genkit
This skill is used for AI workflow orchestration, building multi-step AI pipelines, and encapsulating LLM calls into deployable HTTP endpoints, supporting type-safe input and output.
npx skills add https://github.com/supercent-io/skills-template --skill genkitBefore / After Comparison
1 组When building multi-step AI pipelines, workflows are complex and difficult to manage. LLM call deployment is cumbersome, lacks type safety guarantees, and development efficiency is constrained.
This skill simplifies AI workflow orchestration, allowing easy construction of multi-step pipelines. LLM calls are encapsulated as secure HTTP endpoints, ensuring type safety and significantly boosting development efficiency.
genkit
Firebase Genkit
When to use this skill
-
AI workflow orchestration: Building multi-step AI pipelines with type-safe inputs/outputs
-
Flow-based APIs: Wrapping LLM calls into deployable HTTP endpoints
-
Tool calling / agents: Equipping models with custom tools and implementing agentic loops
-
RAG pipelines: Retrieval-augmented generation with vector databases (Pinecone, pgvector, Firestore, Chroma, etc.)
-
Multi-agent systems: Coordinating multiple specialized AI agents
-
Streaming responses: Real-time token-by-token output for chat or long-form content
-
Firebase/Cloud Run deployment: Deploying AI functions to Google Cloud
-
Prompt management: Managing prompts as versioned
.promptfiles with Dotprompt
Installation & Setup
Step 1: Install the Genkit CLI
# npm (recommended for JavaScript/TypeScript)
npm install -g genkit-cli
# macOS/Linux binary
curl -sL cli.genkit.dev | bash
Step 2: Create a TypeScript project
mkdir my-genkit-app && cd my-genkit-app
npm init -y
npm pkg set type=module
npm install -D typescript tsx
npx tsc --init
mkdir src && touch src/index.ts
Step 3: Install Genkit core and a model plugin
# Core + Google AI (Gemini) — free tier, no credit card required
npm install genkit @genkit-ai/google-genai
# Or: Vertex AI (requires GCP project)
npm install genkit @genkit-ai/vertexai
# Or: OpenAI
npm install genkit genkitx-openai
# Or: Anthropic (Claude)
npm install genkit genkitx-anthropic
# Or: Ollama (local models)
npm install genkit genkitx-ollama
Step 4: Configure API Key
# Google AI (Gemini)
export GEMINI_API_KEY=your_key_here
# OpenAI
export OPENAI_API_KEY=your_key_here
# Anthropic
export ANTHROPIC_API_KEY=your_key_here
Core Concepts
Initializing Genkit
import { googleAI } from '@genkit-ai/google-genai';
import { genkit } from 'genkit';
const ai = genkit({
plugins: [googleAI()],
model: googleAI.model('gemini-2.5-flash'), // default model
});
Defining Flows
Flows are the core primitive: type-safe, observable, deployable AI functions.
import { genkit, z } from 'genkit';
import { googleAI } from '@genkit-ai/google-genai';
const ai = genkit({ plugins: [googleAI()] });
// Input/output schemas with Zod
const SummaryInputSchema = z.object({
text: z.string().describe('Text to summarize'),
maxWords: z.number().optional().default(100),
});
const SummaryOutputSchema = z.object({
summary: z.string(),
keyPoints: z.array(z.string()),
});
export const summarizeFlow = ai.defineFlow(
{
name: 'summarizeFlow',
inputSchema: SummaryInputSchema,
outputSchema: SummaryOutputSchema,
},
async ({ text, maxWords }) => {
const { output } = await ai.generate({
model: googleAI.model('gemini-2.5-flash'),
prompt: `Summarize the following text in at most ${maxWords} words and extract key points:\n\n${text}`,
output: { schema: SummaryOutputSchema },
});
if (!output) throw new Error('No output generated');
return output;
}
);
// Call the flow
const result = await summarizeFlow({
text: 'Long article content here...',
maxWords: 50,
});
console.log(result.summary);
Generating Content
// Simple text generation
const { text } = await ai.generate({
model: googleAI.model('gemini-2.5-flash'),
prompt: 'Explain quantum computing in one sentence.',
});
// Structured output
const { output } = await ai.generate({
prompt: 'List 3 programming languages with their use cases',
output: {
schema: z.object({
languages: z.array(z.object({
name: z.string(),
useCase: z.string(),
})),
}),
},
});
// With system prompt
const { text: response } = await ai.generate({
system: 'You are a senior TypeScript engineer. Be concise.',
prompt: 'What is the difference between interface and type in TypeScript?',
});
// Multimodal (image + text)
const { text: description } = await ai.generate({
prompt: [
{ text: 'What is in this image?' },
{ media: { url: 'https://example.com/image.jpg', contentType: 'image/jpeg' } },
],
});
Streaming Flows
export const streamingFlow = ai.defineFlow(
{
