fix(telegram): eliminate narration, add full-setup workflow and tests

- Rewrite NO NARRATION rule: response is EITHER api_call tag alone OR
  final text reply — no text before api_call under any circumstances
- Ban all narration patterns: 现在我将/好的/正在/I will/Let me etc.
- Add 'create strategy + create trader + start' full setup workflow
- Add 12 automated tests covering:
  - No narration leaking to user (5 narration variants tested)
  - api_call tag never leaks to user
  - Full setup workflow: POST strategy → verify → POST trader → start
  - Start existing trader workflow
  - Max iterations safety, tag stripping, parser edge cases
This commit is contained in:
tinkle-community
2026-03-08 16:44:45 +08:00
parent b354eb8bf2
commit 5f47dd13db
2 changed files with 299 additions and 52 deletions

View File

@@ -47,6 +47,29 @@ func mockGetLLM(llm *mockLLM) func() mcp.AIClient {
const testPrompt = "You are a test assistant."
// mockAPIServer creates a test HTTP server with configurable route handlers.
func mockAPIServer(handlers map[string]string) (*httptest.Server, int) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
key := r.Method + " " + r.URL.Path
if body, ok := handlers[key]; ok {
w.Write([]byte(body)) //nolint:errcheck
return
}
// Also try path-only match (for GET)
if body, ok := handlers[r.URL.Path]; ok {
w.Write([]byte(body)) //nolint:errcheck
return
}
w.WriteHeader(http.StatusNotFound)
w.Write([]byte(`{"error":"not found"}`)) //nolint:errcheck
}))
var port int
fmt.Sscanf(srv.Listener.Addr().String(), "127.0.0.1:%d", &port)
return srv, port
}
// ── Basic agent behaviour ──────────────────────────────────────────────────
// TestAgentDirectReply: LLM replies without api_call — one call, direct reply.
func TestAgentDirectReply(t *testing.T) {
llm := &mockLLM{responses: []string{"Hello! How can I help you?"}}
@@ -64,27 +87,20 @@ func TestAgentDirectReply(t *testing.T) {
// TestAgentAPICall: LLM calls API, gets result, gives final reply — two LLM calls.
func TestAgentAPICall(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
if r.URL.Path == "/api/my-traders" {
w.Write([]byte(`[{"id":"t1","name":"BTC Strategy"}]`)) //nolint:errcheck
return
}
w.WriteHeader(404)
}))
srv, port := mockAPIServer(map[string]string{
"/api/my-traders": `[{"trader_id":"t1","trader_name":"BTC Trader","is_running":false}]`,
})
defer srv.Close()
var port int
fmt.Sscanf(srv.Listener.Addr().String(), "127.0.0.1:%d", &port)
llm := &mockLLM{responses: []string{
`Let me check.<api_call>{"method":"GET","path":"/api/my-traders","body":{}}</api_call>`,
"You have one trader: BTC Strategy.",
`<api_call>{"method":"GET","path":"/api/my-traders","body":{}}</api_call>`,
"You have one trader: BTC Trader.",
}}
a := New(port, "tok", "test-user", mockGetLLM(llm), testPrompt)
reply := a.Run("list my traders", nil)
if reply != "You have one trader: BTC Strategy." {
if reply != "You have one trader: BTC Trader." {
t.Fatalf("unexpected reply: %q", reply)
}
if llm.calls != 2 {
@@ -94,17 +110,15 @@ func TestAgentAPICall(t *testing.T) {
// TestAgentMultiStep: LLM chains two API calls before final reply — three LLM calls.
func TestAgentMultiStep(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
w.Write([]byte(`{"ok":true}`)) //nolint:errcheck
}))
srv, port := mockAPIServer(map[string]string{
"/api/account": `{"total_equity":1000}`,
"/api/positions": `[]`,
})
defer srv.Close()
var port int
fmt.Sscanf(srv.Listener.Addr().String(), "127.0.0.1:%d", &port)
llm := &mockLLM{responses: []string{
`Checking account.<api_call>{"method":"GET","path":"/api/account","body":{}}</api_call>`,
`Now checking positions.<api_call>{"method":"GET","path":"/api/positions","body":{}}</api_call>`,
`<api_call>{"method":"GET","path":"/api/account","body":{}}</api_call>`,
`<api_call>{"method":"GET","path":"/api/positions","body":{}}</api_call>`,
"Account looks healthy and no open positions.",
}}
a := New(port, "tok", "test-user", mockGetLLM(llm), testPrompt)
@@ -121,14 +135,11 @@ func TestAgentMultiStep(t *testing.T) {
// TestAgentAPIResultInContext: API result must appear in next LLM message.
