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chore: import upstream snapshot with attribution
2026-07-13 12:40:33 +08:00

724 lines
20 KiB
Go

// Package chat implements the 'micro chat' interactive agent command.
//
// micro chat opens a terminal REPL where you can talk to your services
// through an LLM. It discovers all services from the registry, exposes
// each endpoint as a tool, and lets the model orchestrate calls in
// response to natural-language prompts.
package chat
import (
"bufio"
"context"
"encoding/json"
"errors"
"fmt"
"io"
"os"
"os/exec"
"path/filepath"
"sort"
"strings"
"time"
"github.com/urfave/cli/v2"
"go-micro.dev/v6/agent"
agentpb "go-micro.dev/v6/agent/proto"
"go-micro.dev/v6/ai"
clt "go-micro.dev/v6/client"
"go-micro.dev/v6/cmd"
"go-micro.dev/v6/cmd/micro/cli/generate"
"go-micro.dev/v6/codec/bytes"
"go-micro.dev/v6/registry"
_ "go-micro.dev/v6/ai/anthropic"
_ "go-micro.dev/v6/ai/atlascloud"
_ "go-micro.dev/v6/ai/gemini"
_ "go-micro.dev/v6/ai/groq"
_ "go-micro.dev/v6/ai/mistral"
_ "go-micro.dev/v6/ai/openai"
_ "go-micro.dev/v6/ai/together"
)
const systemPromptTmpl = `You are an agent that orchestrates microservices. Use the available tools to fulfill user requests. When you call a tool, explain what you are doing.
Available services: %s
If a user asks for something that no existing service can handle, use the micro_generate_service tool to create it. Pass a short description of what the service should do. After it's created, the new service's endpoints will be available as tools and you can use them immediately.
Do NOT make up capabilities. Only use the tools that are available. If generation fails, tell the user.`
var generateTool = ai.Tool{
Name: "micro_generate_service",
OriginalName: "micro.generate_service",
Description: "Generate a new microservice from a description. Use when the user needs a capability that no existing service provides. The service will be created, compiled, and started automatically.",
Properties: map[string]any{
"description": map[string]any{
"type": "string",
"description": "What the service should do, e.g. 'a shipping service that tracks parcels and calculates rates'",
},
},
}
func init() {
cmd.Register(&cli.Command{
Name: "chat",
Usage: "Interactive AI chat that orchestrates your services",
Description: `Start an interactive chat session that uses an LLM to call your services.
micro chat discovers every service in the registry, exposes each endpoint as a
tool, and lets you ask natural-language questions like "list all users" or
"create an order for product 42". The model decides which tool to call and
issues RPCs to the right service.
If you ask for something no existing service handles, the agent will generate
a new service automatically and start using it.
Examples:
ANTHROPIC_API_KEY=sk-ant-... micro chat --provider anthropic
micro chat --provider openai --prompt "list all users"
micro chat assistant --prompt "create a task"`,
ArgsUsage: "[agent]",
Flags: []cli.Flag{
&cli.StringFlag{Name: "provider", Usage: "AI provider (anthropic, openai, gemini, groq, mistral, together, atlascloud)", EnvVars: []string{"MICRO_AI_PROVIDER"}},
&cli.StringFlag{Name: "api_key", Usage: "API key for the provider", EnvVars: []string{"MICRO_AI_API_KEY"}},
&cli.StringFlag{Name: "model", Usage: "Model name (uses provider default if unset)", EnvVars: []string{"MICRO_AI_MODEL"}},
&cli.StringFlag{Name: "base_url", Usage: "Override the provider's base URL", EnvVars: []string{"MICRO_AI_BASE_URL"}},
&cli.StringFlag{Name: "prompt", Usage: "Send a single prompt and exit (non-interactive)"},
&cli.BoolFlag{Name: "stream", Usage: "Stream model output as it is generated when the provider supports it"},
},
Action: run,
})
}
// agentInfo holds metadata about a discovered agent.
type agentInfo struct {
Name string
Services []string
}
type session struct {
provider string
apiKey string
model ai.Model
tools *ai.Tools
reg registry.Registry
cl clt.Client
hist *ai.History
toolList []ai.Tool
sysPrompt string
procs []*exec.Cmd
agents map[string]agentInfo
stream bool
// Built-in agent capabilities (plan, delegate), shared with the
// agent package so the direct-service fallback has the same tools a
// real agent would.
builtinTools []ai.Tool
builtinHandle func(name string, input map[string]any) (any, string, bool)
}
// discoverAgents finds agents registered in the registry.
