The documentation you are viewing is for Dapr v1.13 which is an older version of Dapr. For up-to-date documentation, see the latest version.
Client
Introduction
The Dapr Client allows you to communicate with the Dapr Sidecar and get access to its client facing features such as Publishing Events, Invoking Output Bindings, State Management, Secret Management, and much more.
Pre-requisites
- Dapr CLI installed
- Initialized Dapr environment
- Latest LTS version of Node.js or greater
Installing and importing Dapr’s JS SDK
- Install the SDK with
npm
:
npm i @dapr/dapr --save
- Import the libraries:
import { DaprClient, DaprServer, HttpMethod, CommunicationProtocolEnum } from "@dapr/dapr";
const daprHost = "127.0.0.1"; // Dapr Sidecar Host
const daprPort = "3500"; // Dapr Sidecar Port of this Example Server
const serverHost = "127.0.0.1"; // App Host of this Example Server
const serverPort = "50051"; // App Port of this Example Server
// HTTP Example
const client = new DaprClient({ daprHost, daprPort });
// GRPC Example
const client = new DaprClient({ daprHost, daprPort, communicationProtocol: CommunicationProtocolEnum.GRPC });
Running
To run the examples, you can use two different protocols to interact with the Dapr sidecar: HTTP (default) or gRPC.
Using HTTP (default)
import { DaprClient } from "@dapr/dapr";
const client = new DaprClient({ daprHost, daprPort });
# Using dapr run
dapr run --app-id example-sdk --app-protocol http -- npm run start
# or, using npm script
npm run start:dapr-http
Using gRPC
Since HTTP is the default, you will have to adapt the communication protocol to use gRPC. You can do this by passing an extra argument to the client or server constructor.
import { DaprClient, CommunicationProtocol } from "@dapr/dapr";
const client = new DaprClient({ daprHost, daprPort, communicationProtocol: CommunicationProtocol.GRPC });
# Using dapr run
dapr run --app-id example-sdk --app-protocol grpc -- npm run start
# or, using npm script
npm run start:dapr-grpc
Environment Variables
Dapr Sidecar Endpoints
You can use the DAPR_HTTP_ENDPOINT
and DAPR_GRPC_ENDPOINT
environment variables to set the Dapr
Sidecar’s HTTP and gRPC endpoints respectively. When these variables are set, the daprHost
and daprPort
don’t have to be set in the options argument of the constructor, the client will parse them automatically
out of the provided endpoints.
import { DaprClient, CommunicationProtocol } from "@dapr/dapr";
// Using HTTP, when DAPR_HTTP_ENDPOINT is set
const client = new DaprClient();
// Using gRPC, when DAPR_GRPC_ENDPOINT is set
const client = new DaprClient({ communicationProtocol: CommunicationProtocol.GRPC });
If the environment variables are set, but daprHost
and daprPort
values are passed to the
constructor, the latter will take precedence over the environment variables.
Dapr API Token
You can use the DAPR_API_TOKEN
environment variable to set the Dapr API token. When this variable
is set, the daprApiToken
doesn’t have to be set in the options argument of the constructor,
the client will get it automatically.
General
Increasing Body Size
You can increase the body size that is used by the application to communicate with the sidecar by using aDaprClient
’s option.
import { DaprClient, CommunicationProtocol } from "@dapr/dapr";
// Allow a body size of 10Mb to be used
// The default is 4Mb
const client = new DaprClient({
daprHost,
daprPort,
communicationProtocol: CommunicationProtocol.HTTP,
maxBodySizeMb: 10,
});
Proxying Requests
By proxying requests, we can utilize the unique capabilities that Dapr brings with its sidecar architecture such as service discovery, logging, etc., enabling us to instantly “upgrade” our gRPC services. This feature of gRPC proxying was demonstrated in community call 41.
Creating a Proxy
To perform gRPC proxying, simply create a proxy by calling the client.proxy.create()
method:
// As always, create a client to our dapr sidecar
// this client takes care of making sure the sidecar is started, that we can communicate, ...
const clientSidecar = new DaprClient({ daprHost, daprPort, communicationProtocol: CommunicationProtocol.GRPC });
// Create a Proxy that allows us to use our gRPC code
const clientProxy = await clientSidecar.proxy.create<GreeterClient>(GreeterClient);
We can now call the methods as defined in our GreeterClient
interface (which in this case is from the Hello World example)
Behind the Scenes (Technical Working)
- The gRPC service gets started in Dapr. We tell Dapr which port this gRPC server is running on through
--app-port
and give it a unique Dapr app ID with--app-id <APP_ID_HERE>
- We can now call the Dapr Sidecar through a client that will connect to the Sidecar
- Whilst calling the Dapr Sidecar, we provide a metadata key named
dapr-app-id
with the value of our gRPC server booted in Dapr (e.g.server
in our example) - Dapr will now forward the call to the gRPC server configured
Building blocks
The JavaScript Client SDK allows you to interface with all of the Dapr building blocks focusing on Client to Sidecar features.