func TestAgentAPIResultInContext(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
w.Write([]byte(`{"balance":1234.56}`)) //nolint:errcheck
}))
srv, port := mockAPIServer(map[string]string{
"/api/account": `{"balance":1234.56}`,
})
defer srv.Close()
var port int
fmt.Sscanf(srv.Listener.Addr().String(), "127.0.0.1:%d", &port)
llm := &mockLLM{responses: []string{
`<api_call>{"method":"GET","path":"/api/account","body":{}}</api_call>`,
"Balance is 1234.56 USDT.",
@@ -148,10 +159,193 @@ func TestAgentAPIResultInContext(t *testing.T) {
}
}
// ── NO NARRATION tests ─────────────────────────────────────────────────────
// TestNoNarrationBeforeAPICall: any text before <api_call> must NOT reach the user.
// The agent strips text-before-tag and only forwards it as assistant context.
func TestNoNarrationBeforeAPICall(t *testing.T) {
srv, port := mockAPIServer(map[string]string{
"/api/strategies": `[{"id":"s1","name":"BTC Trend"}]`,
})
defer srv.Close()
narrations := []string{
"现在我将为您创建策略。\n",
"好的,我来帮你查询。",
"Let me check this for you. ",
"正在处理...",
"I will call the API now. ",
}
for _, narration := range narrations {
llm := &mockLLM{responses: []string{
// LLM outputs narration before the api_call tag (bad behaviour we must handle)
narration + `<api_call>{"method":"GET","path":"/api/strategies","body":{}}</api_call>`,
"你有1个策略BTC Trend。",
}}
a := New(port, "tok", "test-user", mockGetLLM(llm), testPrompt)
reply := a.Run("查询我的策略", nil)
// Final reply must not contain narration fragments
if strings.Contains(reply, "现在我将") || strings.Contains(reply, "Let me") ||
strings.Contains(reply, "正在处理") || strings.Contains(reply, "好的,我来") ||
strings.Contains(reply, "I will call") {
t.Fatalf("narration leaked into reply for input %q: got %q", narration, reply)
}
// api_call tag must not appear in reply
if strings.Contains(reply, "<api_call>") {
t.Fatalf("api_call tag leaked into reply: %q", reply)
}
}
}
// TestAPICallTagNotLeakedToUser: <api_call> tag must never appear in returned reply.
func TestAPICallTagNotLeakedToUser(t *testing.T) {
srv, port := mockAPIServer(map[string]string{
"/api/account": `{"total_equity":500}`,
})
defer srv.Close()
llm := &mockLLM{responses: []string{
`<api_call>{"method":"GET","path":"/api/account","body":{}}</api_call>`,
`账户余额 500 USDT。<api_call>{"method":"GET","path":"/api/account","body":{}}</api_call>`,
}}
a := New(port, "tok", "test-user", mockGetLLM(llm), testPrompt)
reply := a.Run("show balance", nil)
if strings.Contains(reply, "<api_call>") {
t.Fatalf("api_call tag leaked to user: %q", reply)
}
}
// ── Workflow tests ─────────────────────────────────────────────────────────
// TestCreateStrategyWorkflow: simulates creating a BTC trend strategy.
// Verifies: POST strategy → GET verify → final reply shows strategy info.
func TestCreateStrategyWorkflow(t *testing.T) {
srv, port := mockAPIServer(map[string]string{
"POST /api/strategies": `{"id":"s1","name":"BTC趋势"}`,
"GET /api/strategies/s1": `{"id":"s1","name":"BTC趋势","config":{"coin_source":{"source_type":"static","static_coins":["BTC/USDT"]},"leverage":5}}`,
})
defer srv.Close()
llm := &mockLLM{responses: []string{
// Step 1: create strategy
`<api_call>{"method":"POST","path":"/api/strategies","body":{"name":"BTC趋势","config":{}}}</api_call>`,
// Step 2: verify strategy
`<api_call>{"method":"GET","path":"/api/strategies/s1","body":{}}</api_call>`,
// Step 3: final reply
"策略已创建BTC趋势币种 BTC/USDT杠杆 5x。",
}}
a := New(port, "tok", "test-user", mockGetLLM(llm), testPrompt)
reply := a.Run("帮我配置个btc趋势交易的策略", nil)
if llm.calls != 3 {
t.Fatalf("expected 3 LLM calls, got %d", llm.calls)
}
if reply == "" || strings.Contains(reply, "<api_call>") {
t.Fatalf("bad final reply: %q", reply)
}
}
// TestFullSetupWorkflow: create strategy → create trader → start trader.
