Les sujets peuvent utiliser des schémas pour définir un format que leurs messages doivent respecter. Lors de l'abonnement à un sujet avec un schéma, les messages envoyés à l'abonné sont garantis comme étant valides. Ces messages sont conformes au type et à l'encodage spécifiés dans les paramètres de schéma associés au sujet.
L'abonné peut déterminer les paramètres de schéma associés à un sujet en examinant les attributs suivants:
googclient_schemaname: nom du schéma utilisé pour la validation. Si le schéma est supprimé, le nom est_deleted-schema_.googclient_schemaencoding: encodage du message au format JSON sur BINAIRE.googclient_schemarevisionid: ID de révision du schéma utilisé pour analyser et valider le message. Chaque révision est associée à un ID de révision unique. L'ID de révision est un UUID à huit caractères généré automatiquement.
Pour en savoir plus sur les schémas, consultez Présentation des schémas.
Exemples de code pour s'abonner à des sujets associés à un schéma
Ces exemples montrent comment traiter les messages lors de l'abonnement à des sujets configurés avec un schéma.
C++
Avant d'essayer cet exemple, suivez les instructions d'installation dans le langage C++ qui se trouvent sur la page Démarrage rapide : utiliser des bibliothèques clientes. Pour en savoir plus, consultez la documentation de référence sur l'API Pub/Sub pour C++.
Avronamespace pubsub = ::google::cloud::pubsub;
using ::google::cloud::future;
using ::google::cloud::StatusOr;
return [](pubsub::Subscriber subscriber) {
auto session = subscriber.Subscribe(
[](pubsub::Message const& m, pubsub::AckHandler h) {
std::cout << "Message contents: " << m.data() << "\n";
std::move(h).ack();
});
return session;
}namespace pubsub = ::google::cloud::pubsub;
using ::google::cloud::future;
using ::google::cloud::StatusOr;
return [](pubsub::Subscriber subscriber) {
auto session = subscriber.Subscribe(
[](pubsub::Message const& m, pubsub::AckHandler h) {
google::cloud::pubsub::samples::State state;
state.ParseFromString(std::string{m.data()});
std::cout << "Message contents: " << state.DebugString() << "\n";
std::move(h).ack();
});
return session;
}C#
Avant d'essayer cet exemple, suivez les instructions d'installation dans le langage C# qui se trouvent sur la page Démarrage rapide : utiliser des bibliothèques clientes. Pour en savoir plus, consultez la documentation de référence sur l'API Pub/Sub pour C#.
Avro
using Avro.IO;
using Avro.Specific;
using Google.Api.Gax;
using Google.Cloud.PubSub.V1;
using Newtonsoft.Json;
using System;
using System.IO;
using System.Threading;
using System.Threading.Tasks;
public class PullAvroMessagesAsyncSample
{
public async Task<int> PullAvroMessagesAsync(string projectId, string subscriptionId, bool acknowledge)
{
SubscriptionName subscriptionName = SubscriptionName.FromProjectSubscription(projectId, subscriptionId);
int messageCount = 0;
SubscriberClient subscriber = await new SubscriberClientBuilder
{
SubscriptionName = subscriptionName,
Settings = new SubscriberClient.Settings
{
AckExtensionWindow = TimeSpan.FromSeconds(4),
AckDeadline = TimeSpan.FromSeconds(10),
FlowControlSettings = new FlowControlSettings(maxOutstandingElementCount: 100, maxOutstandingByteCount: 10240)
}
}.BuildAsync();
// SubscriberClient runs your message handle function on multiple
// threads to maximize throughput.
Task startTask = subscriber.StartAsync((PubsubMessage message, CancellationToken cancel) =>
{
string encoding = message.Attributes["googclient_schemaencoding"];
AvroUtilities.State state = new AvroUtilities.State();
switch (encoding)
{
case "BINARY":
using (var ms = new MemoryStream(message.Data.ToByteArray()))
{
var decoder = new BinaryDecoder(ms);
var reader = new SpecificDefaultReader(state.Schema, state.Schema);
reader.Read<AvroUtilities.State>(state, decoder);
}
break;
case "JSON":
state = JsonConvert.DeserializeObject<AvroUtilities.State>(message.Data.ToStringUtf8());
break;
default:
Console.WriteLine($"Encoding not provided in message.");
break;
}
Console.WriteLine($"Message {message.MessageId}: {state}");
Interlocked.Increment(ref messageCount);
return Task.FromResult(acknowledge ? SubscriberClient.Reply.Ack : SubscriberClient.Reply.Nack);
});
// Run for 5 seconds.
await Task.Delay(5000);
await subscriber.StopAsync(CancellationToken.None);
// Lets make sure that the start task finished successfully after the call to stop.
await startTask;
return messageCount;
}
}
using Google.Api.Gax;
using Google.Cloud.PubSub.V1;
using System;
using System.Threading;
using System.Threading.Tasks;
public class PullProtoMessagesAsyncSample
{
public async Task<int> PullProtoMessagesAsync(string projectId, string subscriptionId, bool acknowledge)
{
SubscriptionName subscriptionName = SubscriptionName.FromProjectSubscription(projectId, subscriptionId);
int messageCount = 0;
SubscriberClient subscriber = await new SubscriberClientBuilder
{
SubscriptionName = subscriptionName,
Settings = new SubscriberClient.Settings
{
AckExtensionWindow = TimeSpan.FromSeconds(4),
AckDeadline = TimeSpan.FromSeconds(10),
FlowControlSettings = new FlowControlSettings(maxOutstandingElementCount: 100, maxOutstandingByteCount: 10240)
}
}.BuildAsync();
// SubscriberClient runs your message handle function on multiple
// threads to maximize throughput.
