一、关于snakemq的官方介绍
SnakeMQ的GitHub项目页:https://github.com/dsiroky/snakemq
1.纯python实现,跨平台
2.自动重连接
3.可靠发送--可配置的消息方式与消息超时方式
4.持久化/临时 两种队列
5.支持异步 -- poll()
6.symmetrical -- 单个TCP连接可用于双工通讯
7.多数据库支持 -- SQLite、MongoDB……
8.brokerless - 类似ZeroMQ的实现原理
9.扩展模块:RPC, bandwidth throttling
以上都是官话,需要自己验证,动手封装了一下,感觉萌萌哒。
二、几个主要问题说明
1.支持自动重连,不需要自己动手写心跳逻辑,你只需要关注发送和接收就行
2.支持数据持久化,如果开始持久化,在重连之后会自动发送数据。
3.数据的接收,snakemq通过提供回调实现,你只需要写个接收方法添加到回调列表里去。
4.数据的发送,在此发送的都是bytes类型(二进制),因此需要转换。我在程序中测试的都是文本字符串,使用str.encode(‘utf-8')转换成bytes,接收时再转换回来。
5.术语解释,Connector:类似于socket的TcpClient,Lisenter:类似于socket的TcpServer,每个connector或者listener都一个一个ident标识,发送和接收数据时就知道是谁的数据了。
6.使用sqlite持久化时,需要修改源码,sqlite3.connect(filename,check_same_thread = False),用于解决多线程访问sqlite的问题。(会不会死锁?)
7.启动持久化时,如果重新连上,则会自动发送,保证可靠。
8.为了封装的需要,数据接收以后,我通过callback方式传送出去。
三、代码
说明代码中使用了自定义的日志模块
from common import nxlogger import snakemqlogger as logger
可替换成logging的。
回调类(callbacks.py):
# -*- coding:utf-8 -*- '''synchronized callback''' class Callback(object): def __init__(self): self.callbacks = [] def add(self, func): self.callbacks.append(func) def remove(self, func): self.callbacks.remove(func) def __call__(self, *args, **kwargs): for callback in self.callbacks: callback(*args, **kwargs)
Connector类(snakemqConnector.py):
# -*- coding:utf-8 -*- import threading import snakemq import snakemq.link import snakemq.packeter import snakemq.messaging import snakemq.message from snakemq.storage.sqlite import SqliteQueuesStorage from snakemq.message import FLAG_PERSISTENT from common.callbacks import Callback from common import nxlogger import snakemqlogger as logger class SnakemqConnector(threading.Thread): def __init__(self, snakemqident = None, remoteIp = "localhost", remotePort = 9090, persistent = False): super(SnakemqConnector,self).__init__() self.messaging = None self.link = None self.snakemqident = snakemqident self.pktr = None self.remoteIp = remoteIp self.remotePort = remotePort self.persistent = persistent self.on_recv = Callback() self._initConnector() def run(self): logger.info("connector start...") if self.link != None: self.link.loop() logger.info("connector end...") def terminate(self): logger.info("connetor terminating...") if self.link != None: self.link.stop() self.link.cleanup() logger.info("connetor terminated") def on_recv_message(self, conn, ident, message): try: self.on_recv(ident, message.data.decode('utf-8'))#dispatch received data except Exception as e: logger.error("connector recv:{0}".format(e)) print(e) '''send message to dest host named destIdent''' def sendMsg(self, destIdent, byteseq): msg = None if self.persistent: msg = snakemq.message.Message(byteseq, ttl=60, flags=FLAG_PERSISTENT) else: msg = snakemq.message.Message(byteseq, ttl=60) if self.messaging == None: logger.error("connector:messaging is not initialized, send message failed") return self.messaging.send_message(destIdent, msg) ''' ''' def _initConnector(self): try: self.link = snakemq.link.Link() self.link.add_connector((self.remoteIp, self.remotePort)) self.pktr = snakemq.packeter.Packeter(self.link) if self.persistent: storage = SqliteQueuesStorage("SnakemqStorage.db") self.messaging = snakemq.messaging.Messaging(self.snakemqident, "", self.pktr, storage) else: self.messaging = snakemq.messaging.Messaging(self.snakemqident, "", self.pktr) self.messaging.on_message_recv.add(self.on_recv_message) except Exception as e: logger.error("connector:{0}".format(e)) finally: logger.info("connector[{0}] loop ended...".format(self.snakemqident))
Listener类(snakemqListener.py):
# -*- coding:utf-8 -*- import threading import snakemq import snakemq.link import snakemq.packeter import snakemq.messaging import snakemq.message from common import nxlogger import snakemqlogger as logger from common.callbacks import Callback class SnakemqListener(threading.Thread): def __init__(self, snakemqident = None, ip = "localhost", port = 9090, persistent = False): super(SnakemqListener,self).