name: 'streamingFlow',
inputSchema: z.object({ topic: z.string() }),
streamSchema: z.string(), // type of each chunk
outputSchema: z.object({ full: z.string() }),
},
async ({ topic }, { sendChunk }) => {
const { stream, response } = ai.generateStream({
prompt: `Write a detailed essay about ${topic}.`,
});
for await (const chunk of stream) {
sendChunk(chunk.text); // stream each token to client
}
const { text } = await response;
return { full: text };
}
);
// Client-side consumption
const stream = streamingFlow.stream({ topic: 'AI ethics' });
for await (const chunk of stream.stream) {
process.stdout.write(chunk);
}
const finalOutput = await stream.output;
Tool Calling (Agents)
import { z } from 'genkit';
// Define tools
const getWeatherTool = ai.defineTool(
{
name: 'getWeather',
description: 'Get current weather for a city',
inputSchema: z.object({ city: z.string() }),
outputSchema: z.object({ temp: z.number(), condition: z.string() }),
},
async ({ city }) => {
// Call real weather API
return { temp: 22, condition: 'sunny' };
}
);
const searchWebTool = ai.defineTool(
{
name: 'searchWeb',
description: 'Search the web for information',
inputSchema: z.object({ query: z.string() }),
outputSchema: z.string(),
},
async ({ query }) => {
// Call search API
return `Search results for: ${query}`;
}
);
// Agent flow with tools
export const agentFlow = ai.defineFlow(
{
name: 'agentFlow',
inputSchema: z.object({ question: z.string() }),
outputSchema: z.string(),
},
async ({ question }) => {
const { text } = await ai.generate({
prompt: question,
tools: [getWeatherTool, searchWebTool],
returnToolRequests: false, // auto-execute tools
});
return text;
}
);
Prompts with Dotprompt
Manage prompts as versioned .prompt files:
# src/prompts/summarize.prompt
---
model: googleai/gemini-2.5-flash
input:
schema:
text: string
style?: string
output:
schema:
summary: string
sentiment: string
---
Summarize the following text in a {{style, default: "professional"}} tone:
{{text}}
Return JSON with summary and sentiment (positive/negative/neutral).
// Load and use dotprompt
const summarizePrompt = ai.prompt('summarize');
const { output } = await summarizePrompt({
text: 'Article content here...',
style: 'casual',
});
RAG — Retrieval-Augmented Generation
import { devLocalVectorstore } from '@genkit-ai/dev-local-vectorstore';
import { textEmbedding004 } from '@genkit-ai/google-genai';
const ai = genkit({
plugins: [
googleAI(),
devLocalVectorstore([{
indexName: 'documents',
embedder: textEmbedding004,
}]),
],
});
// Index documents
await ai.index({
indexer: devLocalVectorstoreIndexer('documents'),
docs: [
{ content: [{ text: 'Document 1 content...' }], metadata: { source: 'doc1' } },
{ content: [{ text: 'Document 2 content...' }], metadata: { source: 'doc2' } },
],
});
// RAG flow
export const ragFlow = ai.defineFlow(
{
name: 'ragFlow',
inputSchema: z.object({ question: z.string() }),
outputSchema: z.string(),
},
async ({ question }) => {
// Retrieve relevant documents
const docs = await ai.retrieve({
retriever: devLocalVectorstoreRetriever('documents'),
query: question,
options: { k: 3 },
});
// Generate answer grounded in retrieved docs
const { text } = await ai.generate({
system: 'Answer questions using only the provided context.',
prompt: question,
docs,
});
return text;
}
);
Chat Sessions
export const chatFlow = ai.defineFlow(
{
name: 'chatFlow',
inputSchema: z.object({ message: z.string(), sessionId: z.string() }),
outputSchema: z.string(),
},
async ({ message, sessionId }) => {
const session = ai.loadSession(sessionId) ?? ai.createSession({ sessionId });
const chat = session.chat({
system: 'You are a helpful assistant.',
});
const { text } = await chat.send(message);
return text;
}
);
Multi-Agent Systems
// Specialist agents
const researchAgent = ai.defineFlow(
{ name: 'researchAgent', inputSchema: z.string(), outputSchema: z.string() },
async (query) => {
const { text } = await ai.generate({
system: 'You are a research expert. Gather facts and cite sources.',
prompt: query,
tools: [searchWebTool],
});
return text;
}
);
const writerAgent = ai.defineFlow(
{ name: 'writerAgent', inputSchema: z.string(), outputSchema: z.string() },
async (brief) => {
const { text } = await ai.generate({
system: 'You are a professional writer. Write clear, engaging content.',
prompt: brief,
});
return text;
}
);
// Orchestrator delegates to specialists
export const contentPipelineFlow = ai.defineFlow(
{
name: 'contentPipelineFlow',
inputSchema: z.object({ topic: z.string() }),
outputSchema: z.string(),
},
async ({ topic }) => {
const research = await researchAgent(`Research: ${topic}`);