Task startTask = subscriber.StartAsync((PubsubMessage message, CancellationToken cancel) =>
{
string encoding = message.Attributes["googclient_schemaencoding"];
Utilities.State state = null;
switch (encoding)
{
case "BINARY":
state = Utilities.State.Parser.ParseFrom(message.Data.ToByteArray());
break;
case "JSON":
state = Utilities.State.Parser.ParseJson(message.Data.ToStringUtf8());
break;
default:
Console.WriteLine($"Encoding not provided in message.");
break;
}
Console.WriteLine($"Message {message.MessageId}: {state}");
Interlocked.Increment(ref messageCount);
return Task.FromResult(acknowledge ? SubscriberClient.Reply.Ack : SubscriberClient.Reply.Nack);
});
// Run for 5 seconds.
await Task.Delay(5000);
await subscriber.StopAsync(CancellationToken.None);
// Lets make sure that the start task finished successfully after the call to stop.
await startTask;
return messageCount;
}
}Go
Avant d'essayer cet exemple, suivez les instructions d'installation dans le langage Go qui se trouvent sur la page Démarrage rapide : utiliser des bibliothèques clientes. Pour en savoir plus, consultez la documentation de référence sur l'API Pub/Sub pour Go.
Avroimport (
"context"
"fmt"
"io"
"os"
"sync"
"time"
"cloud.google.com/go/pubsub"
"github.com/linkedin/goavro/v2"
)
func subscribeWithAvroSchema(w io.Writer, projectID, subID, avscFile string) error {
// projectID := "my-project-id"
// topicID := "my-topic"
// avscFile = "path/to/an/avro/schema/file(.avsc)/formatted/in/json"
ctx := context.Background()
client, err := pubsub.NewClient(ctx, projectID)
if err != nil {
return fmt.Errorf("pubsub.NewClient: %w", err)
}
avroSchema, err := os.ReadFile(avscFile)
if err != nil {
return fmt.Errorf("ioutil.ReadFile err: %w", err)
}
codec, err := goavro.NewCodec(string(avroSchema))
if err != nil {
return fmt.Errorf("goavro.NewCodec err: %w", err)
}
sub := client.Subscription(subID)
ctx2, cancel := context.WithTimeout(ctx, 10*time.Second)
defer cancel()
var mu sync.Mutex
sub.Receive(ctx2, func(ctx context.Context, msg *pubsub.Message) {
mu.Lock()
defer mu.Unlock()
encoding := msg.Attributes["googclient_schemaencoding"]
var state map[string]interface{}
if encoding == "BINARY" {
data, _, err := codec.NativeFromBinary(msg.Data)
if err != nil {
fmt.Fprintf(w, "codec.NativeFromBinary err: %v\n", err)
msg.Nack()
return
}
fmt.Fprintf(w, "Received a binary-encoded message:\n%#v\n", data)
state = data.(map[string]interface{})
} else if encoding == "JSON" {
data, _, err := codec.NativeFromTextual(msg.Data)
if err != nil {
fmt.Fprintf(w, "codec.NativeFromTextual err: %v\n", err)
msg.Nack()
return
}
fmt.Fprintf(w, "Received a JSON-encoded message:\n%#v\n", data)
state = data.(map[string]interface{})
} else {
fmt.Fprintf(w, "Unknown message type(%s), nacking\n", encoding)
msg.Nack()
return
}
fmt.Fprintf(w, "%s is abbreviated as %s\n", state["name"], state["post_abbr"])
msg.Ack()
})
return nil
}
import (
"context"
"fmt"
"io"
"sync"
"time"
"cloud.google.com/go/pubsub"
statepb "github.com/GoogleCloudPlatform/golang-samples/internal/pubsub/schemas"
"google.golang.org/protobuf/encoding/protojson"
"google.golang.org/protobuf/proto"
)
func subscribeWithProtoSchema(w io.Writer, projectID, subID, protoFile string) error {
// projectID := "my-project-id"
// subID := "my-sub"
// protoFile = "path/to/a/proto/schema/file(.proto)/formatted/in/protocol/buffers"
ctx := context.Background()
client, err := pubsub.NewClient(ctx, projectID)
if err != nil {
return fmt.Errorf("pubsub.NewClient: %w", err)
}
// Create an instance of the message to be decoded (a single U.S. state).
state := &statepb.State{}
sub := client.Subscription(subID)
ctx2, cancel := context.WithTimeout(ctx, 10*time.Second)
defer cancel()
var mu sync.Mutex
sub.Receive(ctx2, func(ctx context.Context, msg *pubsub.Message) {
mu.Lock()
defer mu.Unlock()
encoding := msg.Attributes["googclient_schemaencoding"]
if encoding == "BINARY" {
if err := proto.Unmarshal(msg.Data, state); err != nil {
fmt.Fprintf(w, "proto.Unmarshal err: %v\n", err)
msg.Nack()
return
}
fmt.Printf("Received a binary-encoded message:\n%#v\n", state)
} else if encoding == "JSON" {
if err := protojson.Unmarshal(msg.Data, state); err != nil {
fmt.Fprintf(w, "proto.Unmarshal err: %v\n", err)
msg.Nack()
return
}
fmt.Fprintf(w, "Received a JSON-encoded message:\n%#v\n", state)
} else {
fmt.Fprintf(w, "Unknown message type(%s), nacking\n", encoding)
msg.Nack()
return
}
fmt.Fprintf(w, "%s is abbreviated as %s\n", state.Name, state.PostAbbr)
msg.Ack()
})
return nil
}
Java
Avant d'essayer cet exemple, suivez les instructions d'installation dans le langage Go qui se trouvent sur la page Démarrage rapide : utiliser des bibliothèques clientes. Pour en savoir plus, consultez la documentation de référence sur l'API Pub/Sub pour Go.
