zookeeper适用场景:配置文件同步
问题导读:
1.本文三个角色之间是什么关系?
2.三个角色的作用是什么?
3.如何代码实现这三个角色的作用?
在 zookeeper适用场景:zookeeper解决了哪些问题有关于分布式集群配置文件同步问题的描述,本文介绍如何把zk应用到配置文件分发的场景。
假设有三个角色
- trigger:发布最新的配置文件数据,发送指令和数据给zk_agent,实现是下面的trigger.py
- zk_agent:接收来自trigger.py触发的指令和数据,并且把数据更新到zk service上,从而触发zk_app来获取最新的配置数据,实现是下面的zk_agent.py
- zk_app:部署在每台worker上的注册监听zk中配置文件所在znode的变化,从而获取最新的配置文件,应用到worker中,实现是下面的zk_app.py
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配置文件同步到:zk_agent实现逻辑:
* 初始化连接到zk service,首先竞选出master
* master create一个配置文件管理的PERSISTENT类型的znode,比如是/Applications/NginxConf,
* 启动一个线程,专门接收trigger发送的指令,一收到指令,就create一个"conf-"开头的SEQUENCE|PERSISTENT类型的节点,指定znode数据内容是从trigger收到的数据
* 第一次刚更新会创建节点/Applications/NginxConf/conf-0000000000,以后每次更新新的配置文件编号就会增大。
vim zk_agent.py
#!/usr/bin/env python2.7 # -*- coding: UTF-8 -*- # author : firefoxbug # E-Mail : wanghuafire@gmail.com # Blog : www.firefoxbug.net import logging from os.path import basename, join from zkclient import ZKClient, zookeeper, watchmethod import os import sys import threading import signal import time logging.basicConfig( level = logging.DEBUG, format = "[%(asctime)s] %(levelname)-8s %(message)s" ) log = logging class GJZookeeper(object): ZK_HOST = "localhost:2181" ROOT = "/Roles" WORKERS_PATH = join(ROOT, "workers") MASTERS_NUM = 1 TIMEOUT = 10000 def __init__(self, verbose = True): self.VERBOSE = verbose self.masters = [] self.is_master = False self.path = None self.APP_ROOT = "/Applications" self.APP_CONF = join(self.APP_ROOT,"NginxConf") self.zk = ZKClient(self.ZK_HOST, timeout = self.TIMEOUT) self.say("login zookeeper successfully!") # init self.create_roles_znode() # register self.register() def create_roles_znode(self): """ create the zookeeper node if not exist |-Roles |-workers """ nodes = (self.ROOT, self.WORKERS_PATH) for node in nodes: if not self.zk.exists(node): try: self.zk.create(node, "") except: pass @property def is_slave(self): return not self.is_master def register(self): """ register a node for this worker,znode type : EPHEMERAL | SEQUENCE |-Roles |-workers |-worker000000000x ==>>master |-worker000000000x+1 ==>>worker .... """ self.path = self.zk.create(self.WORKERS_PATH + "/worker", "1", flags=zookeeper.EPHEMERAL | zookeeper.SEQUENCE) self.path = basename(self.path) self.say("I'm %s" % self.path) # check who is the master self.get_master() def get_master(self): """ get children, and check who is the smallest child """ @watchmethod def watcher(event): self.say("child changed, try to get master again.") self.get_master() children = self.zk.get_children(self.WORKERS_PATH, watcher) children.sort() self.say("%s's children: %s" % (self.WORKERS_PATH, children)) # check if I'm master self.masters = children[:self.MASTERS_NUM] if self.path in self.masters: self.is_master = True self.say("I've become master!") self.create_app_znode() else: self.say("%s is masters, I'm slave" % self.masters) def create_app_znode(self): """ create the zookeeper node if not exist |-Applications |-NginxConf """ nodes = (self.APP_ROOT, self.APP_CONF) for node in nodes: if not self.zk.exists(node): try: self.say("Create znode [%s] ..."