Invocation API
Invoke a Service
import { DaprClient, HttpMethod } from "@dapr/dapr";
const daprHost = "127.0.0.1";
const daprPort = "3500";
async function start() {
const client = new DaprClient({ daprHost, daprPort });
const serviceAppId = "my-app-id";
const serviceMethod = "say-hello";
// POST Request
const response = await client.invoker.invoke(serviceAppId, serviceMethod, HttpMethod.POST, { hello: "world" });
// POST Request with headers
const response = await client.invoker.invoke(
serviceAppId,
serviceMethod,
HttpMethod.POST,
{ hello: "world" },
{ headers: { "X-User-ID": "123" } },
);
// GET Request
const response = await client.invoker.invoke(serviceAppId, serviceMethod, HttpMethod.GET);
}
start().catch((e) => {
console.error(e);
process.exit(1);
});
For a full guide on service invocation visit How-To: Invoke a service.
State Management API
Save, Get and Delete application state
import { DaprClient } from "@dapr/dapr";
const daprHost = "127.0.0.1";
const daprPort = "3500";
async function start() {
const client = new DaprClient({ daprHost, daprPort });
const serviceStoreName = "my-state-store-name";
// Save State
const response = await client.state.save(
serviceStoreName,
[
{
key: "first-key-name",
value: "hello",
metadata: {
foo: "bar",
},
},
{
key: "second-key-name",
value: "world",
},
],
{
metadata: {
ttlInSeconds: "3", // this should override the ttl in the state item
},
},
);
// Get State
const response = await client.state.get(serviceStoreName, "first-key-name");
// Get Bulk State
const response = await client.state.getBulk(serviceStoreName, ["first-key-name", "second-key-name"]);
// State Transactions
await client.state.transaction(serviceStoreName, [
{
operation: "upsert",
request: {
key: "first-key-name",
value: "new-data",
},
},
{
operation: "delete",
request: {
key: "second-key-name",
},
},
]);
// Delete State
const response = await client.state.delete(serviceStoreName, "first-key-name");
}
start().catch((e) => {
console.error(e);
process.exit(1);
});
For a full list of state operations visit How-To: Get & save state.
Query State API
import { DaprClient } from "@dapr/dapr";
async function start() {
const client = new DaprClient({ daprHost, daprPort });
const res = await client.state.query("state-mongodb", {
filter: {
OR: [
{
EQ: { "person.org": "Dev Ops" },
},
{
AND: [
{
EQ: { "person.org": "Finance" },
},
{
IN: { state: ["CA", "WA"] },
},
],
},
],
},
sort: [
{
key: "state",
order: "DESC",
},
],
page: {
limit: 10,
},
});
console.log(res);
}
start().catch((e) => {
console.error(e);
process.exit(1);
});
PubSub API
Publish messages
import { DaprClient } from "@dapr/dapr";
const daprHost = "127.0.0.1";
const daprPort = "3500";
async function start() {
const client = new DaprClient({ daprHost, daprPort });
const pubSubName = "my-pubsub-name";
const topic = "topic-a";
// Publish message to topic as text/plain
// Note, the content type is inferred from the message type unless specified explicitly
const response = await client.pubsub.publish(pubSubName, topic, "hello, world!");
// If publish fails, response contains the error
console.log(response);
// Publish message to topic as application/json
await client.pubsub.publish(pubSubName, topic, { hello: "world" });
// Publish a JSON message as plain text
const options = { contentType: "text/plain" };
await client.pubsub.publish(pubSubName, topic, { hello: "world" }, options);
// Publish message to topic as application/cloudevents+json
// You can also use the cloudevent SDK to create cloud events https://github.com/cloudevents/sdk-javascript
const cloudEvent = {
specversion: "1.0",
source: "/some/source",
type: "example",
id: "1234",
};
await client.pubsub.publish(pubSubName, topic, cloudEvent);
// Publish a cloudevent as raw payload
const options = { metadata: { rawPayload: true } };
