Voice

Real-time speech-to-text in the chat composer. The user speaks, the runtime transcribes, the agent runs the resulting prompt.


using System.ClientModel;using System.Net.Http;using System.Text.Json.Serialization;using Microsoft.Agents.AI.Hosting.AGUI.AspNetCore;using Microsoft.AspNetCore.Http.Json;using Microsoft.Extensions.Options;using OpenAI;var builder = WebApplication.CreateBuilder(args);builder.Services.ConfigureHttpJsonOptions(options =>{    // Beautiful-chat types (shipped) + the full-column Sales/Flight/parity types    // ported by the family slots. Both source-generated contexts are chained so    // every feature agent's tool I/O serializes through the fast path.    options.SerializerOptions.TypeInfoResolverChain.Add(BeautifulChatSerializerContext.Default);    options.SerializerOptions.TypeInfoResolverChain.Add(SalesAgentSerializerContext.Default);    // Serialize enum types as their member-name strings rather than numeric    // ordinals (matches the Framework column's wire format).    options.SerializerOptions.Converters.Add(new JsonStringEnumConverter());});builder.Services.AddAGUI();// STOPGAP: IHttpContextAccessor lets AimockHeaderPolicy read the current// request's forwarded x-* headers (stashed on HttpContext.Items by// AimockHeaderMiddleware) at outbound-LLM-call time. HttpContext flows across// the AG-UI SSE-pump ExecutionContext boundary, unlike a middleware-set// AsyncLocal. TODO(copilotkit-sdk-dotnet): migrate to SDK-level header propagation.builder.Services.AddHttpContextAccessor();var app = builder.Build();// STOPGAP: seed the static accessor the outbound header-forwarding policy reads// (the policy is created without DI, mirroring CvDiag.Logger).AimockHeaderPolicy.HttpContextAccessor = app.Services.GetRequiredService<IHttpContextAccessor>();// Forward D5/aimock x-* headers from incoming AG-UI requests to outgoing// OpenAI calls until the .NET SDK owns this propagation centrally.app.UseMiddleware<AimockHeaderMiddleware>();// CVDIAG: backend flap-observability emitter (plan unit L1-F; spec §3). OFF by// default (CVDIAG_BACKEND_EMITTER=on to arm). Seed the static singleton the// outbound LLM policy reads (created without DI), then register the// request-pipeline instrumentation AFTER AimockHeaderMiddleware so the forwarded// x-* correlation headers are already captured for this request.CvdiagBackend.Instance = new CvdiagBackend();app.UseMiddleware<CvdiagInstrumentationMiddleware>();var loggerFactory = app.Services.GetRequiredService<ILoggerFactory>();// CVDIAG: seed the static logger used by AimockHeaderPolicy (created without DI)// to emit the outbound-LLM header-forwarding breadcrumb.CvDiag.Logger = loggerFactory.CreateLogger("CvDiag");var jsonOptions = app.Services.GetRequiredService<IOptions<JsonOptions>>().Value.SerializerOptions;// Single shared OpenAIClient for the whole column. Built once via the harness// ApiKeyResolver (env OPENAI_API_KEY -> config OPENAI_API_KEY -> GitHubToken,// fail-fast for non-mock endpoints) so EVERY feature agent hits the same// upstream with the same credential resolution — no per-feature GitHubToken// dance. Threaded into each feature factory's ctor. See the W0 contract §1.var openAiClient = CreateOpenAiClient(builder.Configuration, loggerFactory.CreateLogger("Program"));// ── Root agentic-chat agent (the Sales pipeline agent) ──────────────────────// agentic-chat, chat-slots, chat-customization-css, prebuilt-{sidebar,popup},// frontend-tools{,-async}, headless-simple, shared-state-read, and the two// tool-rendering catch-all demos all proxy to this root agent via the shared// Next.js `copilotkit/` runtime route.var salesFactory = new SalesAgentFactory(builder.Configuration, openAiClient, jsonOptions, loggerFactory);app.MapAGUI("/", salesFactory.CreateSalesAgent());// ── D5 parity agents (one factory hosts the parity-feature surface) ─────────var d5ParityFactory = new D5ParityAgentFactory(openAiClient, loggerFactory, jsonOptions);app.MapAGUI("/headless-complete", d5ParityFactory.CreateHeadlessCompleteAgent());app.MapAGUI("/voice", d5ParityFactory.CreateVoiceAgent());app.MapAGUI("/gen-ui-agent", d5ParityFactory.CreateGenUiAgent());app.MapAGUI("/gen-ui-tool-based", d5ParityFactory.CreateGenUiToolBasedAgent());app.MapAGUI("/shared-state-streaming", d5ParityFactory.CreateSharedStateStreamingAgent());app.MapAGUI("/readonly-state-agent-context", d5ParityFactory.CreateReadonlyStateAgentContext());app.MapAGUI("/tool-rendering", d5ParityFactory.CreateToolRenderingAgent(reasoning: false));app.MapAGUI("/tool-rendering-reasoning-chain", d5ParityFactory.CreateToolRenderingAgent(reasoning: true));// ── Interrupt agent (NOT-SUPPORTED, wired for parity) ───────────────────────// gen-ui-interrupt and interrupt-headless share this single backend; the// differentiation is on the frontend (in-chat picker vs. headless button grid).// Marked not_supported in manifest.yaml (skipped-incapable) pending a// @copilotkit/react-core resume-path fix — wired here so the column is 1:1.var interruptFactory = new InterruptAgentFactory(builder.Configuration, openAiClient, loggerFactory, jsonOptions);app.MapAGUI("/interrupt-adapted", interruptFactory.CreateInterruptAgent());// ── Multimodal (raw MapPost — the AG-UI adapter rejects content arrays) ─────// Parses the request body directly and emits the small AG-UI SSE event subset// the chat UI needs for text streaming over a vision-capable chat client.app.MapPost("/multimodal", (HttpContext context) => MultimodalEndpoint.HandleAsync(    context,    salesFactory.CreateMultimodalChatClient(),    loggerFactory.CreateLogger("MultimodalEndpoint")));// ── Beautiful Chat flagship demo (shipped) ──────────────────────────────────var beautifulChatFactory = new BeautifulChatAgentFactory(    builder.Configuration,    openAiClient,    jsonOptions,    loggerFactory.CreateLogger<BeautifulChatAgentFactory>());app.MapAGUI("/beautiful-chat", beautifulChatFactory.Create());// ── Agent Config (wraps a neutral inner agent in AgentConfigAgent) ──────────app.MapAGUI("/agent-config", salesFactory.CreateAgentConfigAgent());// ── Reasoning (reasoning-default + reasoning-custom share this backend) ─────app.MapAGUI("/reasoning", salesFactory.CreateReasoningAgent());// ── Declarative Gen UI (A2UI canonical BYOC) ────────────────────────────────var declarativeGenUiAgent = new DeclarativeGenUiAgent(builder.Configuration, openAiClient, loggerFactory, jsonOptions);app.MapAGUI("/declarative-gen-ui", declarativeGenUiAgent.Create());// ── A2UI fixed-schema demo ──────────────────────────────────────────────────var a2uiFixedSchemaAgent = new A2uiFixedSchemaAgent(builder.Configuration, openAiClient, loggerFactory, jsonOptions);app.MapAGUI("/a2ui-fixed-schema", a2uiFixedSchemaAgent.Create());// ── Open Generative UI — basic + advanced ───────────────────────────────────var openGenUiFactory = new OpenGenUiAgentFactory(openAiClient);app.MapAGUI("/open-gen-ui", openGenUiFactory.CreateAgent());var openGenUiAdvancedFactory = new OpenGenUiAdvancedAgentFactory(openAiClient);app.MapAGUI("/open-gen-ui-advanced", openGenUiAdvancedFactory.CreateAgent());// ── BYOC demos (hashbrown + json-render) ────────────────────────────────────var byocHashbrownFactory = new ByocHashbrownAgentFactory(openAiClient, loggerFactory);app.MapAGUI("/byoc-hashbrown", byocHashbrownFactory.CreateAgent());var byocJsonRenderFactory = new ByocJsonRenderAgentFactory(openAiClient, loggerFactory);app.MapAGUI("/byoc-json-render", byocJsonRenderFactory.CreateAgent());// ── MCP Apps demo ───────────────────────────────────────────────────────────var mcpAppsFactory = new McpAppsAgentFactory(openAiClient, loggerFactory);app.MapAGUI("/mcp-apps", mcpAppsFactory.CreateMcpAppsAgent());// ── In-app HITL demo (frontend tools + async HITL) ──────────────────────────var hitlInAppFactory = new HitlInAppAgentFactory(openAiClient, loggerFactory);app.MapAGUI("/hitl-in-app", hitlInAppFactory.CreateHitlInAppAgent());// ── In-chat HITL demo (useHumanInTheLoop) ───────────────────────────────────var hitlInChatFactory = new HitlInChatAgentFactory(openAiClient, loggerFactory);app.MapAGUI("/hitl-in-chat", hitlInChatFactory.CreateHitlInChatAgent());// ── Shared State (Read + Write) demo ────────────────────────────────────────var sharedStateReadWriteFactory = new SharedStateReadWriteAgentFactory(openAiClient, loggerFactory, jsonOptions);app.MapAGUI("/shared-state-read-write", sharedStateReadWriteFactory.CreateAgent());// ── Sub-Agents demo (supervisor delegates to research/writing/critique) ─────var subagentsFactory = new SubagentsAgentFactory(openAiClient, loggerFactory, jsonOptions);app.MapAGUI("/subagents", subagentsFactory.CreateAgent());app.MapGet("/health", () => Results.Ok(new { status = "ok" }));await app.RunAsync();static OpenAIClient CreateOpenAiClient(IConfiguration configuration, ILogger logger){    // Use the shared resolver so the primary OpenAI client and the secondary    // tool-calling HTTP client (A2uiSecondaryToolCaller) agree on which upstream    // endpoint to hit (see ApiKeyResolver for the env/config precedence and the    // non-mock fail-fast).    var endpoint = ApiKeyResolver.ResolveEndpoint(configuration);    var endpointEnv = Environment.GetEnvironmentVariable("OPENAI_BASE_URL");    var endpointConfig = configuration["OPENAI_BASE_URL"];    if (!string.IsNullOrEmpty(endpointEnv))    {        logger.LogInformation("Using OpenAI endpoint from OPENAI_BASE_URL env: {Endpoint}", endpoint);    }    else if (!string.IsNullOrEmpty(endpointConfig))    {        logger.LogInformation("Using OpenAI endpoint from configuration OPENAI_BASE_URL: {Endpoint}", endpoint);    }    else    {        logger.LogInformation("OPENAI_BASE_URL not set; using default OpenAI endpoint: {Endpoint}", endpoint);    }    var apiKey = ApiKeyResolver.ResolveApiKey(configuration, logger);    return new OpenAIClient(        new ApiKeyCredential(apiKey),        AimockHeaderPolicy.CreateOpenAIClientOptions(endpoint));}public class WeatherInfo{    [JsonPropertyName("temperature")]    public int Temperature { get; init; }    [JsonPropertyName("conditions")]    public string Conditions { get; init; } = string.Empty;    [JsonPropertyName("humidity")]    public int Humidity { get; init; }    [JsonPropertyName("wind_speed")]    public int WindSpeed { get; init; }    [JsonPropertyName("feels_like")]    public int FeelsLike { get; init; }    [JsonPropertyName("city")]    public string City { get; init; } = string.Empty;}public partial class Program { }[JsonSerializable(typeof(WeatherInfo))][JsonSerializable(typeof(BeautifulChatTodo))][JsonSerializable(typeof(List<BeautifulChatTodo>))][JsonSerializable(typeof(BeautifulChatFlight))][JsonSerializable(typeof(List<BeautifulChatFlight>))]internal partial class BeautifulChatSerializerContext : JsonSerializerContext{}

