标签:cto proc sig 回调 wak 实现 mqc produce toe
MQProducer接口:
public interface MQProducer<K, V> {
Future<RecordMetadata> send(ProducerRecord<K, V> var1) throws IllegalArgumentException; // 异步发送
Future<RecordMetadata> send(ProducerRecord<K, V> var1, Callback var2) throws IllegalArgumentException; // 实现了回调函数的异步发送
void flush(); //
List<PartitionInfo> partitionsFor(String var1) throws IllegalArgumentException; // 获取分区信息
long lastOffset(TopicPartition var1) throws InterruptedException; // 获取上一次写入的偏移量
void close(); // 关闭
void close(long var1, TimeUnit var3); // 指定时间内关闭
}
获取需要生产的消息:
private static synchronized String getMqProducer() {
if (null == mqProducer) {
Properties props = new Properties();
props.put("key.serializer", StringSerializer.class);
props.put("value.serializer", ByteArraySerializer.class);
mqProducer = new MQProducerImpl<>(props);
}
}
return null;
}
发送消息:
public void sendMessage(String topic, byte[] msg) {
AtomicBoolean result = new AtomicBoolean(true); // 使用原子类
getMqProducer();
ProducerRecord<String, byte[]> producerRecord = new ProducerRecord<>(topic, msg);
mqProducer.send(producerRecord, (recordMetadata, e);
} catch (IOException e) {
if (null != mqProducer) {
mqProducer.close();
}
result.set(false);
}
if (!result.get()) {
throw new BusinessException("deal send device alarm status ");
}
}
MQConsumer接口:
public interface MQConsumer<K, V> {
Set<TopicPartition> assignment(); // 可以订阅的topic和partition
Set<String> subscription(); // 可以订阅的topic的String名称
void subscribe(List<String> var1) throws IllegalArgumentException;
void subscribe(List<String> var1, ConsumerRebalanceListener var2) throws IllegalArgumentException;
void subscribe(Pattern var1, ConsumerRebalanceListener var2);
void unsubscribe();
void assign(List<TopicPartition> var1);
ConsumerRecords<K, V> poll(long var1); // 拉取消息
long position(TopicPartition var1);
OffsetAndMetadata committed(TopicPartition var1); // 消费完后向指定partition提交偏移量和metadata
List<PartitionInfo> partitionsFor(String var1) throws IllegalArgumentException;
// 提交的同步和非同步方法
void commitSync();
void commitSync(Map<TopicPartition, OffsetAndMetadata> var1) throws IllegalArgumentException;
void commitAsync();
void commitAsync(OffsetCommitCallback var1) throws IllegalArgumentException;
void commitAsync(Map<TopicPartition, OffsetAndMetadata> var1, OffsetCommitCallback var2) throws IllegalArgumentException;
void seek(TopicPartition var1, long var2) throws IllegalArgumentException;
void seekToBeginning(TopicPartition... var1) throws IllegalArgumentException;
void seekToEnd(TopicPartition... var1) throws IllegalArgumentException;
String getGroupID();
Properties getProperties();
void wakeup();
void close(); // 关闭消费
void pause(TopicPartition... var1); // 暂停消费
void resume(TopicPartition... var1); //
}
参数:
public static final String GROUP_ID = "group.id"; // DMQ消息消费的GROUP_ID
public static final String BOARD_REMOVE_GROUP_ID = "campus_alarm_service_board_remove_group_id"; // 单板移除topic的groupid
public static final String KEY_DESERIALIZER = "key.deserializer"; // DMQ消息key的反序列化
public static final String VALUE_DESERIALIZER = "value.deserializer"; // DMQ消息value的反序列化
public static final String MAX_POLL_RECORDS_KEY = "max.poll.records"; // DMQ中最大pull数
public static final String MAX_POLL_RECORDS_VALUE = "8"; // DMQ中最大pull数目
public static final long SLEEP_TIME = 10000L;
public static final int WAIT_FOR_POLL = 5000;
private static final Logger LOGGER = LoggerFactory.getLogger(BoardRemoveConsumer.class); // 记录日志用
private volatile boolean stopped; // 线程停止标志
private final String topic; // DMQ的Topic
private MQConsumer<String, byte[]> mqConsumer; // MQConsumer类
停止消费:
public void stop() { // 停止消费
this.stopped = true;
mqConsumer.close();
开启消费:
public void run() { // 开启消费
while (!stopped) {
try {
if (dealRun()) {
continue;
}
消费的主方法:
private boolean dealRun() {
if (null == mqConsumer) {
// 设置消费者配置以及订阅topic
buildPropertyAndSubscribe();
// 如果mqConsumer为空,sleep 10s
if (null == mqConsumer) {
Thread.sleep(SLEEP_TIME);
return true;
}
}
// 从DMQ中获取消息
ConsumerRecords<String, byte[]> records = mqConsumer.poll(WAIT_FOR_POLL);
// 处理消息
for (ConsumerRecord<String, byte[]> record : records) {
dealRecord(record);
}
// 提交offset
mqConsumer.commitSync();
}
return false;
}
设置消费者配置以及订阅topic:
private void buildPropertyAndSubscribe() {
try {
// 设置消费者配置
final Properties props = new Properties();
// 每个节点都要消费DMQ消息
props.put(GROUP_ID, BOARD_REMOVE_GROUP_ID); // 设置消费的group_id
props.put(KEY_DESERIALIZER, StringDeserializer.class); // 设置消息的key的属性为String
props.put(VALUE_DESERIALIZER, ByteArrayDeserializer.class); // 设置消息的value的属性为bytearray
props.put(MAX_POLL_RECORDS_KEY, MAX_POLL_RECORDS_VALUE); // 设置最大拉取消息数
mqConsumer = new MQConsumerImpl<String, byte[]>(props);
// 订阅topic
final List<String> topicList = Arrays.asList(topic);
mqConsumer.subscribe(topicList); // 订阅
}
}
处理消息:
private void dealRecord(ConsumerRecord<String, byte[]> record) {
// 将接收到的DMQ消息转换成原对象
NcfNotificationMsg notification = NcfNotificationMsg.parseFrom(
record.value()); // 通过record获取原对象
BoardRemoveBean notificationBean = null;
notificationBean = new BoardRemoveBean(
XmlUtil.readXmlToDocument(notification.getNotification()),
notification.getLogicSessionId()); // 读取xml文件
// 分发消息
BoardRemoveImpl.getInstance().boardRemoveProcess(notificationBean);
}
}
线程分发消息:
void boardRemoveProcess(final BoardRemoveBean bean) {
BoardRemoveTask task = new BoardRemoveTask(bean); // 根据topic的类型指定不同的消费任务去消费
executor.execute(task); // 线程池执行该任务
标签:cto proc sig 回调 wak 实现 mqc produce toe
原文地址:https://www.cnblogs.com/Water2Wine/p/13497466.html