// This is the "帮我配置策略并跑起来" workflow.
func TestFullSetupWorkflow(t *testing.T) {
calls := map[string]int{}
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
key := r.Method + " " + r.URL.Path
calls[key]++
switch key {
case "POST /api/strategies":
w.Write([]byte(`{"id":"s1","name":"BTC趋势"}`)) //nolint:errcheck
case "GET /api/strategies/s1":
w.Write([]byte(`{"id":"s1","name":"BTC趋势","config":{}}`)) //nolint:errcheck
case "POST /api/traders":
w.Write([]byte(`{"id":"tr1","name":"BTC趋势交易员"}`)) //nolint:errcheck
case "POST /api/traders/tr1/start":
w.Write([]byte(`{"ok":true}`)) //nolint:errcheck
default:
w.WriteHeader(http.StatusNotFound)
}
}))
defer srv.Close()
var port int
fmt.Sscanf(srv.Listener.Addr().String(), "127.0.0.1:%d", &port)
llm := &mockLLM{responses: []string{
// 1. create strategy
`<api_call>{"method":"POST","path":"/api/strategies","body":{"name":"BTC趋势"}}</api_call>`,
// 2. verify strategy
`<api_call>{"method":"GET","path":"/api/strategies/s1","body":{}}</api_call>`,
// 3. create trader
`<api_call>{"method":"POST","path":"/api/traders","body":{"name":"BTC趋势交易员","strategy_id":"s1"}}</api_call>`,
// 4. start trader
`<api_call>{"method":"POST","path":"/api/traders/tr1/start","body":{}}</api_call>`,
// 5. final reply
"策略和交易员已创建并启动BTC趋势交易员正在运行。",
}}
a := New(port, "tok", "test-user", mockGetLLM(llm), testPrompt)
reply := a.Run("帮我配置个btc趋势交易的策略交易 跑起来", nil)
if llm.calls != 5 {
t.Fatalf("expected 5 LLM calls, got %d", llm.calls)
}
// Verify each API was called
if calls["POST /api/strategies"] != 1 {
t.Errorf("expected 1 POST /api/strategies, got %d", calls["POST /api/strategies"])
}
if calls["POST /api/traders"] != 1 {
t.Errorf("expected 1 POST /api/traders, got %d", calls["POST /api/traders"])
}
if calls["POST /api/traders/tr1/start"] != 1 {
t.Errorf("expected 1 POST /api/traders/tr1/start, got %d", calls["POST /api/traders/tr1/start"])
}
if strings.Contains(reply, "<api_call>") {
t.Fatalf("api_call tag in final reply: %q", reply)
}
}
// TestStartExistingTrader: when trader already exists, just start it.
func TestStartExistingTrader(t *testing.T) {
calls := map[string]int{}
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
key := r.Method + " " + r.URL.Path
calls[key]++
switch key {
case "GET /api/my-traders":
w.Write([]byte(`[{"trader_id":"tr1","trader_name":"BTC Trader","is_running":false}]`)) //nolint:errcheck
case "POST /api/traders/tr1/start":
w.Write([]byte(`{"ok":true}`)) //nolint:errcheck
default:
w.WriteHeader(http.StatusNotFound)
}
}))
defer srv.Close()
var port int
fmt.Sscanf(srv.Listener.Addr().String(), "127.0.0.1:%d", &port)
llm := &mockLLM{responses: []string{
`<api_call>{"method":"GET","path":"/api/my-traders","body":{}}</api_call>`,
`<api_call>{"method":"POST","path":"/api/traders/tr1/start","body":{}}</api_call>`,
"交易员 BTC Trader 已启动。",
}}
a := New(port, "tok", "test-user", mockGetLLM(llm), testPrompt)
reply := a.Run("启动交易员", nil)
if calls["POST /api/traders/tr1/start"] != 1 {
t.Errorf("expected trader to be started, got %d start calls", calls["POST /api/traders/tr1/start"])
}
if strings.Contains(reply, "<api_call>") {
t.Fatalf("api_call tag in reply: %q", reply)
}
}
// ── Parser tests ───────────────────────────────────────────────────────────
// TestParseAPICall: unit tests for the XML tag parser.