await client.pubsub.publish(pubSubName, topic, "hello, world!", options);
// Publish multiple messages to a topic as text/plain
await client.pubsub.publishBulk(pubSubName, topic, ["message 1", "message 2", "message 3"]);
// Publish multiple messages to a topic as application/json
await client.pubsub.publishBulk(pubSubName, topic, [
{ hello: "message 1" },
{ hello: "message 2" },
{ hello: "message 3" },
]);
// Publish multiple messages with explicit bulk publish messages
const bulkPublishMessages = [
{
entryID: "entry-1",
contentType: "application/json",
event: { hello: "foo message 1" },
},
{
entryID: "entry-2",
contentType: "application/cloudevents+json",
event: { ...cloudEvent, data: "foo message 2", datacontenttype: "text/plain" },
},
{
entryID: "entry-3",
contentType: "text/plain",
event: "foo message 3",
},
];
await client.pubsub.publishBulk(pubSubName, topic, bulkPublishMessages);
}
start().catch((e) => {
console.error(e);
process.exit(1);
});
Bindings API
Invoke Output Binding
Output Bindings
import { DaprClient } from "@dapr/dapr";
const daprHost = "127.0.0.1";
const daprPort = "3500";
async function start() {
const client = new DaprClient({ daprHost, daprPort });
const bindingName = "my-binding-name";
const bindingOperation = "create";
const message = { hello: "world" };
const response = await client.binding.send(bindingName, bindingOperation, message);
}
start().catch((e) => {
console.error(e);
process.exit(1);
});
For a full guide on output bindings visit How-To: Use bindings.
Secret API
Retrieve secrets
import { DaprClient } from "@dapr/dapr";
const daprHost = "127.0.0.1";
const daprPort = "3500";
async function start() {
const client = new DaprClient({ daprHost, daprPort });
const secretStoreName = "my-secret-store";
const secretKey = "secret-key";
// Retrieve a single secret from secret store
const response = await client.secret.get(secretStoreName, secretKey);
// Retrieve all secrets from secret store
const response = await client.secret.getBulk(secretStoreName);
}
start().catch((e) => {
console.error(e);
process.exit(1);
});
For a full guide on secrets visit How-To: Retrieve secrets.
Configuration API
Get Configuration Keys
import { DaprClient } from "@dapr/dapr";
const daprHost = "127.0.0.1";
async function start() {
const client = new DaprClient({
daprHost,
daprPort: process.env.DAPR_GRPC_PORT,
communicationProtocol: CommunicationProtocolEnum.GRPC,
});
const config = await client.configuration.get("config-store", ["key1", "key2"]);
console.log(config);
}
start().catch((e) => {
console.error(e);
process.exit(1);
});
Sample output:
{
items: {
key1: { key: 'key1', value: 'foo', version: '', metadata: {} },
key2: { key: 'key2', value: 'bar2', version: '', metadata: {} }
}
}
Subscribe to Configuration Updates
import { DaprClient } from "@dapr/dapr";
const daprHost = "127.0.0.1";
async function start() {
const client = new DaprClient({
daprHost,
daprPort: process.env.DAPR_GRPC_PORT,
communicationProtocol: CommunicationProtocolEnum.GRPC,
});
// Subscribes to config store changes for keys "key1" and "key2"
const stream = await client.configuration.subscribeWithKeys("config-store", ["key1", "key2"], async (data) => {
console.log("Subscribe received updates from config store: ", data);
});
// Wait for 60 seconds and unsubscribe.
await new Promise((resolve) => setTimeout(resolve, 60000));
stream.stop();
}
start().catch((e) => {
console.error(e);
process.exit(1);
});
Sample output:
Subscribe received updates from config store: {
items: { key2: { key: 'key2', value: 'bar', version: '', metadata: {} } }
}
Subscribe received updates from config store: {
items: { key1: { key: 'key1', value: 'foobar', version: '', metadata: {} } }
}
Cryptography API
Support for the cryptography API is only available on the gRPC client in the JavaScript SDK.
