package telegram import ( "context" "encoding/json" "errors" "io" "os" "path/filepath" "strings" "testing" "github.com/mymmrac/telego" ta "github.com/mymmrac/telego/telegoapi" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "github.com/sipeed/picoclaw/pkg/bus" "github.com/sipeed/picoclaw/pkg/channels" "github.com/sipeed/picoclaw/pkg/config" "github.com/sipeed/picoclaw/pkg/media" ) const testToken = "1234567890:aaaabbbbaaaabbbbaaaabbbbaaaabbbbccc" // stubCaller implements ta.Caller for testing. type stubCaller struct { calls []stubCall callFn func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) } type stubCall struct { URL string Data *ta.RequestData } func (s *stubCaller) Call(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { s.calls = append(s.calls, stubCall{URL: url, Data: data}) return s.callFn(ctx, url, data) } // stubConstructor implements ta.RequestConstructor for testing. type stubConstructor struct{} type multipartCall struct { Parameters map[string]string FileSizes map[string]int } func (s *stubConstructor) JSONRequest(parameters any) (*ta.RequestData, error) { b, err := json.Marshal(parameters) if err != nil { return nil, err } return &ta.RequestData{ ContentType: "application/json", BodyRaw: b, }, nil } func (s *stubConstructor) MultipartRequest( parameters map[string]string, files map[string]ta.NamedReader, ) (*ta.RequestData, error) { return &ta.RequestData{}, nil } type multipartRecordingConstructor struct { stubConstructor calls []multipartCall } func (s *multipartRecordingConstructor) MultipartRequest( parameters map[string]string, files map[string]ta.NamedReader, ) (*ta.RequestData, error) { call := multipartCall{ Parameters: make(map[string]string, len(parameters)), FileSizes: make(map[string]int, len(files)), } for k, v := range parameters { call.Parameters[k] = v } for field, file := range files { if file == nil { continue } data, err := io.ReadAll(file) if err != nil { return nil, err } call.FileSizes[field] = len(data) } s.calls = append(s.calls, call) return &ta.RequestData{}, nil } // successResponse returns a ta.Response that telego will treat as a successful SendMessage. func successResponse(t *testing.T) *ta.Response { t.Helper() msg := &telego.Message{MessageID: 1} b, err := json.Marshal(msg) require.NoError(t, err) return &ta.Response{Ok: true, Result: b} } // newTestChannel creates a TelegramChannel with a mocked bot for unit testing. func newTestChannel(t *testing.T, caller *stubCaller) *TelegramChannel { return newTestChannelWithConstructor(t, caller, &stubConstructor{}) } func newTestChannelWithConstructor( t *testing.T, caller *stubCaller, constructor ta.RequestConstructor, ) *TelegramChannel { t.Helper() bot, err := telego.NewBot(testToken, telego.WithAPICaller(caller), telego.WithRequestConstructor(constructor), telego.WithDiscardLogger(), ) require.NoError(t, err) base := channels.NewBaseChannel("telegram", nil, nil, nil, channels.WithMaxMessageLength(4000), ) base.SetRunning(true) return &TelegramChannel{ BaseChannel: base, bot: bot, chatIDs: make(map[string]int64), config: config.DefaultConfig(), } } func TestSendMedia_ImageFallbacksToDocumentOnInvalidDimensions(t *testing.T) { constructor := &multipartRecordingConstructor{} caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { switch { case strings.Contains(url, "sendPhoto"): return nil, errors.New(`api: 400 "Bad Request: PHOTO_INVALID_DIMENSIONS"`) case strings.Contains(url, "sendDocument"): return successResponse(t), nil default: t.Fatalf("unexpected API call: %s", url) return nil, nil } }, } ch := newTestChannelWithConstructor(t, caller, constructor) store := media.NewFileMediaStore() ch.SetMediaStore(store) tmpDir := t.TempDir() localPath := filepath.Join(tmpDir, "woodstock-en-10s.png") content := []byte("fake-png-content") require.NoError(t, os.WriteFile(localPath, content, 0o644)) ref, err := store.Store( localPath, media.MediaMeta{Filename: "woodstock-en-10s.png", ContentType: "image/png"}, "scope-1", ) require.NoError(t, err) err = ch.SendMedia(context.Background(), bus.OutboundMediaMessage{ ChatID: "12345", Parts: []bus.MediaPart{{ Type: "image", Ref: ref, Caption: "caption", }}, }) require.NoError(t, err) require.Len(t, caller.calls, 2) assert.Contains(t, caller.calls[0].URL, "sendPhoto") assert.Contains(t, caller.calls[1].URL, "sendDocument") require.Len(t, constructor.calls, 