Avro
import com.google.cloud.pubsub.v1.AckReplyConsumer;
import com.google.cloud.pubsub.v1.MessageReceiver;
import com.google.cloud.pubsub.v1.Subscriber;
import com.google.protobuf.ByteString;
import com.google.pubsub.v1.ProjectSubscriptionName;
import com.google.pubsub.v1.PubsubMessage;
import java.io.ByteArrayInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import org.apache.avro.io.Decoder;
import org.apache.avro.io.DecoderFactory;
import org.apache.avro.specific.SpecificDatumReader;
import utilities.State;
public class SubscribeWithAvroSchemaExample {
public static void main(String... args) throws Exception {
// TODO(developer): Replace these variables before running the sample.
String projectId = "your-project-id";
// Use an existing subscription.
String subscriptionId = "your-subscription-id";
subscribeWithAvroSchemaExample(projectId, subscriptionId);
}
public static void subscribeWithAvroSchemaExample(String projectId, String subscriptionId) {
ProjectSubscriptionName subscriptionName =
ProjectSubscriptionName.of(projectId, subscriptionId);
// Prepare a reader for the encoded Avro records.
SpecificDatumReader<State> reader = new SpecificDatumReader<>(State.getClassSchema());
// Instantiate an asynchronous message receiver.
MessageReceiver receiver =
(PubsubMessage message, AckReplyConsumer consumer) -> {
ByteString data = message.getData();
// Get the schema encoding type.
String encoding = message.getAttributesMap().get("googclient_schemaencoding");
// Send the message data to a byte[] input stream.
InputStream inputStream = new ByteArrayInputStream(data.toByteArray());
Decoder decoder = null;
// Prepare an appropriate decoder for the message data in the input stream
// based on the schema encoding type.
block:
try {
switch (encoding) {
case "BINARY":
decoder = DecoderFactory.get().directBinaryDecoder(inputStream, /*reuse=*/ null);
System.out.println("Receiving a binary-encoded message:");
break;
case "JSON":
decoder = DecoderFactory.get().jsonDecoder(State.getClassSchema(), inputStream);
System.out.println("Receiving a JSON-encoded message:");
break;
default:
break block;
}
// Obtain an object of the generated Avro class using the decoder.
State state = reader.read(null, decoder);
System.out.println(state.getName() + " is abbreviated as " + state.getPostAbbr());
} catch (IOException e) {
System.err.println(e);
}
// Ack the message.
consumer.ack();
};
Subscriber subscriber = null;
try {
subscriber = Subscriber.newBuilder(subscriptionName, receiver).build();
subscriber.startAsync().awaitRunning();
System.out.printf("Listening for messages on %s:\n", subscriptionName.toString());
subscriber.awaitTerminated(30, TimeUnit.SECONDS);
} catch (TimeoutException timeoutException) {
subscriber.stopAsync();
}
}
}
import com.google.cloud.pubsub.v1.AckReplyConsumer;
import com.google.cloud.pubsub.v1.MessageReceiver;
import com.google.cloud.pubsub.v1.Subscriber;
import com.google.protobuf.ByteString;
import com.google.protobuf.InvalidProtocolBufferException;
import com.google.protobuf.util.JsonFormat;
import com.google.pubsub.v1.ProjectSubscriptionName;
import com.google.pubsub.v1.PubsubMessage;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import utilities.StateProto.State;
public class SubscribeWithProtoSchemaExample {
public static void main(String... args) throws Exception {
// TODO(developer): Replace these variables before running the sample.
String projectId = "your-project-id";
// Use an existing subscription.
String subscriptionId = "your-subscription-id";
subscribeWithProtoSchemaExample(projectId, subscriptionId);
}
public static void subscribeWithProtoSchemaExample(String projectId, String subscriptionId) {
ProjectSubscriptionName subscriptionName =
ProjectSubscriptionName.of(projectId, subscriptionId);
MessageReceiver receiver =
(PubsubMessage message, AckReplyConsumer consumer) -> {
ByteString data = message.getData();
// Get the schema encoding type.
String encoding = message.getAttributesMap().get("googclient_schemaencoding");
block:
try {
switch (encoding) {
case "BINARY":
// Obtain an object of the generated proto class.
State state = State.parseFrom(data);
System.out.println("Received a BINARY-formatted message: " + state);
break;
case "JSON":
State.Builder stateBuilder = State.newBuilder();
JsonFormat.parser().merge(data.toStringUtf8(), stateBuilder);
System.out.println("Received a JSON-formatted message:" + stateBuilder.build());
break;
default:
break block;
}
} catch (InvalidProtocolBufferException e) {
e.printStackTrace();
}
consumer.ack();
System.out.println("Ack'ed the message");
};
// Create subscriber client.
Subscriber subscriber = Subscriber.newBuilder(subscriptionName, receiver).build();
try {
subscriber.startAsync().awaitRunning();
System.out.printf("Listening for messages on %s:\n", subscriptionName);
subscriber.awaitTerminated(30, TimeUnit.SECONDS);
} catch (TimeoutException timeoutException) {
subscriber.stopAsync();
}
}
}Node.js
Avant d'essayer cet exemple, suivez les instructions d'installation dans le langage Node.js qui se trouvent sur la page Démarrage rapide : utiliser des bibliothèques clientes. Pour en savoir plus, consultez la documentation de référence sur l'API Pub/Sub pour Node.js.
Avro/**
* TODO(developer): Uncomment these variables before running the sample.