import { createReadStream, createWriteStream } from "node:fs";
import { readFile, writeFile } from "node:fs/promises";
import { pipeline } from "node:stream/promises";
import { DaprClient, CommunicationProtocolEnum } from "@dapr/dapr";
const daprHost = "127.0.0.1";
const daprPort = "50050"; // Dapr Sidecar Port of this example server
async function start() {
const client = new DaprClient({
daprHost,
daprPort,
communicationProtocol: CommunicationProtocolEnum.GRPC,
});
// Encrypt and decrypt a message using streams
await encryptDecryptStream(client);
// Encrypt and decrypt a message from a buffer
await encryptDecryptBuffer(client);
}
async function encryptDecryptStream(client: DaprClient) {
// First, encrypt the message
console.log("== Encrypting message using streams");
console.log("Encrypting plaintext.txt to ciphertext.out");
await pipeline(
createReadStream("plaintext.txt"),
await client.crypto.encrypt({
componentName: "crypto-local",
keyName: "symmetric256",
keyWrapAlgorithm: "A256KW",
}),
createWriteStream("ciphertext.out"),
);
// Decrypt the message
console.log("== Decrypting message using streams");
console.log("Encrypting ciphertext.out to plaintext.out");
await pipeline(
createReadStream("ciphertext.out"),
await client.crypto.decrypt({
componentName: "crypto-local",
}),
createWriteStream("plaintext.out"),
);
}
async function encryptDecryptBuffer(client: DaprClient) {
// Read "plaintext.txt" so we have some content
const plaintext = await readFile("plaintext.txt");
// First, encrypt the message
console.log("== Encrypting message using buffers");
const ciphertext = await client.crypto.encrypt(plaintext, {
componentName: "crypto-local",
keyName: "my-rsa-key",
keyWrapAlgorithm: "RSA",
});
await writeFile("test.out", ciphertext);
// Decrypt the message
console.log("== Decrypting message using buffers");
const decrypted = await client.crypto.decrypt(ciphertext, {
componentName: "crypto-local",
});
// The contents should be equal
if (plaintext.compare(decrypted) !== 0) {
throw new Error("Decrypted message does not match original message");
}
}
start().catch((e) => {
console.error(e);
process.exit(1);
});
For a full guide on cryptography visit How-To: Cryptography.
Distributed Lock API
Try Lock and Unlock APIs
import { CommunicationProtocolEnum, DaprClient } from "@dapr/dapr";
import { LockStatus } from "@dapr/dapr/types/lock/UnlockResponse";
const daprHost = "127.0.0.1";
const daprPortDefault = "3500";
async function start() {
const client = new DaprClient({ daprHost, daprPort });
const storeName = "redislock";
const resourceId = "resourceId";
const lockOwner = "owner1";
let expiryInSeconds = 1000;
console.log(`Acquiring lock on ${storeName}, ${resourceId} as owner: ${lockOwner}`);
const lockResponse = await client.lock.lock(storeName, resourceId, lockOwner, expiryInSeconds);
console.log(lockResponse);
console.log(`Unlocking on ${storeName}, ${resourceId} as owner: ${lockOwner}`);
const unlockResponse = await client.lock.unlock(storeName, resourceId, lockOwner);
console.log("Unlock API response: " + getResponseStatus(unlockResponse.status));
}
function getResponseStatus(status: LockStatus) {
switch (status) {
case LockStatus.Success:
return "Success";
case LockStatus.LockDoesNotExist:
return "LockDoesNotExist";
case LockStatus.LockBelongsToOthers:
return "LockBelongsToOthers";
default:
return "InternalError";
}
}
start().catch((e) => {
console.error(e);
process.exit(1);
});
For a full guide on distributed locks visit How-To: Use Distributed Locks.
Workflow API
Workflow management
import { DaprClient } from "@dapr/dapr";
async function start() {
const client = new DaprClient();
// Start a new workflow instance
const instanceId = await client.workflow.start("OrderProcessingWorkflow", {
Name: "Paperclips",
TotalCost: 99.95,
Quantity: 4,
});
console.log(`Started workflow instance ${instanceId}`);
// Get a workflow instance
const workflow = await client.workflow.get(instanceId);
console.log(
`Workflow ${workflow.workflowName}, created at ${workflow.createdAt.toUTCString()}, has status ${
workflow.runtimeStatus
}`,
);
console.log(`Additional properties: ${JSON.stringify(workflow.properties)}`);
// Pause a workflow instance
await client.workflow.pause(instanceId);
console.log(`Paused workflow instance ${instanceId}`);
// Resume a workflow instance
await client.workflow.resume(instanceId);
console.log(`Resumed workflow instance ${instanceId}`);
// Terminate a workflow instance
await client.workflow.terminate(instanceId);
console.log(`Terminated workflow instance ${instanceId}`);
// Purge a workflow instance
await client.workflow.purge(instanceId);
console.log(`Purged workflow instance ${instanceId}`);
}
start().catch((e) => {
console.error(e);
process.exit(1);
});
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