%(node)) self.zk.create(node, "") except: pass def create_conf_znode(self,data): """ create the zookeeper node's children if not exist,contents is conf data |-Applications |-NginxConf |-item-000000000x => data """ self.child_node = join(self.APP_CONF,"conf-") path = self.zk.create(self.child_node,data, flags=zookeeper.SEQUENCE|zookeeper.PERSISTENT) self.say("create znode %s"%path) def say(self, msg): """ print messages to screen """ if self.VERBOSE: if self.path: log.info("[ %s(%s) ] %s" % (self.path, "master" if self.is_master else "slave", msg)) else: log.info(msg) class Watcher: def __init__(self): """ Creates a child thread, which returns. The parent thread waits for a KeyboardInterrupt and then kills the child thread. """ self.child = os.fork() if self.child == 0: return else: self.watch() def watch(self): try: os.wait() except KeyboardInterrupt: print ' exit...' self.kill() sys.exit() def kill(self): try: os.kill(self.child, signal.SIGKILL) except OSError: pass def start_zk_worker(): """ 连接到zookeeper执行初始化 """ gj_zookeeper = GJZookeeper() th1 = threading.Thread(target = start_agent_worker, name = "thread_1", args = (gj_zookeeper,)) th1.start() th1.join() def start_agent_worker(gj_zookeeper): """ 监听配置文件变更信息,解析指令 """ import socket address = ('', 8877) s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) # s = socket.socket() s.bind(address) s.listen(5) print "listen on port 8877 ..." while True: ss, addr = s.accept() print "receive connetcion from " ,addr content = "" while True: try : data = ss.recv(512) if not data: print "close connetcion " ,addr ss.close() break content = content + data print "receive message from %s : %s"%(addr[0],data) except Exception,e: print "receive error from %s : %s"%(addr[0],str(e)) ss.close() break parse_trigger_package(content,gj_zookeeper) s.close() def parse_trigger_package(data,gj_zookeeper): try: cmd = data.split('|')[0] content = data.split('|')[1] except Exception, e: print "ERROR :",str(e) return if cmd == "ADD": gj_zookeeper.create_conf_znode(content) else: pass def main(): Watcher() start_zk_worker() if __name__ == "__main__": main() import time time.sleep(20000)
配置文件接收应用:zk_appzk_app逻辑如下,它工作在每台worker上
- 初始化连接到zk service
- 获取所有/Applications/NginxConf的znode列表并且设置Watcher
- 找到列表中最大的znode节点,记录它的编号,然后getData获取它的数据,这里就拿到了最新的配置信息
- 每次又Watcher被触发,就获取列表中编号最大的节点,然后把上一次保存的编号和它比较,一旦又更新就重新获取数据,应用到worker,如果相同就不需要到zk上获取数据。
vim zk_app.py
#!/usr/bin/env python2.7 # -*- coding: UTF-8 -*- # author : firefoxbug # E-Mail : wanghuafire@gmail.com # Blog : www.firefoxbug.net import logging from os.path import basename, join from zkclient import ZKClient, zookeeper, watchmethod import os import sys import threading import signal import time logging.basicConfig( level = logging.DEBUG, format = "[%(asctime)s] %(levelname)-8s %(message)s" ) log = logging class GJZookeeper(object): ZK_HOST = "localhost:2181" ROOT = "/Roles" WORKERS_PATH = join(ROOT, "workers") MASTERS_NUM = 1 TIMEOUT = 10000 def __init__(self, verbose = True): self.VERBOSE = verbose self.masters = [] self.is_master = False self.path = None self.APP_ROOT = "/Applications" self.APP_CONF = join(self.APP_ROOT,"NginxConf") self.zk = ZKClient(self.ZK_HOST, timeout = self.TIMEOUT) self.say("login zookeeper successfully!") # init self.create_roles_znode() # register self.register() def create_roles_znode(self): """ create the zookeeper node if not exist |-Roles |-workers """ nodes = (self.ROOT, self.WORKERS_PATH) for node in nodes: if not self.zk.exists(node): try: self.zk.create(node, "") except: pass @property def is_slave(self): return not self.is_master def register(self): """ register a node for this worker,znode type : EPHEMERAL | SEQUENCE |-Roles |-workers |-worker000000000x ==>>master |-worker000000000x+1 ==>>worker .... """ self.path = self.zk.create(self.WORKERS_PATH + "/worker", "1", flags=zookeeper.EPHEMERAL | zookeeper.SEQUENCE) self.path = basename(self.path) self.say("I'm %s" % self.path) # check who is the master self.get_master() def get_master(self): """ get children, and check who is the smallest child """ @watchmethod def watcher(event): self.say("child changed, try to get master again.") self.get_master() children = self.zk.get_children(self.WORKERS_PATH, watcher) children.sort() self.say("%s's children: %s" % (self.WORKERS_PATH, children)) # check if I'm master self.masters = children[:self.MASTERS_NUM] if self.path in self.masters: self.is_master = True self.say("I've become master!") self.create_app_znode() else: self.say("%s is masters, I'm slave" % self.masters) def create_app_znode(self): """ create the zookeeper node if not exist |-Applications |-NginxConf """ nodes = (self.APP_ROOT, self.APP_CONF) for node in nodes: if not self.zk.exists(node): try: self.say("Create znode [%s] ..."%(node)) self.zk.create(node, "") except: pass def create_conf_znode(self,data): """ create the zookeeper node's children if not exist,contents is conf data |-Applications |-NginxConf |-conf-000000000x => data """ self.child_node = join(self.APP_CONF,"conf-") path = self.zk.create(self.child_node,data, flags=zookeeper.SEQUENCE|zookeeper.PERSISTENT) self.say("create znode %s"%path) def say(self, msg): """ print messages to screen """ if self.VERBOSE: if self.path: log.info("[ %s(%s) ] %s" % (self.path, "master" if self.is_master else "slave", msg)) else: log.info(msg) class Watcher: def __init__(self): """ Creates a child thread, which returns. The parent thread waits for a KeyboardInterrupt and then kills the child thread. """ self.child = os.fork() if self.child == 0: return else: self.watch() def watch(self): try: os.wait() except KeyboardInterrupt: print ' exit...' self.kill() sys.exit() def kill(self): try: os.kill(self.child, signal.SIGKILL) except OSError: pass def start_zk_worker(): """ 连接到zookeeper执行初始化 """ gj_zookeeper = GJZookeeper() th1 = threading.Thread(target = start_agent_worker, name = "thread_1", args = (gj_zookeeper,)) th1.start() th1.join() def start_agent_worker(gj_zookeeper): """ 监听配置文件变更信息,解析指令 """ import socket address = ('', 8877) s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) # s = socket.socket() s.bind(address) s.listen(5) print "listen on port 8877 ..." while True: ss, addr = s.accept() print "receive connetcion from " ,addr content = "" while True: try : data = ss.recv(512) if not data: print "close connetcion " ,addr ss.close() break content = content + data print "receive message from %s : %s"%(addr[0],data) except Exception,e: print "receive error from %s : %s"%(addr[0],str(e)) ss.close() break parse_trigger_package(content,gj_zookeeper) s.close() def parse_trigger_package(data,gj_zookeeper): try: cmd = data.split('|')[0] content = data.split('|')[1] except Exception, e: print "ERROR :",str(e) return if cmd == "ADD": gj_zookeeper.create_conf_znode(content) else: pass def main(): Watcher() start_zk_worker() if __name__ == "__main__": main() import time time.sleep(20000)
配置文件发送:trigger实现的逻辑很简单,就是模拟给zk_agent发送数据包,格式如下
- 指令|数据
- ADD|helloworld
vim trigger.py
#!/usr/bin/python import socket import sys sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) sock.connect(('127.0.0.1', 8877)) str = sys.argv[1] + '|' + sys.argv[2] sock.send(str) sock.close()
运行
$ python zk_agent.py $ python zk_app.py $ python trigger.py