*/
// const subscriptionNameOrId = 'YOUR_SUBSCRIPTION_NAME_OR_ID';
// const timeout = 60;
// Imports the Google Cloud client library
const {PubSub, Schema, Encodings} = require('@google-cloud/pubsub');
// Node FS library, to load definitions
const fs = require('fs');
// And the Apache Avro library
const avro = require('avro-js');
// Creates a client; cache this for further use
const pubSubClient = new PubSub();
function listenForAvroRecords(subscriptionNameOrId, timeout) {
// References an existing subscription
const subscription = pubSubClient.subscription(subscriptionNameOrId);
// Make an encoder using the official avro-js library.
const definition = fs
.readFileSync('system-test/fixtures/provinces.avsc')
.toString();
const type = avro.parse(definition);
// Create an event handler to handle messages
let messageCount = 0;
const messageHandler = async message => {
// "Ack" (acknowledge receipt of) the message
message.ack();
// Get the schema metadata from the message.
const schemaMetadata = Schema.metadataFromMessage(message.attributes);
let result;
switch (schemaMetadata.encoding) {
case Encodings.Binary:
result = type.fromBuffer(message.data);
break;
case Encodings.Json:
result = type.fromString(message.data.toString());
break;
default:
console.log(`Unknown schema encoding: ${schemaMetadata.encoding}`);
break;
}
console.log(`Received message ${message.id}:`);
console.log(`\tData: ${JSON.stringify(result, null, 4)}`);
console.log(`\tAttributes: ${message.attributes}`);
messageCount += 1;
};
// Listen for new messages until timeout is hit
subscription.on('message', messageHandler);
setTimeout(() => {
subscription.removeListener('message', messageHandler);
console.log(`${messageCount} message(s) received.`);
}, timeout * 1000);
}/**
* TODO(developer): Uncomment these variables before running the sample.
*/
// const subscriptionNameOrId = 'YOUR_SUBSCRIPTION_NAME_OR_ID';
// const timeout = 60;
// Imports the Google Cloud client library
const {PubSub, Schema, Encodings} = require('@google-cloud/pubsub');
// And the protobufjs library
const protobuf = require('protobufjs');
// Creates a client; cache this for further use
const pubSubClient = new PubSub();
async function listenForProtobufMessages(subscriptionNameOrId, timeout) {
// References an existing subscription
const subscription = pubSubClient.subscription(subscriptionNameOrId);
// Make an decoder using the protobufjs library.
//
// Since we're providing the test message for a specific schema here, we'll
// also code in the path to a sample proto definition.
const root = protobuf.loadSync('system-test/fixtures/provinces.proto');
const Province = root.lookupType('utilities.Province');
// Create an event handler to handle messages
let messageCount = 0;
const messageHandler = async message => {
// "Ack" (acknowledge receipt of) the message
message.ack();
// Get the schema metadata from the message.
const schemaMetadata = Schema.metadataFromMessage(message.attributes);
let result;
switch (schemaMetadata.encoding) {
case Encodings.Binary:
result = Province.decode(message.data);
break;
case Encodings.Json:
// This doesn't require decoding with the protobuf library,
// since it's plain JSON. But you can still validate it against
// your schema.
result = JSON.parse(message.data.toString());
console.log(`Validation of JSON: ${Province.verify(result)}`);
break;
default:
console.log(`Unknown schema encoding: ${schemaMetadata.encoding}`);
break;
}
console.log(`Received message ${message.id}:`);
console.log(`\tData: ${JSON.stringify(result, null, 4)}`);
console.log(`\tAttributes: ${JSON.stringify(message.attributes, null, 4)}`);
messageCount += 1;
};
// Listen for new messages until timeout is hit
subscription.on('message', messageHandler);
setTimeout(() => {
subscription.removeListener('message', messageHandler);
console.log(`${messageCount} message(s) received.`);
}, timeout * 1000);
}Node.js
Avant d'essayer cet exemple, suivez les instructions d'installation dans le langage Node.js qui se trouvent sur la page Démarrage rapide : utiliser des bibliothèques clientes. Pour en savoir plus, consultez la documentation de référence sur l'API Pub/Sub pour Node.js.
Avro/**
* TODO(developer): Uncomment these variables before running the sample.
*/
// const subscriptionNameOrId = 'YOUR_SUBSCRIPTION_NAME_OR_ID';
// const timeout = 60;
// Imports the Google Cloud client library
import {PubSub, Schema, Encodings, Message} from '@google-cloud/pubsub';
// Node FS library, to load definitions
import * as fs from 'fs';
// And the Apache Avro library
import * as avro from 'avro-js';
// Creates a client; cache this for further use
const pubSubClient = new PubSub();
function listenForAvroRecords(subscriptionNameOrId: string, timeout: number) {
// References an existing subscription
const subscription = pubSubClient.subscription(subscriptionNameOrId);
// Make an encoder using the official avro-js library.
const definition = fs
.readFileSync('system-test/fixtures/provinces.avsc')
.toString();
const type = avro.parse(definition);
// Create an event handler to handle messages
let messageCount = 0;
const messageHandler = async (message: Message) => {
// "Ack" (acknowledge receipt of) the message
message.ack();
// Get the schema metadata from the message.
const schemaMetadata = Schema.metadataFromMessage(message.attributes);
let result: object | undefined;
switch (schemaMetadata.encoding) {
case Encodings.Binary:
result = type.fromBuffer(message.data);
break;
case Encodings.Json:
result = type.fromString(message.data.toString());
break;
default:
console.log(`Unknown schema encoding: ${schemaMetadata.encoding}`);
break;
}
console.log(`Received message ${message.id}:`);
console.log(`\tData: ${JSON.stringify(result, null, 4)}`);
console.log(`\tAttributes: ${message.attributes}`);
messageCount += 1;
};
// Listen for new messages until timeout is hit
subscription.on('message', messageHandler);
setTimeout(() => {
subscription.removeListener('message', messageHandler);
console.log(`${messageCount} message(s) received.`);
}, timeout * 1000);
}/**
* TODO(developer): Uncomment these variables before running the sample.