func (s *session) discoverAgents() bool {
svcs, err := s.reg.ListServices()
if err != nil {
return false
}
s.agents = make(map[string]agentInfo)
for _, svc := range svcs {
records, err := s.reg.GetService(svc.Name)
if err != nil || len(records) == 0 {
continue
}
meta := records[0].Metadata
if meta == nil || meta["type"] != "agent" {
if len(records[0].Nodes) > 0 {
meta = records[0].Nodes[0].Metadata
}
if meta == nil || meta["type"] != "agent" {
continue
}
}
var services []string
if svcsStr := meta["services"]; svcsStr != "" {
services = strings.Split(svcsStr, ",")
}
s.agents[svc.Name] = agentInfo{Name: svc.Name, Services: services}
}
return len(s.agents) > 0
}
// callAgent calls an agent's Chat endpoint via RPC.
func (s *session) callAgent(ctx context.Context, name, message string) (*agent.Response, error) {
reqBody, _ := json.Marshal(map[string]string{"message": message})
req := s.cl.NewRequest(name, "Agent.Chat", &bytes.Frame{Data: reqBody})
var rsp bytes.Frame
if err := s.cl.Call(ctx, req, &rsp); err != nil {
return nil, err
}
var resp struct {
Reply string `json:"reply"`
Agent string `json:"agent"`
ToolCalls []struct {
ID string `json:"id"`
Name string `json:"name"`
Input string `json:"input"`
Result string `json:"result"`
} `json:"tool_calls"`
}
if err := json.Unmarshal(rsp.Data, &resp); err != nil {
return nil, err
}
r := &agent.Response{
Reply: resp.Reply,
Agent: resp.Agent,
}
for _, tc := range resp.ToolCalls {
var input map[string]any
_ = json.Unmarshal([]byte(tc.Input), &input)
r.ToolCalls = append(r.ToolCalls, ai.ToolCall{
ID: tc.ID,
Name: tc.Name,
Input: input,
Result: tc.Result,
})
}
return r, nil
}
// streamAgent calls an agent's StreamChat endpoint and prints chunks as they
// arrive. Agents that do not expose StreamChat return an error; callers use that
// signal to fall back to Agent.Chat.
func (s *session) streamAgent(ctx context.Context, name, message string) error {
stream, err := agentpb.NewAgentService(name, s.cl).StreamChat(ctx, &agentpb.ChatRequest{Message: message})
if err != nil {
return err
}
defer stream.Close()
var reply strings.Builder
for {
chunk, err := stream.Recv()
if errors.Is(err, io.EOF) {
break
}
if err != nil {
return err
}
if chunk == nil || chunk.Reply == "" {
continue
}
fmt.Print(chunk.Reply)
reply.WriteString(chunk.Reply)
}
if reply.Len() > 0 {
fmt.Println()
}
return nil
}
// buildRouterPrompt creates a system prompt for the router that
// knows about all available agents and can dispatch to them.
func (s *session) buildRouterPrompt() string {
var agentDescs []string
for name, info := range s.agents {
svcs := strings.Join(info.Services, ", ")
agentDescs = append(agentDescs, fmt.Sprintf("- %s (manages: %s)", name, svcs))
}
sort.Strings(agentDescs)
return fmt.Sprintf(`You are a router that dispatches user requests to the right agent.
Available agents:
%s
For each user message, decide which agent should handle it and call the route_to_agent tool with the agent name and the message. If the request spans multiple agents, call route_to_agent multiple times.
If no agent can handle the request, say so.`, strings.Join(agentDescs, "\n"))
}
func (s *session) refreshTools() {
discovered, err := s.tools.Discover()
if err != nil {
return
}
s.toolList = append(discovered, generateTool)
s.toolList = append(s.toolList, s.builtinTools...)