You have a working chat surface and you want users to be able to speak instead of type. By the end of this guide, the chat composer will sprout a mic button, recorded audio will be transcribed by the runtime, and the transcript will auto-send to the agent like any other message.

When to use this#

  • Hands-free or accessibility flows where typing isn't the right input modality.
  • Mobile or kiosk surfaces where a long voice query is faster than thumb-typing.
  • Demo and test loops where you want canned audio to drive the chat without a microphone.

If you only need file uploads (audio, images, video, documents), use Multimodal Attachments instead. Voice is specifically about live transcription of recorded speech into chat input.

Frontend#

<CopilotChat /> renders the mic button automatically when the runtime advertises audioFileTranscriptionEnabled: true on its /info endpoint. There's nothing to wire up on the chat surface itself:

page.tsx
import { CopilotKit } from "@copilotkit/react-core/v2";import { VoiceChat } from "./voice-chat";export default function VoiceDemoPage() {  return (    <CopilotKit      runtimeUrl="/api/copilotkit-voice"      agent="voice-demo"      useSingleEndpoint={false}      // The dev-only `<cpk-web-inspector>` overlay (auto-enabled on      // localhost via shouldShowDevConsole) intercepts pointer events      // on top of the voice sample-audio button, so dev/D5 probe runs      // can't click it through Playwright. Production isn't localhost      // so the inspector never mounts there — voice is D5 in prod and      // D4 locally for this reason alone. Disable explicitly here so      // the demo behaves the same in both environments.      enableInspector={false}    >      <VoiceChat />    </CopilotKit>  );}

When the user clicks the mic, the chat captures audio, POSTs it to the runtime's /transcribe endpoint, drops the resulting transcript into the composer, and submits.

Driving the demo without a mic#

For Playwright runs, screenshots, or any flow where prompting for mic permissions is awkward, ship a button that POSTs a bundled audio clip directly to the same /transcribe endpoint:

sample-audio-button.tsx
export function SampleAudioButton({  onTranscribed,  sampleText,}: SampleAudioButtonProps) {  return (    <button      type="button"      data-testid="voice-sample-audio-button"      onClick={() => onTranscribed(sampleText)}      title={`Inserts: "${sampleText}"`}      className="inline-flex w-fit items-center gap-2 rounded-md border border-black/10 bg-white px-3 py-1.5 text-xs font-medium hover:bg-black/5 dark:border-white/10 dark:bg-black/30 dark:hover:bg-white/10"    >      <span aria-hidden>🎙</span>      <span>Try a sample audio</span>    </button>  );}

The caller can drop the resulting text into the composer's textarea (matched via data-testid="copilot-chat-textarea") using the native value setter and a synthetic input event so React's managed state updates correctly.

Backend#

Wire up the V2 runtime with a TranscriptionService. The V1 wrapper drops the transcriptionService option, so use createCopilotRuntimeHandler from @copilotkit/runtime/v2 directly:

route.ts
import type { NextRequest } from "next/server";import {  CopilotRuntime,  TranscriptionService,  createCopilotRuntimeHandler,} from "@copilotkit/runtime/v2";import type { TranscribeFileOptions } from "@copilotkit/runtime/v2";import { HttpAgent } from "@ag-ui/client";import { TranscriptionServiceOpenAI } from "@copilotkit/voice";import OpenAI from "openai";const AGENT_URL = process.env.AGENT_URL || "http://localhost:8000";// Point at the tool-free /voice endpoint so aimock returns a direct text// response instead of a tool call that the agent can't summarize.const voiceDemoAgent = new HttpAgent({ url: `${AGENT_URL}/voice/` });/** * Transcription service wrapper that reports a clean, typed auth error when * OPENAI_API_KEY is not configured. When the key is present we delegate to * the real OpenAI-backed service; any upstream Whisper error keeps its * natural categorization. * * Note: We pin `baseURL` to real OpenAI (or `OPENAI_TRANSCRIPTION_BASE_URL` * when explicitly set) instead of falling through to `OPENAI_BASE_URL`. In * local docker / Railway preview environments `OPENAI_BASE_URL` points at * aimock so LLM completions stay deterministic, but aimock has a catchall * `endpoint: "transcription"` fixture that would otherwise intercept every * real mic recording and return the canned "What is the weather in Tokyo?" * phrase regardless of what the user actually said — and on production * aimock's transcription proxy returns a 502 "Invalid file format" before * any phrase reaches the user. The sample-audio button is the deterministic * affordance (synchronous text injection); the mic is the only path that * should exercise real Whisper. * * Mirrors langgraph-python's voice route exactly. */class GuardedOpenAITranscriptionService extends TranscriptionService {  private delegate: TranscriptionServiceOpenAI | null;  constructor() {    super();    const apiKey = process.env.OPENAI_API_KEY;    const baseURL =      process.env.OPENAI_TRANSCRIPTION_BASE_URL ?? "https://api.openai.com/v1";    this.delegate = apiKey      ? new TranscriptionServiceOpenAI({          openai: new OpenAI({ apiKey, baseURL }),        })      : null;  }  async transcribeFile(options: TranscribeFileOptions): Promise<string> {    if (!this.delegate) {      throw new Error(        "OPENAI_API_KEY not configured for this deployment (api key missing). " +          "Set OPENAI_API_KEY to enable voice transcription.",      );    }    return this.delegate.transcribeFile(options);  }}let cachedHandler: ((req: Request) => Promise<Response>) | null = null;function getHandler(): (req: Request) => Promise<Response> {  if (cachedHandler) return cachedHandler;  const runtime = new CopilotRuntime({    // @ts-ignore -- Published CopilotRuntime agents type wraps Record in    // MaybePromise<NonEmptyRecord<...>> which rejects plain Records; fixed in    // source, pending release.    agents: {      "voice-demo": voiceDemoAgent,      default: voiceDemoAgent,    },    transcriptionService: new GuardedOpenAITranscriptionService(),  });  cachedHandler = createCopilotRuntimeHandler({    runtime,    basePath: "/api/copilotkit-voice",  });  return cachedHandler;}export const POST = (req: NextRequest) => getHandler()(req);export const GET = (req: NextRequest) => getHandler()(req);export const PUT = (req: NextRequest) => getHandler()(req);export const DELETE = (req: NextRequest) => getHandler()(req);

