommandContext(ctx, home.Long(command), m.Args...)
365		cmd.Env = append(os.Environ(), m.ResolvedEnv()...)
366		return &mcp.CommandTransport{
367			Command: cmd,
368		}, nil
369	case config.MCPHttp:
370		if strings.TrimSpace(m.URL) == "" {
371			return nil, fmt.Errorf("mcp http config requires a non-empty 'url' field")
372		}
373		client := &http.Client{
374			Transport: &headerRoundTripper{
375				headers: m.ResolvedHeaders(),
376			},
377		}
378		return &mcp.StreamableClientTransport{
379			Endpoint:   m.URL,
380			HTTPClient: client,
381		}, nil
382	case config.MCPSSE:
383		if strings.TrimSpace(m.URL) == "" {
384			return nil, fmt.Errorf("mcp sse config requires a non-empty 'url' field")
385		}
386		client := &http.Client{
387			Transport: &headerRoundTripper{
388				headers: m.ResolvedHeaders(),
389			},
390		}
391		return &mcp.SSEClientTransport{
392			Endpoint:   m.URL,
393			HTTPClient: client,
394		}, nil
395	default:
396		return nil, fmt.Errorf("unsupported mcp type: %s", m.Type)
397	}
398}
399
400type headerRoundTripper struct {
401	headers map[string]string
402}
403
404func (rt headerRoundTripper) RoundTrip(req *http.Request) (*http.Response, error) {
405	for k, v := range rt.headers {
406		req.Header.Set(k, v)
407	}
408	return http.DefaultTransport.RoundTrip(req)
409}
410
411func mcpTimeout(m config.MCPConfig) time.Duration {
412	return time.Duration(cmp.Or(m.Timeout, 15)) * time.Second
413}
414
415func stdioCheck(old *exec.Cmd) error {
416	ctx, cancel := context.WithTimeout(context.Background(), time.Second*5)
417	defer cancel()
418	cmd := exec.CommandContext(ctx, old.Path, old.Args...)
419	cmd.Env = old.Env
420	out, err := cmd.CombinedOutput()
421	if err == nil || errors.Is(ctx.Err(), context.DeadlineExceeded) {
422		return nil
423	}
424	return fmt.Errorf("%w: %s", err, string(out))
425}