serviceNames := make(map[string]bool)
for _, t := range discovered {
parts := strings.SplitN(t.OriginalName, ".", 2)
if len(parts) == 2 {
serviceNames[parts[0]] = true
}
}
var svcList []string
for name := range serviceNames {
svcList = append(svcList, name)
}
if len(svcList) == 0 {
s.sysPrompt = fmt.Sprintf(systemPromptTmpl, "(none yet)")
} else {
s.sysPrompt = fmt.Sprintf(systemPromptTmpl, strings.Join(svcList, ", "))
}
}
func (s *session) handleGenerate(input map[string]any) (any, string) {
desc, _ := input["description"].(string)
if desc == "" {
return map[string]string{"error": "description is required"}, `{"error":"description is required"}`
}
fmt.Printf("\n \033[36m⚡\033[0m generating service: %s\n", desc)
design, err := generate.Design(context.Background(), s.provider, s.apiKey, "", ".", desc)
if err != nil {
msg := fmt.Sprintf(`{"error":"design failed: %s"}`, err)
return map[string]string{"error": err.Error()}, msg
}
if err := generate.Generate(context.Background(), ".", design, s.provider, s.apiKey, ""); err != nil {
msg := fmt.Sprintf(`{"error":"generate failed: %s"}`, err)
return map[string]string{"error": err.Error()}, msg
}
// Find which services are new (not already in registry)
existing := make(map[string]bool)
if svcs, err := s.reg.ListServices(); err == nil {
for _, svc := range svcs {
existing[svc.Name] = true
}
}
var created []string
for _, svc := range design.Services {
name := strings.TrimSuffix(svc.Name, "-service")
if existing[name] {
continue
}
created = append(created, svc.Name)
// Build and start the new service
svcDir, _ := filepath.Abs(svc.Name)
fmt.Printf(" \033[36m⚡\033[0m starting %s...\n", svc.Name)
buildCmd := exec.Command("go", "build", "-o", svc.Name, ".")
buildCmd.Dir = svcDir
if out, err := buildCmd.CombinedOutput(); err != nil {
fmt.Printf(" \033[33m⚠\033[0m build failed: %s\n", string(out))
continue
}
runCmd := exec.Command(filepath.Join(svcDir, svc.Name))
runCmd.Dir = svcDir
if err := runCmd.Start(); err != nil {
fmt.Printf(" \033[33m⚠\033[0m start failed: %v\n", err)
continue
}
s.procs = append(s.procs, runCmd)
}
if len(created) == 0 {
result := map[string]any{"message": "No new services needed — all already exist."}
b, _ := json.Marshal(result)
return result, string(b)
}
// Wait for services to register
fmt.Printf(" \033[36m⚡\033[0m waiting for services to register...\n")
time.Sleep(5 * time.Second)
s.refreshTools()
fmt.Printf(" \033[32m✓\033[0m %d tools available\n\n", len(s.toolList)-1)
result := map[string]any{
"created": created,
"message": fmt.Sprintf("Created and started: %s. Their endpoints are now available as tools.", strings.Join(created, ", ")),
}
b, _ := json.Marshal(result)
return result, string(b)
}
func run(c *cli.Context) error {
provider := c.String("provider")
apiKey := c.String("api_key")
modelName := c.String("model")
baseURL := c.String("base_url")
singlePrompt := c.String("prompt")
streamOutput := c.Bool("stream")
targetAgent := c.Args().First()
if provider == "" {
provider = ai.AutoDetectProvider(baseURL)
}
if apiKey == "" {
apiKey = fallbackAPIKey(provider)
}
reg := registry.DefaultRegistry
cl := clt.DefaultClient
tools := ai.NewTools(reg, ai.ToolClient(cl))
s := &session{
provider: provider,
apiKey: apiKey,
tools: tools,
reg: reg,
cl: cl,
hist: ai.NewHistory(50),
stream: streamOutput,
}
hasAgents := s.discoverAgents()
if targetAgent != "" {
if _, ok := s.agents[targetAgent]; !ok {
return fmt.Errorf("agent %q is not registered; run `micro agent list` to see available agents", targetAgent)
}
s.agents = map[string]agentInfo{targetAgent: s.agents[targetAgent]}
hasAgents = true
}
if targetAgent != "" && singlePrompt != "" {
return s.ask(c.Context, singlePrompt)
}
if apiKey == "" {
return fmt.Errorf("no API key configured; set --api_key or %s", envVarForProvider(provider))
}
// Built-in agent capabilities (plan, delegate), reused from the
// agent package so the direct-service fallback matches a real agent.