__init__() self.messaging = None self.link = None self.pktr = None self.snakemqident = snakemqident self.ip = ip; self.port = port self.connectors = {} self.on_recv = Callback() self.persistent = persistent self._initlistener() ''' thread run ''' def run(self): logger.info("listener start...") if self.link != None: self.link.loop() logger.info("listener end...") ''' terminate snakemq listener thread ''' def terminate(self): logger.info("listener terminating...") if self.link != None: self.link.stop() self.link.cleanup() logger.info("listener terminated") ''' receive message from host named ident ''' def on_recv_message(self, conn, ident, message): try: self.on_recv(ident, message.data.decode('utf-8'))#dispatch received data self.sendMsg('bob','hello,{0}'.format(ident).encode('utf-8')) except Exception as e: logger.error("listener recv:{0}".format(e)) print(e) def on_drop_message(self, ident, message): print("message dropped", ident, message) logger.debug("listener:message dropped,ident:{0},message:{1}".format(ident, message)) '''client connect''' def on_connect(self, ident): logger.debug("listener:{0} connected".format(ident)) self.connectors[ident] = ident self.sendMsg(ident, "hello".encode('utf-8')) '''client disconnect''' def on_disconnect(self, ident): logger.debug("listener:{0} disconnected".format(ident)) if ident in self.connectors: self.connectors.pop(ident) ''' listen start loop ''' def _initlistener(self): try: self.link = snakemq.link.Link() self.link.add_listener((self.ip, self.port)) self.pktr = snakemq.packeter.Packeter(self.link) self.pktr.on_connect.add(self.on_connect) self.pktr.on_disconnect.add(self.on_disconnect) if self.persistent: storage = SqliteQueuesStorage("SnakemqStorage.db") self.messaging = snakemq.messaging.Messaging(self.snakemqident, "", self.pktr, storage) else: self.messaging = snakemq.messaging.Messaging(self.snakemqident, "", self.pktr) self.messaging.on_message_recv.add(self.on_recv_message) self.messaging.on_message_drop.add(self.on_drop_message) except Exception as e: logger.error("listener:{0}".format(e)) finally: logger.info("listener:loop ended...") '''send message to dest host named destIdent''' def sendMsg(self, destIdent, byteseq): msg = None if self.persistent: msg = snakemq.message.Message(byteseq, ttl=60, flags=FLAG_PERSISTENT) else: msg = snakemq.message.Message(byteseq, ttl=60) if self.messaging == None: logger.error("listener:messaging is not initialized, send message failed") return self.messaging.send_message(destIdent, msg)
测试代码connector(testSnakeConnector.py):
读取本地一个1M的文件,然后发送给listener,然后listener发回一个hello的信息。
from netComm.snakemq import snakemqConnector import time import sys import os def received(ident, data): print(data) if __name__ == "__main__": bob = snakemqConnector.SnakemqConnector('bob',"10.16.5.45",4002,True) bob.on_recv.add(received) bob.start() try: with open("testfile.txt",encoding='utf-8') as f: txt = f.read() for i in range(100): bob.sendMsg("niess",txt.encode('utf-8')) time.sleep(0.1) except Exception as e: print(e) time.sleep(5) bob.terminate() 测试代码listener(testSnakeListener.py): from netComm.snakemq import snakemqListener import time def received(ident, data): filename = "log/recFile{0}.txt".format(time.strftime('%S',time.localtime())) file = open(filename,'w') file.writelines(data) file.close() if __name__ == "__main__": niess = snakemqListener.SnakemqListener("niess","10.16.5.45",4002) niess.on_recv.add(received) niess.start() print("niess start...") time.sleep(60) niess.terminate() print("niess end...")
为什么已经拥有了共享内存时需要消息队列呢? 这将是多种原因,让我们将其分解为多个点来简化 - 据了解,一旦消息被一个进程接收到,它将不再可用于任何其他进程。 而在共享内存中,数据可供多个进程访问。 如果想使用小信息格式进行通信。 当多个进程同时进行通信时,共享内存数据需要同步保护。 使用共享内存的写入和读取频率很高,那么实现功能将会非常复杂。 在这种情况下不值得使用。 如果所有的进程不需要访问共享
一、消息模型 点对点 发布/订阅 二、使用场景 异步处理 流量削锋 应用解耦 三、可靠性 发送端的可靠性 接收端的可靠性 参考资料 一、消息模型 点对点 消息生产者向消息队列中发送了一个消息之后,只能被一个消费者消费一次。 发布/订阅 消息生产者向频道发送一个消息之后,多个消费者可以从该频道订阅到这条消息并消费。 发布与订阅模式和观察者模式有以下不同: 观察者模式中,观察者和主题都知道对方的存在;
一个线程会从消息队列中收取消息,另一个线程会定时给消息队列发送普通消息和紧急消息 一个线程会从消息队列中收取消息,另一个线程会定时给消息队列发送普通消息和紧急消息 源码/* * Copyright (c) 2006-2018, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: *
消息队列接口 结构体 struct rt_messagequeue 消息队列控制块 更多... 类型定义 typedef struct rt_messagequeue * rt_mq_t 消息队列类型指针定义 函数 rt_err_t rt_mq_init (rt_mq_t mq, const char *name, void *msgpool, rt_size_t msg_
rabbitmq 使用 定义handler实体 public class UserEvent : EventHandler { public string Name { get; set; } public string Job { get; set; } } 队列定义 [QueueConsumer(nameof(HelloEventHandler), QueueCon
消息队列(也称为 MSMQ)使在不同时间运行的应用程序可以在异类网络和可能暂时脱机的系统之间通讯。应用程序向队列发送消息并从队列读取消息。