2) assert.Equal(t, len(content), constructor.calls[0].FileSizes["photo"]) assert.Equal(t, len(content), constructor.calls[1].FileSizes["document"]) assert.Equal(t, "caption", constructor.calls[1].Parameters["caption"]) } func TestSendMedia_ImageNonDimensionErrorDoesNotFallback(t *testing.T) { constructor := &multipartRecordingConstructor{} caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { return nil, errors.New("api: 500 \"server exploded\"") }, } ch := newTestChannelWithConstructor(t, caller, constructor) store := media.NewFileMediaStore() ch.SetMediaStore(store) tmpDir := t.TempDir() localPath := filepath.Join(tmpDir, "image.png") require.NoError(t, os.WriteFile(localPath, []byte("fake-png-content"), 0o644)) ref, err := store.Store(localPath, media.MediaMeta{Filename: "image.png", ContentType: "image/png"}, "scope-1") require.NoError(t, err) err = ch.SendMedia(context.Background(), bus.OutboundMediaMessage{ ChatID: "12345", Parts: []bus.MediaPart{{ Type: "image", Ref: ref, }}, }) require.Error(t, err) assert.ErrorIs(t, err, channels.ErrTemporary) require.Len(t, caller.calls, 1) assert.Contains(t, caller.calls[0].URL, "sendPhoto") require.Len(t, constructor.calls, 1) assert.NotContains(t, caller.calls[0].URL, "sendDocument") } func TestSend_EmptyContent(t *testing.T) { caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { t.Fatal("SendMessage should not be called for empty content") return nil, nil }, } ch := newTestChannel(t, caller) err := ch.Send(context.Background(), bus.OutboundMessage{ ChatID: "12345", Content: "", }) assert.NoError(t, err) assert.Empty(t, caller.calls, "no API calls should be made for empty content") } func TestSend_ShortMessage_SingleCall(t *testing.T) { caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { return successResponse(t), nil }, } ch := newTestChannel(t, caller) err := ch.Send(context.Background(), bus.OutboundMessage{ ChatID: "12345", Content: "Hello, world!", }) assert.NoError(t, err) assert.Len(t, caller.calls, 1, "short message should result in exactly one SendMessage call") } func TestSend_LongMessage_SingleCall(t *testing.T) { // With WithMaxMessageLength(4000), the Manager pre-splits messages before // they reach Send(). A message at exactly 4000 chars should go through // as a single SendMessage call (no re-split needed since HTML expansion // won't exceed 4096 for plain text). caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { return successResponse(t), nil }, } ch := newTestChannel(t, caller) longContent := strings.Repeat("a", 4000) err := ch.Send(context.Background(), bus.OutboundMessage{ ChatID: "12345", Content: longContent, }) assert.NoError(t, err) assert.Len(t, caller.calls, 1, "pre-split message within limit should result in one SendMessage call") } func TestSend_HTMLFallback_PerChunk(t *testing.T) { callCount := 0 caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { callCount++ // Fail on odd calls (HTML attempt), succeed on even calls (plain text fallback) if callCount%2 == 1 { return nil, errors.New("Bad Request: can't parse entities") } return successResponse(t), nil }, } ch := newTestChannel(t, caller) err := ch.Send(context.Background(), bus.OutboundMessage{ ChatID: "12345", Content: "Hello **world**", }) assert.NoError(t, err) // One short message → 1 HTML attempt (fail) + 1 plain text fallback (success) = 2 calls assert.Equal(t, 2, len(caller.calls), "should have HTML attempt + plain text fallback") } func TestSend_HTMLFallback_BothFail(t *testing.T) { caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { return nil, errors.New("send failed") }, } ch := newTestChannel(t, caller) err := ch.Send(context.Background(), bus.OutboundMessage{ ChatID: "12345", Content: "Hello", }) assert.Error(t, err) assert.True(t, errors.Is(err, channels.ErrTemporary), "error should wrap ErrTemporary") assert.Equal(t, 2, len(caller.calls), "should have HTML attempt + plain text attempt") } func TestSend_LongMessage_HTMLFallback_StopsOnError(t *testing.T) { // With a long message that gets split into 2 chunks, if both HTML and // plain text fail on the first chunk, Send should return early. caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { return nil, errors.New("send failed") }, } ch := newTestChannel(t, caller) longContent := strings.Repeat("x", 4001) err := ch.Send(context.Background(), bus.OutboundMessage{ ChatID: "12345", Content: longContent, }) assert.Error(t, err) // Should fail on the first chunk (2 calls: HTML + fallback), never reaching the second chunk. assert.Equal(t, 