*/
// const subscriptionNameOrId = 'YOUR_SUBSCRIPTION_NAME_OR_ID';
// const timeout = 60;
// Imports the Google Cloud client library
import {PubSub, Schema, Encodings, Message} from '@google-cloud/pubsub';
// And the protobufjs library
import * as protobuf from 'protobufjs';
// Creates a client; cache this for further use
const pubSubClient = new PubSub();
async function listenForProtobufMessages(
subscriptionNameOrId: string,
timeout: number
) {
// References an existing subscription
const subscription = pubSubClient.subscription(subscriptionNameOrId);
// Make an decoder using the protobufjs library.
//
// Since we're providing the test message for a specific schema here, we'll
// also code in the path to a sample proto definition.
const root = protobuf.loadSync('system-test/fixtures/provinces.proto');
const Province = root.lookupType('utilities.Province');
// Create an event handler to handle messages
let messageCount = 0;
const messageHandler = async (message: Message) => {
// "Ack" (acknowledge receipt of) the message
message.ack();
// Get the schema metadata from the message.
const schemaMetadata = Schema.metadataFromMessage(message.attributes);
let result;
switch (schemaMetadata.encoding) {
case Encodings.Binary:
result = Province.decode(message.data);
break;
case Encodings.Json:
// This doesn't require decoding with the protobuf library,
// since it's plain JSON. But you can still validate it against
// your schema.
result = JSON.parse(message.data.toString());
console.log(`Validation of JSON: ${Province.verify(result)}`);
break;
default:
console.log(`Unknown schema encoding: ${schemaMetadata.encoding}`);
break;
}
console.log(`Received message ${message.id}:`);
console.log(`\tData: ${JSON.stringify(result, null, 4)}`);
console.log(`\tAttributes: ${JSON.stringify(message.attributes, null, 4)}`);
messageCount += 1;
};
// Listen for new messages until timeout is hit
subscription.on('message', messageHandler);
setTimeout(() => {
subscription.removeListener('message', messageHandler);
console.log(`${messageCount} message(s) received.`);
}, timeout * 1000);
}PHP
Avant d'essayer cet exemple, suivez les instructions d'installation dans le langage PHP qui se trouvent sur la page Démarrage rapide : utiliser des bibliothèques clientes. Pour en savoir plus, consultez la documentation de référence sur l'API Pub/Sub pour PHP.
Avrouse Google\Cloud\PubSub\PubSubClient;
/**
* Subscribe and pull messages using an AVRO schema.
*
* @param string $projectId
* @param string $subscriptionId
*/
function subscribe_avro_records($projectId, $subscriptionId, $definitionFile)
{
$pubsub = new PubSubClient([
'projectId' => $projectId,
]);
$subscription = $pubsub->subscription($subscriptionId);
$definition = file_get_contents($definitionFile);
$messages = $subscription->pull();
foreach ($messages as $message) {
$decodedMessageData = '';
$encoding = $message->attribute('googclient_schemaencoding');
switch ($encoding) {
case 'BINARY':
$io = new \AvroStringIO($message->data());
$schema = \AvroSchema::parse($definition);
$reader = new \AvroIODatumReader($schema);
$decoder = new \AvroIOBinaryDecoder($io);
$decodedMessageData = json_encode($reader->read($decoder));
break;
case 'JSON':
$decodedMessageData = $message->data();
break;
}
printf('Received a %d-encoded message %s', $encoding, $decodedMessageData);
}
}use Google\Cloud\PubSub\PubSubClient;
/**
* Subscribe and pull messages using a protocol buffer schema.
*
* Relies on a proto message of the following form:
* ```
* syntax = "proto3";
*
* package utilities;
*
* message StateProto {
* string name = 1;
* string post_abbr = 2;
* }
* ```
*
* @param string $projectId
* @param string $subscriptionId
*/
function subscribe_proto_messages($projectId, $subscriptionId)
{
$pubsub = new PubSubClient([
'projectId' => $projectId,
]);
$subscription = $pubsub->subscription($subscriptionId);
$messages = $subscription->pull();
foreach ($messages as $message) {
$decodedMessageData = '';
$encoding = $message->attribute('googclient_schemaencoding');
switch ($encoding) {
case 'BINARY':
$protobufMessage = new \Utilities\StateProto();
$protobufMessage->mergeFromString($message->data());
$decodedMessageData = $protobufMessage->serializeToJsonString();
break;
case 'JSON':
$decodedMessageData = $message->data();
break;
}
printf('Received a %d-encoded message %s', $encoding, $decodedMessageData);
}
}Python
Avant d'essayer cet exemple, suivez les instructions d'installation dans le langage Python qui se trouvent sur la page Démarrage rapide : utiliser des bibliothèques clientes. Pour en savoir plus, consultez la documentation de référence sur l'API Pub/Sub pour Python.
Avroimport avro.schema as schema
from avro.io import BinaryDecoder, DatumReader
from concurrent.futures import TimeoutError
import io
import json
from google.cloud.pubsub import SubscriberClient
# TODO(developer)
# project_id = "your-project-id"
# subscription_id = "your-subscription-id"
# avsc_file = "path/to/an/avro/schema/file/(.avsc)/formatted/in/json"
# Number of seconds the subscriber listens for messages
# timeout = 5.0
subscriber = SubscriberClient()
subscription_path = subscriber.subscription_path(project_id, subscription_id)
with open(avsc_file, "rb") as file:
avro_schema = schema.parse(file.read())
def callback(message: pubsub_v1.subscriber.message.Message) -> None:
# Get the message serialization type.
encoding = message.attributes.get("googclient_schemaencoding")
# Deserialize the message data accordingly.
if encoding == "BINARY":
bout = io.BytesIO(message.data)
decoder = BinaryDecoder(bout)
reader = DatumReader(avro_schema)
message_data = reader.read(decoder)
print(f"Received a binary-encoded message:\n{message_data}")
elif encoding == "JSON":
message_data = json.loads(message.data)
print(f"Received a JSON-encoded message:\n{message_data}")
else:
print(f"Received a message with no encoding:\n{message}")
message.ack()
streaming_pull_future = subscriber.subscribe(subscription_path, callback=callback)
print(f"Listening for messages on {subscription_path}..\n")
# Wrap subscriber in a 'with' block to automatically call close() when done.
with subscriber:
try:
# When `timeout` is not set, result() will block indefinitely,
# unless an exception occurs first.
streaming_pull_future.result(timeout=timeout)
except TimeoutError:
streaming_pull_future.cancel() # Trigger the shutdown.