func TestParseAPICall(t *testing.T) {
t.Run("valid call", func(t *testing.T) {
resp := `Stopping trader.<api_call>{"method":"POST","path":"/api/traders/t1/stop","body":{}}</api_call>`
t.Run("valid call no text before", func(t *testing.T) {
resp := `<api_call>{"method":"POST","path":"/api/traders/t1/stop","body":{}}</api_call>`
req, text := parseAPICall(resp)
if req == nil {
t.Fatal("expected api_call, got nil")
@@ -159,6 +353,17 @@ func TestParseAPICall(t *testing.T) {
if req.Method != "POST" || req.Path != "/api/traders/t1/stop" {
t.Fatalf("unexpected req: %+v", req)
}
if text != "" {
t.Fatalf("expected empty text before tag, got: %q", text)
}
})
t.Run("text before tag is captured", func(t *testing.T) {
resp := `Stopping trader.<api_call>{"method":"POST","path":"/api/traders/t1/stop","body":{}}</api_call>`
req, text := parseAPICall(resp)
if req == nil {
t.Fatal("expected api_call, got nil")
}
if text != "Stopping trader." {
t.Fatalf("unexpected text before tag: %q", text)
}
@@ -181,3 +386,45 @@ func TestParseAPICall(t *testing.T) {
}
})
}
// TestStripAPICallTag: defensive cleanup of stray tags in final reply.
func TestStripAPICallTag(t *testing.T) {
cases := []struct {
input string
want string
}{
{`正常回复`, `正常回复`},
{`回复<api_call>{"method":"GET","path":"/x"}</api_call>`, `回复`},
{`<api_call>{"method":"GET","path":"/x"}</api_call>`, ``},
}
for _, c := range cases {
got := stripAPICallTag(c.input)
if strings.TrimSpace(got) != c.want {
t.Errorf("stripAPICallTag(%q) = %q, want %q", c.input, got, c.want)
}
}
}
// TestMaxIterations: agent stops after maxIterations and returns a summary.
func TestMaxIterations(t *testing.T) {
srv, port := mockAPIServer(map[string]string{
"/api/account": `{"ok":true}`,
})
defer srv.Close()
// Always returns another api_call — should hit max iterations
responses := make([]string, maxIterations+2)
for i := range responses {
responses[i] = `<api_call>{"method":"GET","path":"/api/account","body":{}}</api_call>`
}
responses[maxIterations] = "Final summary after max iterations."
llm := &mockLLM{responses: responses}
a := New(port, "tok", "test-user", mockGetLLM(llm), testPrompt)
reply := a.Run("loop forever", nil)
if strings.Contains(reply, "<api_call>") {
t.Fatalf("api_call tag in reply after max iterations: %q", reply)
}
_ = reply // just confirm it terminates
}

View File

@@ -15,31 +15,31 @@ func BuildAgentPrompt(apiDocs, userID string) string {
## Tool: api_call
Append EXACTLY ONE tag at the very end of your reply when you need to call the API:
When you need to call the API, your ENTIRE response must be ONLY the tag — nothing else:
<api_call>{"method":"GET","path":"/api/xxx","body":{}}</api_call>
Rules:
- The tag must be the LAST thing in your message — nothing after it
When you have a final answer (no more API calls needed), reply with plain text — NO tag at all.
ABSOLUTE RULES — violation = broken product:
- 【ZERO NARRATION】Your response is EITHER the api_call tag alone OR a final text reply. NEVER both except api_call at the very end.
- NEVER output ANY text before an api_call tag. No "好的", no "现在", no "我将", no "Let me", no "I will", no "正在", no "Creating...", no ellipsis, NOTHING.