2, len(caller.calls), "should stop after first chunk fails both HTML and plain text") } func TestSend_MarkdownShortButHTMLLong_MultipleCalls(t *testing.T) { caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { return successResponse(t), nil }, } ch := newTestChannel(t, caller) // Create markdown whose length is <= 4000 but whose HTML expansion is much longer. // "**a** " (6 chars) becomes "a " (9 chars) in HTML, so repeating it many times // yields HTML that exceeds Telegram's limit while markdown stays within it. markdownContent := strings.Repeat("**a** ", 600) // 3600 chars markdown, HTML ~5400+ chars assert.LessOrEqual(t, len([]rune(markdownContent)), 4000, "markdown content must not exceed chunk size") htmlExpanded := markdownToTelegramHTML(markdownContent) assert.Greater( t, len([]rune(htmlExpanded)), 4096, "HTML expansion must exceed Telegram limit for this test to be meaningful", ) err := ch.Send(context.Background(), bus.OutboundMessage{ ChatID: "12345", Content: markdownContent, }) assert.NoError(t, err) assert.Greater( t, len(caller.calls), 1, "markdown-short but HTML-long message should be split into multiple SendMessage calls", ) } func TestSend_HTMLOverflow_WordBoundary(t *testing.T) { caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { return successResponse(t), nil }, } ch := newTestChannel(t, caller) // We want to force a split near index ~2600 while keeping markdown length <= 4000. // Prefix of 430 bold units (6 chars each) = 2580 chars. // Expansion per unit is +3 chars when converted to HTML, so 2580 + 430*3 = 3870. prefix := strings.Repeat("**a** ", 430) targetWord := "TARGETWORDTHATSTAYSTOGETHER" // Suffix of 230 bold units (6 chars each) = 1380 chars. // Total markdown length: 2580 (prefix) + 27 (target word) + 1380 (suffix) = 3987 <= 4000. // HTML expansion adds ~3 chars per bold unit: (430 + 230)*3 = 1980 extra chars, // so total HTML length comfortably exceeds 4096. suffix := strings.Repeat(" **b**", 230) content := prefix + targetWord + suffix // Ensure the test content matches the intended boundary conditions. assert.LessOrEqual(t, len([]rune(content)), 4000, "markdown content must not exceed chunk size for this test") err := ch.Send(context.Background(), bus.OutboundMessage{ ChatID: "123456", Content: content, }) assert.NoError(t, err) foundFullWord := false for i, call := range caller.calls { var params map[string]any err := json.Unmarshal(call.Data.BodyRaw, ¶ms) require.NoError(t, err) text, _ := params["text"].(string) hasWord := strings.Contains(text, targetWord) t.Logf("Chunk %d length: %d, contains target word: %v", i, len(text), hasWord) if hasWord { foundFullWord = true break } } assert.True(t, foundFullWord, "The target word should not be split between chunks") } func TestSend_NotRunning(t *testing.T) { caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { t.Fatal("should not be called") return nil, nil }, } ch := newTestChannel(t, caller) ch.SetRunning(false) err := ch.Send(context.Background(), bus.OutboundMessage{ ChatID: "12345", Content: "Hello", }) assert.ErrorIs(t, err, channels.ErrNotRunning) assert.Empty(t, caller.calls) } func TestSend_InvalidChatID(t *testing.T) { caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { t.Fatal("should not be called") return nil, nil }, } ch := newTestChannel(t, caller) err := ch.Send(context.Background(), bus.OutboundMessage{ ChatID: "not-a-number", Content: "Hello", }) assert.Error(t, err) assert.True(t, errors.Is(err, channels.ErrSendFailed), "error should wrap ErrSendFailed") assert.Empty(t, caller.calls) } func TestParseTelegramChatID_Plain(t *testing.T) { cid, tid, err := parseTelegramChatID("12345") assert.NoError(t, err) assert.Equal(t, int64(12345), cid) assert.Equal(t, 0, tid) } func TestParseTelegramChatID_NegativeGroup(t *testing.T) { cid, tid, err := parseTelegramChatID("-1001234567890") assert.NoError(t, err) assert.Equal(t, int64(-1001234567890), cid) assert.Equal(t, 0, tid) } func TestParseTelegramChatID_WithThreadID(t *testing.T) { cid, tid, err := parseTelegramChatID("-1001234567890/42") assert.NoError(t, err) assert.Equal(t, int64(-1001234567890), cid) assert.Equal(t, 42, tid) } func TestParseTelegramChatID_GeneralTopic(t *testing.T) { cid, tid, err := parseTelegramChatID("-100123/1") assert.NoError(t, err) assert.Equal(t, int64(-100123), cid) assert.Equal(t, 1, tid) } func TestParseTelegramChatID_Invalid(t *testing.T) { _, _, err := parseTelegramChatID("not-a-number") assert.Error(t, err) } func