streaming_pull_future.result() # Block until the shutdown is complete.from concurrent.futures import TimeoutError
from google.cloud.pubsub import SubscriberClient
from google.protobuf.json_format import Parse
from utilities import us_states_pb2
# TODO(developer)
# project_id = "your-project-id"
# subscription_id = "your-subscription-id"
# Number of seconds the subscriber listens for messages
# timeout = 5.0
subscriber = SubscriberClient()
subscription_path = subscriber.subscription_path(project_id, subscription_id)
# Instantiate a protoc-generated class defined in `us-states.proto`.
state = us_states_pb2.StateProto()
def callback(message: pubsub_v1.subscriber.message.Message) -> None:
# Get the message serialization type.
encoding = message.attributes.get("googclient_schemaencoding")
# Deserialize the message data accordingly.
if encoding == "BINARY":
state.ParseFromString(message.data)
print(f"Received a binary-encoded message:\n{state}")
elif encoding == "JSON":
Parse(message.data, state)
print(f"Received a JSON-encoded message:\n{state}")
else:
print(f"Received a message with no encoding:\n{message}")
message.ack()
streaming_pull_future = subscriber.subscribe(subscription_path, callback=callback)
print(f"Listening for messages on {subscription_path}..\n")
# Wrap subscriber in a 'with' block to automatically call close() when done.
with subscriber:
try:
# When `timeout` is not set, result() will block indefinitely,
# unless an exception occurs first.
streaming_pull_future.result(timeout=timeout)
except TimeoutError:
streaming_pull_future.cancel() # Trigger the shutdown.
streaming_pull_future.result() # Block until the shutdown is complete.Ruby
Avant d'essayer cet exemple, suivez les instructions d'installation dans le langage Ruby qui se trouvent sur la page Démarrage rapide : utiliser des bibliothèques clientes. Pour en savoir plus, consultez la documentation de référence sur l'API Pub/Sub pour Ruby.
Avro# subscription_id = "your-subscription-id"
# avsc_file = "path/to/an/avro/schema/file/(.avsc)/formatted/in/json"
pubsub = Google::Cloud::Pubsub.new
subscription = pubsub.subscription subscription_id
subscriber = subscription.listen do |received_message|
encoding = received_message.attributes["googclient_schemaencoding"]
case encoding
when "BINARY"
require "avro"
avro_schema = Avro::Schema.parse File.read(avsc_file)
buffer = StringIO.new received_message.data
decoder = Avro::IO::BinaryDecoder.new buffer
reader = Avro::IO::DatumReader.new avro_schema
message_data = reader.read decoder
puts "Received a binary-encoded message:\n#{message_data}"
when "JSON"
require "json"
message_data = JSON.parse received_message.data
puts "Received a JSON-encoded message:\n#{message_data}"
else
"Received a message with no encoding:\n#{received_message.message_id}"
end
received_message.acknowledge!
end
subscriber.start
# Let the main thread sleep for 60 seconds so the thread for listening
# messages does not quit
sleep 60
subscriber.stop.wait!# subscription_id = "your-subscription-id"
pubsub = Google::Cloud::Pubsub.new
subscription = pubsub.subscription subscription_id
subscriber = subscription.listen do |received_message|
encoding = received_message.attributes["googclient_schemaencoding"]
case encoding
when "BINARY"
state = Utilities::StateProto.decode received_message.data
puts "Received a binary-encoded message:\n#{state}"
when "JSON"
require "json"
state = Utilities::StateProto.decode_json received_message.data
puts "Received a JSON-encoded message:\n#{state}"
else
"Received a message with no encoding:\n#{received_message.message_id}"
end
received_message.acknowledge!
end
subscriber.start
# Let the main thread sleep for 60 seconds so the thread for listening
# messages does not quit
sleep 60
subscriber.stop.wait!S'abonner à un sujet associé à un schéma Avro avec révisions
Avro nécessite que les messages soient analysés à l'aide du schéma avec lequel ils sont encodés. Vous pouvez également traduire des messages selon un schéma différent à l'aide de la résolution de schéma Avro.
Pub/Sub garantit que toutes les révisions de schéma sont compatibles avec les versions ultérieures et antérieures avec toutes les autres révisions. Cette compatibilité permet d'utiliser n'importe quelle révision comme schéma du lecteur ou du rédacteur.
Lors de l'analyse d'un message encodé avec une révision de schéma différente de celle utilisée par votre abonné, vous devrez peut-être obtenir le schéma d'origine et le transmettre en tant que schéma du rédacteur.
Il est préférable de mettre en cache l'objet lecteur Avro qui peut analyser les messages pour chaque révision de schéma afin de minimiser la latence et le nombre d'appels à l'API GetSchema.
Le code suivant montre ces fonctions:
Lisez les attributs décrits dans la section précédente pour déterminer la révision de schéma utilisée pour encoder le message.
Récupérez la révision du schéma et mettez en cache un lecteur généré avec elle.