const article = await writerAgent(`Write an article based on: ${research}`);
return article;
}
);
Developer Tools
CLI Commands
# Start Developer UI + connect to your app
genkit start -- npx tsx --watch src/index.ts
genkit start -o -- npx tsx src/index.ts # auto-open browser
# Run a specific flow from CLI
genkit flow:run summarizeFlow '{"text": "Hello world", "maxWords": 10}'
# Run with streaming output
genkit flow:run streamingFlow '{"topic": "AI"}' -s
# Evaluate a flow
genkit eval:flow ragFlow --input eval-inputs.json
# View all commands
genkit --help
# Disable analytics telemetry
genkit config set analyticsOptOut true
Developer UI
The Developer UI runs at http://localhost:4000 and provides:
-
Flow runner: Execute flows with custom JSON inputs
-
Trace inspector: Visualize each step (generate, embed, retrieve, tool calls)
-
Prompt playground: Test prompts interactively
-
Model tester: Compare outputs across different models
-
Evaluator: Run evaluation datasets against flows
# Add npm script for convenience
# package.json
"scripts": {
"genkit:dev": "genkit start -- npx tsx --watch src/index.ts"
}
npm run genkit:dev
Deployment
Firebase Cloud Functions
import { onCallGenkit } from 'firebase-functions/https';
import { defineSecret } from 'firebase-functions/params';
const apiKey = defineSecret('GOOGLE_AI_API_KEY');
export const summarize = onCallGenkit(
{ secrets: [apiKey] },
summarizeFlow
);
firebase deploy --only functions
Express.js Server
import express from 'express';
import { expressHandler } from 'genkit/express';
const app = express();
app.use(express.json());
app.post('/summarize', expressHandler(summarizeFlow));
app.post('/chat', expressHandler(chatFlow));
app.listen(3000, () => console.log('Server running on port 3000'));
Cloud Run
# Build and deploy
gcloud run deploy genkit-app \
--source . \
--region us-central1 \
--set-env-vars GEMINI_API_KEY=$GEMINI_API_KEY
Supported Plugins
Model Providers
Plugin Package Models
Google AI
@genkit-ai/google-genai
Gemini 2.5 Flash/Pro
Vertex AI
@genkit-ai/vertexai
Gemini, Imagen, Claude
OpenAI
genkitx-openai
GPT-4o, o1, etc.
Anthropic
genkitx-anthropic
Claude 3.5/3
AWS Bedrock
genkitx-aws-bedrock
Claude, Titan, etc.
Ollama
genkitx-ollama
Local models
DeepSeek
genkitx-deepseek
DeepSeek-R1
xAI (Grok)
genkitx-xai
Grok models
Vector Databases
Plugin Package
Dev Local (testing)
@genkit-ai/dev-local-vectorstore
Pinecone
genkitx-pinecone
pgvector
genkitx-pgvector
Chroma
genkitx-chroma
Cloud Firestore
@genkit-ai/firebase
LanceDB
genkitx-lancedb
Best Practices
-
Always define input/output schemas — Use Zod objects for Dev UI labeled fields and API safety
-
Use flows for all AI logic — Even simple calls; flows give you tracing and deployment for free
-
Store API keys in environment variables — Never hardcode; use Firebase Secrets for production
-
Use
ai.run()to trace custom steps — Wrap non-Genkit code inai.run()for trace visibility -
Stream long-form content — Use
defineFlowwithstreamSchema+sendChunkfor better UX -
Separate concerns with agents — Specialized subflows > one monolithic flow
-
Use Dotprompt for team prompts —
.promptfiles enable versioning, review, and reuse
Constraints
Must Do
-
Define schemas for all flow inputs and outputs
-
Handle
nulloutput fromgenerate()— throw meaningful errors -
Set
GENKIT_ENV=devwhen running flows separately from the dev server -
Use
onCallGenkit(not raw Cloud Functions) when deploying to Firebase
Must Not Do
-
Never hardcode API keys in source code
-
Do not use
generate()outside a flow if you need tracing/observability -
Do not call
genkit startwithout a command — always pass-- <your-run-command> -
Avoid blocking the event loop in tool handlers — use
async/await
References
Examples
Example 1: Minimal Flow
import { googleAI } from '@genkit-ai/google-genai';
import { genkit, z } from 'genkit';
const ai = genkit({ plugins: [googleAI()] });
export const helloFlow = ai.defineFlow(
{
name: 'helloFlow',
inputSchema: z.object({ name: z.string() }),
outputSchema: z.string(),
},
async ({ name }) => {
const { text } = await ai.generate(`Say hello to ${name} in a creative way.`);
return text;
}
);
// Run it
const greeting = await helloFlow({ name: 'World' });
console.log(greeting);
Example 2: Full RAG + Agent Pipeline
import { googleAI, textEmbedding004 } from '@genkit-ai/google-genai';
import { devLocalVectorstore } from '@genkit-ai/dev-local-vectorstore';
import { genkit, z } from 'genkit';
const ai = genkit({
plugins: [
googleAI(),
devLocalVectorstore([{ indexName: 'kb', embedder: textEmbedding004 }]),
],
});
// Index knowledge base
...
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