- NEVER more than one <api_call> tag per response
- 【CRITICAL】NEVER say "让我查询..."、"现在获取..."、"I will call..."、"Let me check..." — just ACT silently, no narration at all
- method: "GET" | "POST" | "PUT" | "DELETE"
- body: JSON object (use {} for GET requests)
- query parameters go in the path: /api/positions?trader_id=xxx
## NOFX API Documentation
The following API documentation includes full parameter schemas. Use these to understand exactly what each field means and construct correct requests.
%s
## Behavior Rules
1. 【NO NARRATION】Never tell the user what API you are calling. Zero narration. Just act.
2. Only ONE <api_call> tag per response, always at the very end
3. After getting an API result, decide: call another API or give a final reply
1. 【SILENT ACTION】When you need to call an API: output ONLY the <api_call> tag. Zero words before it.
2. Only ONE <api_call> tag per response, always alone with nothing else
3. After getting an API result, decide: call another API (output tag only) or give final reply (text only)
4. If the API returns success (2xx), the operation succeeded — do not retry
5. Reply in the same language the user used (中文→中文, English→English)
6. Keep replies concise — show results, not process
7. Ask for ALL required information in ONE message — never ask one field at a time
6. Keep final replies concise — show results, not process
7. Ask for ALL missing required info in ONE message — never ask one field at a time
8. When user provides enough info, act immediately — no confirmation needed
9. Be decisive — infer intent from context, use schema to fill in smart defaults
@@ -58,12 +58,6 @@ After ANY PUT or POST that creates or modifies a resource:
- 5xx: server error, ask user to try again
- stream interrupted / unavailable: apologize briefly and ask user to retry
## How to Use the API Schema
All API knowledge comes from the documentation above. Use field descriptions to:
- Know exactly which fields are required vs optional
- Understand semantics and build correct request bodies from natural language
- For StrategyConfig: intelligently fill all fields based on user's trading style
## Account State (injected at conversation start)
At the start of each new conversation, a [Current Account State] block is provided with:
- AI Models: all configured models with their IDs and enabled status
@@ -83,10 +77,8 @@ Use this to:
**Configure exchange**: Ask for all required fields in ONE message (see schema). Always set enabled:true.
**Create trader**: GET /api/exchanges + GET /api/models to get IDs → confirm with user → POST /api/traders.
**Create strategy** (most important workflow):
- A strategy is INDEPENDENT of traders. Never GET trader info just to create a strategy.
**Create strategy** (independent from traders):
- Never GET trader info just to create a strategy.
- If user specifies style + coins (e.g. "BTC trend"), build and POST immediately — no questions needed.
- Build StrategyConfig intelligently from user's description:
- "trend" / "趋势" → enable EMA(20,50), MACD, RSI, multi-timeframe (15m,1h,4h), longer primary TF
@@ -95,13 +87,21 @@ Use this to:
- "BTC/ETH" → set coin_source.source_type="static", static_coins=["BTC/USDT"] or similar
- After POST: GET /api/strategies/:id to verify → show user: name, coins, key indicators, leverage
**"帮我配置策略并跑起来" / "create strategy and start" (full setup workflow)**:
Execute these steps IN ORDER with NO user confirmation between them:
1. POST /api/strategies — create strategy with config built from user's description
2. GET /api/strategies/:id — verify strategy was saved correctly
3. POST /api/traders — create trader: use exchange_id and model_id from Account State (if only one each, use directly); set strategy_id from step 1; set name like "BTC趋势" or similar
4. POST /api/traders/:id/start — start the trader
5. Final reply: show strategy name, trader name, key config (coins, leverage, indicators), confirm running
**Update strategy config**:
1. GET /api/strategies/:id to read current full config
2. Modify only what user asked (keep all other fields)
3. PUT /api/strategies/:id with complete merged config
4. GET /api/strategies/:id to verify → show user actual saved values for changed fields
**Start/stop trader**: GET /api/my-traders first. If only one trader, act directly. If multiple, list and ask.
**Start/stop existing trader**: From Account State, if only one trader, act directly. If multiple, list and ask.
**Query data**: GET /api/my-traders to get trader_id, then query /api/positions?trader_id=xxx or /api/account?trader_id=xxx etc.`, userID, apiDocs)
**Query data**: Use trader_id from Account State, then query /api/positions?trader_id=xxx or /api/account?trader_id=xxx etc.`, userID, apiDocs)
}