Analyser le message selon le schéma utilisé par votre abonné
Go
Avant d'essayer cet exemple, suivez les instructions d'installation dans le langage Go qui se trouvent sur la page Démarrage rapide : utiliser des bibliothèques clientes. Pour en savoir plus, consultez la documentation de référence sur l'API Pub/Sub pour Go.
import (
"context"
"fmt"
"io"
"strings"
"sync"
"time"
"cloud.google.com/go/pubsub"
"github.com/linkedin/goavro/v2"
)
func subscribeWithAvroSchemaRevisions(w io.Writer, projectID, subID, avscFile string) error {
// projectID := "my-project-id"
// topicID := "my-topic"
// avscFile = "path/to/an/avro/schema/file(.avsc)/formatted/in/json"
ctx := context.Background()
client, err := pubsub.NewClient(ctx, projectID)
if err != nil {
return fmt.Errorf("pubsub.NewClient: %w", err)
}
schemaClient, err := pubsub.NewSchemaClient(ctx, projectID)
if err != nil {
return fmt.Errorf("pubsub.NewSchemaClient: %w", err)
}
// Create the cache for the codecs for different revision IDs.
revisionCodecs := make(map[string]*goavro.Codec)
sub := client.Subscription(subID)
ctx2, cancel := context.WithTimeout(ctx, 10*time.Second)
defer cancel()
var mu sync.Mutex
sub.Receive(ctx2, func(ctx context.Context, msg *pubsub.Message) {
mu.Lock()
defer mu.Unlock()
name := msg.Attributes["googclient_schemaname"]
revision := msg.Attributes["googclient_schemarevisionid"]
codec, ok := revisionCodecs[revision]
// If the codec doesn't exist in the map, this is the first time we
// are seeing this revision. We need to fetch the schema and cache the
// codec. It would be more typical to do this asynchronously, but is
// shown here in a synchronous way to ease readability.
if !ok {
// Extract just the schema resource name
path := strings.Split(name, "/")
name = path[len(path)-1]
schema, err := schemaClient.Schema(ctx, fmt.Sprintf("%s@%s", name, revision), pubsub.SchemaViewFull)
if err != nil {
fmt.Fprintf(w, "Nacking, cannot read message without schema: %v\n", err)
msg.Nack()
return
}
codec, err = goavro.NewCodec(schema.Definition)
if err != nil {
msg.Nack()
fmt.Fprintf(w, "goavro.NewCodec err: %v\n", err)
}
revisionCodecs[revision] = codec
}
encoding := msg.Attributes["googclient_schemaencoding"]
var state map[string]interface{}
if encoding == "BINARY" {
data, _, err := codec.NativeFromBinary(msg.Data)
if err != nil {
fmt.Fprintf(w, "codec.NativeFromBinary err: %v\n", err)
msg.Nack()
return
}
fmt.Fprintf(w, "Received a binary-encoded message:\n%#v\n", data)
state = data.(map[string]interface{})
} else if encoding == "JSON" {
data, _, err := codec.NativeFromTextual(msg.Data)
if err != nil {
fmt.Fprintf(w, "codec.NativeFromTextual err: %v\n", err)
msg.Nack()
return
}
fmt.Fprintf(w, "Received a JSON-encoded message:\n%#v\n", data)
state = data.(map[string]interface{})
} else {
fmt.Fprintf(w, "Unknown message type(%s), nacking\n", encoding)
msg.Nack()
return
}
fmt.Fprintf(w, "%s is abbreviated as %s\n", state["name"], state["post_abbr"])
msg.Ack()
})
return nil
}
Java
Avant d'essayer cet exemple, suivez les instructions d'installation dans le langage Java qui se trouvent sur la page Démarrage rapide : utiliser des bibliothèques clientes. Pour en savoir plus, consultez la documentation de référence sur l'API Pub/Sub pour Java.
import com.google.cloud.pubsub.v1.AckReplyConsumer;
import com.google.cloud.pubsub.v1.MessageReceiver;
import com.google.cloud.pubsub.v1.SchemaServiceClient;
import com.google.cloud.pubsub.v1.Subscriber;
import com.google.protobuf.ByteString;
import com.google.pubsub.v1.ProjectSubscriptionName;
import com.google.pubsub.v1.PubsubMessage;
import com.google.pubsub.v1.Schema;
import java.io.ByteArrayInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.util.HashMap;
import java.util.Map;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import org.apache.avro.io.Decoder;
import org.apache.avro.io.DecoderFactory;
import org.apache.avro.specific.SpecificDatumReader;
import utilities.State;
public class SubscribeWithAvroSchemaRevisionsExample {
public static void main(String... args) throws Exception {
// TODO(developer): Replace these variables before running the sample.
String projectId = "your-project-id";
// Use an existing subscription.
String subscriptionId = "your-subscription-id";
subscribeWithAvroSchemaRevisionsExample(projectId, subscriptionId);
}
static SchemaServiceClient getSchemaServiceClient() {
try {
return SchemaServiceClient.create();
} catch (IOException e) {
System.out.println("Could not get schema client: " + e);
return null;
}
}
public static void subscribeWithAvroSchemaRevisionsExample(
String projectId, String subscriptionId) {
// Used to get the schemas for revsions.
final SchemaServiceClient schemaServiceClient = getSchemaServiceClient();
if (schemaServiceClient == null) {
return;
}
// Cache for the readers for different revision IDs.
Map<String, SpecificDatumReader<State>> revisionReaders =
new HashMap<String, SpecificDatumReader<State>>();
ProjectSubscriptionName subscriptionName =
ProjectSubscriptionName.of(projectId, subscriptionId);
// Instantiate an asynchronous message receiver.
MessageReceiver receiver =
(PubsubMessage message, AckReplyConsumer consumer) -> {
// Get the schema encoding type.