With transcriptionService set, the runtime advertises audioFileTranscriptionEnabled: true on /info (which is what tells the chat to render the mic button) and routes POST /transcribe to the service.

Custom transcription backends#

TranscriptionService from @copilotkit/runtime/v2 is an abstract class. Subclass it to plug in any transcription provider — Whisper, AssemblyAI, Deepgram, your own model. The library ships TranscriptionServiceOpenAI as the canonical reference implementation.

A useful pattern is wrapping your service in a guard that returns a clean 4xx when credentials aren't configured, instead of an opaque 5xx from the underlying SDK:

route.ts
import type { NextRequest } from "next/server";import {  CopilotRuntime,  TranscriptionService,  createCopilotRuntimeHandler,} from "@copilotkit/runtime/v2";import type { TranscribeFileOptions } from "@copilotkit/runtime/v2";import { HttpAgent } from "@ag-ui/client";import { TranscriptionServiceOpenAI } from "@copilotkit/voice";import OpenAI from "openai";const AGENT_URL = process.env.AGENT_URL || "http://localhost:8000";// Point at the tool-free /voice endpoint so aimock returns a direct text// response instead of a tool call that the agent can't summarize.const voiceDemoAgent = new HttpAgent({ url: `${AGENT_URL}/voice/` });/** * Transcription service wrapper that reports a clean, typed auth error when * OPENAI_API_KEY is not configured. When the key is present we delegate to * the real OpenAI-backed service; any upstream Whisper error keeps its * natural categorization. * * Note: We pin `baseURL` to real OpenAI (or `OPENAI_TRANSCRIPTION_BASE_URL` * when explicitly set) instead of falling through to `OPENAI_BASE_URL`. In * local docker / Railway preview environments `OPENAI_BASE_URL` points at * aimock so LLM completions stay deterministic, but aimock has a catchall * `endpoint: "transcription"` fixture that would otherwise intercept every * real mic recording and return the canned "What is the weather in Tokyo?" * phrase regardless of what the user actually said — and on production * aimock's transcription proxy returns a 502 "Invalid file format" before * any phrase reaches the user. The sample-audio button is the deterministic * affordance (synchronous text injection); the mic is the only path that * should exercise real Whisper. * * Mirrors langgraph-python's voice route exactly. */class GuardedOpenAITranscriptionService extends TranscriptionService {  private delegate: TranscriptionServiceOpenAI | null;  constructor() {    super();    const apiKey = process.env.OPENAI_API_KEY;    const baseURL =      process.env.OPENAI_TRANSCRIPTION_BASE_URL ?? "https://api.openai.com/v1";    this.delegate = apiKey      ? new TranscriptionServiceOpenAI({          openai: new OpenAI({ apiKey, baseURL }),        })      : null;  }  async transcribeFile(options: TranscribeFileOptions): Promise<string> {    if (!this.delegate) {      throw new Error(        "OPENAI_API_KEY not configured for this deployment (api key missing). " +          "Set OPENAI_API_KEY to enable voice transcription.",      );    }    return this.delegate.transcribeFile(options);  }}