builtinTools, builtinHandle := agent.Builtins(
agent.Name("chat"),
agent.WithRegistry(reg),
agent.WithClient(cl),
agent.Provider(provider),
agent.Model(modelName),
agent.APIKey(apiKey),
)
s.builtinTools = builtinTools
s.builtinHandle = builtinHandle
s.refreshTools()
// Wrap the tool handler to intercept generate calls
baseHandler := tools.Handler()
wrappedHandler := func(ctx context.Context, call ai.ToolCall) ai.ToolResult {
if call.Name == "micro_generate_service" {
r, c := s.handleGenerate(call.Input)
return ai.ToolResult{ID: call.ID, Value: r, Content: c}
}
if result, content, ok := s.builtinHandle(call.Name, call.Input); ok {
return ai.ToolResult{ID: call.ID, Value: result, Content: content}
}
return baseHandler(ctx, call)
}
opts := []ai.Option{
ai.WithAPIKey(apiKey),
ai.WithToolHandler(wrappedHandler),
}
if modelName != "" {
opts = append(opts, ai.WithModel(modelName))
}
if baseURL != "" {
opts = append(opts, ai.WithBaseURL(baseURL))
}
s.model = ai.New(provider, opts...)
if s.model == nil {
return fmt.Errorf("unknown provider: %s", provider)
}
defer s.cleanup()
if singlePrompt != "" {
return s.ask(c.Context, singlePrompt)
}
fmt.Println()
fmt.Println(" \033[1mmicro chat\033[0m")
fmt.Println()
fmt.Printf(" Provider \033[36m%s\033[0m\n", provider)
fmt.Printf(" Model \033[36m%s\033[0m\n", s.model.Options().Model)
fmt.Println()
if hasAgents {
fmt.Println(" Agents:")
for name, info := range s.agents {
fmt.Printf(" \033[35m◆\033[0m %s \033[2m(%s)\033[0m\n", name, strings.Join(info.Services, ", "))
}
fmt.Println()
}
fmt.Println(" Tools:")
for _, t := range s.toolList {
fmt.Printf(" \033[32m●\033[0m %s\n", t.OriginalName)
}
if len(s.toolList) == 0 && !hasAgents {
fmt.Println(" \033[33m(no services found)\033[0m")
}
fmt.Println()
fmt.Println(" Type a prompt and press enter. \033[2mCtrl-D or 'exit' to quit.\033[0m")
fmt.Println()
scanner := bufio.NewScanner(os.Stdin)
scanner.Buffer(make([]byte, 0, 4096), 1024*1024)
for {
fmt.Print("\033[1;36m>\033[0m ")
if !scanner.Scan() {
fmt.Println()
return nil
}
line := strings.TrimSpace(scanner.Text())
if line == "" {
continue
}
if line == "exit" || line == "quit" {
return nil
}
if line == "reset" {
s.hist.Reset()
fmt.Println("\033[2m(history cleared)\033[0m")
fmt.Println()
continue
}
if err := s.ask(c.Context, line); err != nil {
fmt.Printf("\033[31merror:\033[0m %v\n", err)
}
fmt.Println()
}
}
func (s *session) ask(ctx context.Context, prompt string) error {
// If agents are registered, route to them
if len(s.agents) > 0 {
return s.routeToAgent(ctx, prompt)
}
// Fallback: direct service access (no agents)
s.hist.Add("user", prompt)
req := &ai.Request{
Prompt: prompt,
SystemPrompt: s.sysPrompt,
Tools: s.toolList,
Messages: s.hist.Messages(),
}
if s.stream {
if err := s.askStream(ctx, req); err == nil {
return nil
} else if !errors.Is(err, ai.ErrStreamingUnsupported) {
return err
}
}
resp, err := s.model.Generate(ctx, req)
if err != nil {
return err
}
if resp.Reply != "" {
s.hist.Add("assistant", resp.Reply)
}
if resp.Answer != "" {
s.hist.Add("assistant", resp.Answer)
}
if resp.Reply != "" {
fmt.Println(resp.Reply)
}
for _, tc := range resp.ToolCalls {
if tc.Name == "micro_generate_service" {
continue
}
args, _ := json.Marshal(tc.Input)
fmt.Printf(" \033[33m→\033[0m \033[2m%s\033[0m(%s)\n", tc.Name, args)
if tc.Result != "" {
fmt.Printf(" \033[32m←\033[0m \033[2m%s\033[0m\n", truncateResult(tc.Result))
}
if tc.Error != "" {
fmt.Printf(" \033[31m✗\033[0m %s\n", tc.Error)
}
}
if resp.Answer != "" {
fmt.Println()
fmt.Println(resp.Answer)
}
return nil
}
func (s *session) askStream(ctx context.Context, req *ai.Request) error {
stream, err := s.model.Stream(ctx, req)
if err != nil {
return err
}
defer stream.Close()
var reply strings.Builder
for {
chunk, err := stream.Recv()
if errors.Is(err, io.EOF) {
break
}
if err != nil {
return err
}
if chunk == nil || chunk.Reply == "" {
continue
}
fmt.Print(chunk.Reply)
reply.WriteString(chunk.Reply)
}
if reply.Len() > 0 {
fmt.Println()
s.hist.Add("assistant", reply.String())
}
return nil
}
// routeToAgent dispatches a message to the right agent.