TestParseTelegramChatID_InvalidThreadID(t *testing.T) { _, _, err := parseTelegramChatID("-100123/not-a-thread") assert.Error(t, err) assert.Contains(t, err.Error(), "invalid thread ID") } func TestSend_WithForumThreadID(t *testing.T) { caller := &stubCaller{ callFn: func(ctx context.Context, url string, data *ta.RequestData) (*ta.Response, error) { return successResponse(t), nil }, } ch := newTestChannel(t, caller) err := ch.Send(context.Background(), bus.OutboundMessage{ ChatID: "-1001234567890/42", Content: "Hello from topic", }) assert.NoError(t, err) assert.Len(t, caller.calls, 1) } func TestHandleMessage_ForumTopic_SetsMetadata(t *testing.T) { messageBus := bus.NewMessageBus() ch := &TelegramChannel{ BaseChannel: channels.NewBaseChannel("telegram", nil, messageBus, nil), chatIDs: make(map[string]int64), ctx: context.Background(), } msg := &telego.Message{ Text: "hello from topic", MessageID: 10, MessageThreadID: 42, Chat: telego.Chat{ ID: -1001234567890, Type: "supergroup", IsForum: true, }, From: &telego.User{ ID: 7, FirstName: "Alice", }, } err := ch.handleMessage(context.Background(), msg) require.NoError(t, err) inbound, ok := <-messageBus.InboundChan() require.True(t, ok, "expected inbound message") // Composite chatID should include thread ID assert.Equal(t, "-1001234567890/42", inbound.ChatID) // Peer ID should include thread ID for session key isolation assert.Equal(t, "group", inbound.Peer.Kind) assert.Equal(t, "-1001234567890/42", inbound.Peer.ID) // Parent peer metadata should be set for agent binding assert.Equal(t, "topic", inbound.Metadata["parent_peer_kind"]) assert.Equal(t, "42", inbound.Metadata["parent_peer_id"]) } func TestHandleMessage_NoForum_NoThreadMetadata(t *testing.T) { messageBus := bus.NewMessageBus() ch := &TelegramChannel{ BaseChannel: channels.NewBaseChannel("telegram", nil, messageBus, nil), chatIDs: make(map[string]int64), ctx: context.Background(), } msg := &telego.Message{ Text: "regular group message", MessageID: 11, Chat: telego.Chat{ ID: -100999, Type: "group", }, From: &telego.User{ ID: 8, FirstName: "Bob", }, } err := ch.handleMessage(context.Background(), msg) require.NoError(t, err) inbound, ok := <-messageBus.InboundChan() require.True(t, ok) // Plain chatID without thread suffix assert.Equal(t, "-100999", inbound.ChatID) // Peer ID should be raw chat ID (no thread suffix) assert.Equal(t, "group", inbound.Peer.Kind) assert.Equal(t, "-100999", inbound.Peer.ID) // No parent peer metadata assert.Empty(t, inbound.Metadata["parent_peer_kind"]) assert.Empty(t, inbound.Metadata["parent_peer_id"]) } func TestHandleMessage_ReplyThread_NonForum_NoIsolation(t *testing.T) { messageBus := bus.NewMessageBus() ch := &TelegramChannel{ BaseChannel: channels.NewBaseChannel("telegram", nil, messageBus, nil), chatIDs: make(map[string]int64), ctx: context.Background(), } // In regular groups, reply threads set MessageThreadID to the original // message ID. This should NOT trigger per-thread session isolation. msg := &telego.Message{ Text: "reply in thread", MessageID: 20, MessageThreadID: 15, Chat: telego.Chat{ ID: -100999, Type: "supergroup", IsForum: false, }, From: &telego.User{ ID: 9, FirstName: "Carol", }, } err := ch.handleMessage(context.Background(), msg) require.NoError(t, err) inbound, ok := <-messageBus.InboundChan() require.True(t, ok) // chatID should NOT include thread suffix for non-forum groups assert.Equal(t, "-100999", inbound.ChatID) // Peer ID should be raw chat ID (shared session for whole group) assert.Equal(t, "group", inbound.Peer.Kind) assert.Equal(t, "-100999", inbound.Peer.ID) // No parent peer metadata assert.Empty(t, inbound.Metadata["parent_peer_kind"]) assert.Empty(t, inbound.Metadata["parent_peer_id"]) } func TestHandleMessage_EmptyContent_Ignored(t *testing.T) { messageBus := bus.NewMessageBus() ch := &TelegramChannel{ BaseChannel: channels.NewBaseChannel("telegram", nil, messageBus, nil), chatIDs: make(map[string]int64), ctx: context.Background(), } // Service message with no text/caption/media (like ForumTopicCreated) msg := &telego.Message{ MessageID: 123, Chat: telego.Chat{ ID: 456, Type: "group", }, From: &telego.User{ ID: 789, FirstName: "User", }, } err := ch.handleMessage(context.Background(), msg) require.NoError(t, err) // Should NOT publish to message bus select { case <-messageBus.InboundChan(): t.Fatal("Empty message should not be published to message bus") default: } }