String name = message.getAttributesMap().get("googclient_schemaname");
String revision = message.getAttributesMap().get("googclient_schemarevisionid");
SpecificDatumReader<State> reader = null;
synchronized (revisionReaders) {
reader = revisionReaders.get(revision);
}
if (reader == null) {
// This is the first time we are seeing this revision. We need to
// fetch the schema and cache its decoder. It would be more typical
// to do this asynchronously, but is shown here in a synchronous
// way to ease readability.
try {
Schema schema = schemaServiceClient.getSchema(name + "@" + revision);
org.apache.avro.Schema avroSchema =
new org.apache.avro.Schema.Parser().parse(schema.getDefinition());
reader = new SpecificDatumReader<State>(avroSchema, State.getClassSchema());
synchronized (revisionReaders) {
revisionReaders.put(revision, reader);
}
} catch (Exception e) {
System.out.println("Could not get schema: " + e);
// Without the schema, we cannot read the message, so nack it.
consumer.nack();
return;
}
}
ByteString data = message.getData();
// Send the message data to a byte[] input stream.
InputStream inputStream = new ByteArrayInputStream(data.toByteArray());
String encoding = message.getAttributesMap().get("googclient_schemaencoding");
Decoder decoder = null;
// Prepare an appropriate decoder for the message data in the input stream
// based on the schema encoding type.
try {
switch (encoding) {
case "BINARY":
decoder = DecoderFactory.get().directBinaryDecoder(inputStream, /*reuse=*/ null);
System.out.println("Receiving a binary-encoded message:");
break;
case "JSON":
decoder = DecoderFactory.get().jsonDecoder(State.getClassSchema(), inputStream);
System.out.println("Receiving a JSON-encoded message:");
break;
default:
System.out.println("Unknown message type; nacking.");
consumer.nack();
break;
}
// Obtain an object of the generated Avro class using the decoder.
State state = reader.read(null, decoder);
System.out.println(state.getName() + " is abbreviated as " + state.getPostAbbr());
// Ack the message.
consumer.ack();
} catch (IOException e) {
System.err.println(e);
// If we failed to process the message, nack it.
consumer.nack();
}
};
Subscriber subscriber = null;
try {
subscriber = Subscriber.newBuilder(subscriptionName, receiver).build();
subscriber.startAsync().awaitRunning();
System.out.printf("Listening for messages on %s:\n", subscriptionName.toString());
subscriber.awaitTerminated(30, TimeUnit.SECONDS);
} catch (TimeoutException timeoutException) {
subscriber.stopAsync();
}
}
}Python
Avant d'essayer cet exemple, suivez les instructions d'installation dans le langage Python qui se trouvent sur la page Démarrage rapide : utiliser des bibliothèques clientes. Pour en savoir plus, consultez la documentation de référence sur l'API Pub/Sub pour Python.
import avro.schema as schema
from avro.io import BinaryDecoder, DatumReader
from concurrent.futures import TimeoutError
import io
import json
from google.api_core.exceptions import NotFound
from google.cloud.pubsub import SchemaServiceClient, SubscriberClient
schema_client = SchemaServiceClient()
# TODO(developer)
# project_id = "your-project-id"
# subscription_id = "your-subscription-id"
# avsc_file = "path/to/an/avro/schema/file/(.avsc)/formatted/in/json"
# Number of seconds the subscriber listens for messages
# timeout = 5.0
subscriber = SubscriberClient()
subscription_path = subscriber.subscription_path(project_id, subscription_id)
with open(avsc_file, "rb") as file:
reader_avro_schema = schema.parse(file.read())
# Dict to keep readers for different schema revisions.
revisions_to_readers = {}
def callback(message: pubsub_v1.subscriber.message.Message) -> None:
# Get the message serialization type.
schema_name = message.attributes.get("googclient_schemaname")
schema_revision_id = message.attributes.get("googclient_schemarevisionid")
encoding = message.attributes.get("googclient_schemaencoding")
if schema_revision_id not in revisions_to_readers:
schema_path = schema_name + "@" + schema_revision_id
try:
received_avro_schema = schema_client.get_schema(
request={"name": schema_path}
)
except NotFound:
print(f"{schema_path} not found.")
message.nack()
return
writer_avro_schema = schema.parse(received_avro_schema.definition)
revisions_to_readers[schema_revision_id] = DatumReader(
writer_avro_schema, reader_avro_schema
)
reader = revisions_to_readers[schema_revision_id]
# Deserialize the message data accordingly.
if encoding == "BINARY":
bout = io.BytesIO(message.data)
decoder = BinaryDecoder(bout)
message_data = reader.read(decoder)
print(f"Received a binary-encoded message:\n{message_data}")
elif encoding == "JSON":
message_data = json.loads(message.data)
print(f"Received a JSON-encoded message:\n{message_data}")
else:
print(f"Received a message with no encoding:\n{message}")
message.nack()
message.ack()
streaming_pull_future = subscriber.subscribe(subscription_path, callback=callback)
print(f"Listening for messages on {subscription_path}..\n")
# Wrap subscriber in a 'with' block to automatically call close() when done.
with subscriber:
try:
# When `timeout` is not set, result() will block indefinitely,
# unless an exception occurs first.
streaming_pull_future.result(timeout=timeout)
except TimeoutError:
streaming_pull_future.cancel() # Trigger the shutdown.
streaming_pull_future.result() # Block until the shutdown is complete.Rôles requis
Pour obtenir les autorisations dont vous avez besoin pour valider un message par rapport à un schéma, effectuez l'une des opérations suivantes:
- Attribuez l'un des rôles prédéfinis suivants à un compte de service:
roles/pubsub.admin,roles/pubsub.editorouroles/pubsub.viewer. Créez un rôle personnalisé pour un compte de service, puis ajoutez les autorisations
pubsub.schemas.validateetpubsub.schemas.getsuivantes.Pour en savoir plus sur les rôles personnalisés, consultez la page Créer et gérer des rôles IAM personnalisés.