// If there's only one agent, sends directly. Otherwise uses the
// LLM to classify intent and route.
func (s *session) routeToAgent(ctx context.Context, prompt string) error {
// Single agent — call directly via RPC
if len(s.agents) == 1 {
for name := range s.agents {
fmt.Printf(" \033[35m◆\033[0m \033[2m%s\033[0m\n", name)
if s.stream {
if err := s.streamAgent(ctx, name, prompt); err == nil {
return nil
}
}
resp, err := s.callAgent(ctx, name, prompt)
if err != nil {
return err
}
s.printAgentResponse(resp)
return nil
}
}
// Multiple agents — use LLM to route
routeTool := ai.Tool{
Name: "route_to_agent",
OriginalName: "route_to_agent",
Description: "Route a message to a specific agent for handling.",
Properties: map[string]any{
"agent": map[string]any{
"type": "string",
"description": "The agent name to route to",
},
"message": map[string]any{
"type": "string",
"description": "The message to send to the agent",
},
},
}
routerHandler := func(ctx context.Context, call ai.ToolCall) ai.ToolResult {
agentName, _ := call.Input["agent"].(string)
message, _ := call.Input["message"].(string)
if message == "" {
message = prompt
}
if _, ok := s.agents[agentName]; !ok {
return ai.ToolResult{ID: call.ID, Value: map[string]string{"error": "unknown agent: " + agentName}, Content: `{"error":"unknown agent"}`}
}
fmt.Printf(" \033[35m◆\033[0m \033[2m%s\033[0m\n", agentName)
if s.stream {
if err := s.streamAgent(ctx, agentName, message); err == nil {
return ai.ToolResult{ID: call.ID, Value: map[string]string{"agent": agentName, "streamed": "true"}, Content: `{"streamed":true}`}
}
}
resp, err := s.callAgent(ctx, agentName, message)
if err != nil {
return ai.ToolResult{ID: call.ID, Value: map[string]string{"error": err.Error()}, Content: `{"error":"` + err.Error() + `"}`}
}
s.printAgentResponse(resp)
result := map[string]any{"agent": agentName, "reply": resp.Reply}
b, _ := json.Marshal(result)
return ai.ToolResult{ID: call.ID, Value: result, Content: string(b)}
}
routerModel := ai.New(s.provider,
ai.WithAPIKey(s.apiKey),
ai.WithToolHandler(routerHandler),
)
resp, err := routerModel.Generate(ctx, &ai.Request{
Prompt: prompt,
SystemPrompt: s.buildRouterPrompt(),
Tools: []ai.Tool{routeTool},
})
if err != nil {
return err
}
if resp.Answer != "" {
fmt.Println()
fmt.Println(resp.Answer)
}
return nil
}
func (s *session) printAgentResponse(resp *agent.Response) {
for _, tc := range resp.ToolCalls {
args, _ := json.Marshal(tc.Input)
fmt.Printf(" \033[33m→\033[0m \033[2m%s\033[0m(%s)\n", tc.Name, args)
if tc.Result != "" {
fmt.Printf(" \033[32m←\033[0m \033[2m%s\033[0m\n", truncateResult(tc.Result))
}
}
if resp.Reply != "" {
fmt.Println()
fmt.Println(resp.Reply)
}
}
func (s *session) cleanup() {
for _, p := range s.procs {
if p.Process != nil {
_ = p.Process.Kill()
}
}
}
func fallbackAPIKey(provider string) string {
if v := os.Getenv(envVarForProvider(provider)); v != "" {
return v
}
return ""
}
func envVarForProvider(provider string) string {
switch provider {
case "anthropic":
return "ANTHROPIC_API_KEY"
case "openai":
return "OPENAI_API_KEY"
case "gemini":
return "GEMINI_API_KEY"
case "groq":
return "GROQ_API_KEY"
case "mistral":
return "MISTRAL_API_KEY"
case "together":
return "TOGETHER_API_KEY"
case "atlascloud":
return "ATLASCLOUD_API_KEY"
default:
return "MICRO_AI_API_KEY"
}
}
func truncateResult(s string) string {
if len(s) <= 200 {
return s
}
return s[:200] + "..."
}