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需求场景:
有一业务数据库,使用MySQL 5.5版本,每天会写入大量数据,需要不定期将多表中“指定时期前“的数据进行删除,在SQL SERVER中很容易实现,写几个WHILE循环就搞定,虽然MySQL中也存在类似功能,怎奈自己不精通,于是采用Python来实现
话不多少,上脚本:
# coding: utf-8 import MySQLdb import time # delete config DELETE_DATETIME = ‘2016-08-31 23:59:59‘ DELETE_ROWS = 10000 EXEC_DETAIL_FILE = ‘exec_detail.txt‘ SLEEP_SECOND_PER_BATCH = 0.5 DATETIME_FORMAT = ‘%Y-%m-%d %X‘ # MySQL Connection Config Default_MySQL_Host = ‘localhost‘ Default_MySQL_Port = 3358 Default_MySQL_User = "root" Default_MySQL_Password = ‘roo@01239876‘ Default_MySQL_Charset = "utf8" Default_MySQL_Connect_TimeOut = 120 Default_Database_Name = ‘testdb001‘ def get_time_string(dt_time): """ 获取指定格式的时间字符串 :param dt_time: 要转换成字符串的时间 :return: 返回指定格式的字符串 """ global DATETIME_FORMAT return time.strftime(DATETIME_FORMAT, dt_time) def print_info(message): """ 将message输出到控制台,并将message写入到日志文件 :param message: 要输出的字符串 :return: 无返回 """ print(message) global EXEC_DETAIL_FILE new_message = get_time_string(time.localtime()) + chr(13) + str(message) write_file(EXEC_DETAIL_FILE, new_message) def write_file(file_path, message): """ 将传入的message追加写入到file_path指定的文件中 请先创建文件所在的目录 :param file_path: 要写入的文件路径 :param message: 要写入的信息 :return: """ file_handle = open(file_path, ‘a‘) file_handle.writelines(message) # 追加一个换行以方便浏览 file_handle.writelines(chr(13)) file_handle.close() def get_mysql_connection(): """ 根据默认配置返回数据库连接 :return: 数据库连接 """ conn = MySQLdb.connect( host=Default_MySQL_Host, port=Default_MySQL_Port, user=Default_MySQL_User, passwd=Default_MySQL_Password, connect_timeout=Default_MySQL_Connect_TimeOut, charset=Default_MySQL_Charset, db=Default_Database_Name ) return conn def mysql_exec(sql_script, sql_param=None): """ 执行传入的脚本,返回影响行数 :param sql_script: :param sql_param: :return: 脚本最后一条语句执行影响行数 """ try: conn = get_mysql_connection() print_info("在服务器{0}上执行脚本:{1}".format( conn.get_host_info(), sql_script)) cursor = conn.cursor() if sql_param is not None: cursor.execute(sql_script, sql_param) row_count = cursor.rowcount else: cursor.execute(sql_script) row_count = cursor.rowcount conn.commit() cursor.close() conn.close() except Exception, e: print_info("execute exception:" + str(e)) row_count = 0 return row_count def mysql_query(sql_script, sql_param=None): """ 执行传入的SQL脚本,并返回查询结果 :param sql_script: :param sql_param: :return: 返回SQL查询结果 """ try: conn = get_mysql_connection() print_info("在服务器{0}上执行脚本:{1}".format( conn.get_host_info(), sql_script)) cursor = conn.cursor() if sql_param != ‘‘: cursor.execute(sql_script, sql_param) else: cursor.execute(sql_script) exec_result = cursor.fetchall() cursor.close() conn.close() return exec_result except Exception, e: print_info("execute exception:" + str(e)) def get_id_range(table_name): """ 按照传入的表获取要删除数据最大ID、最小ID、删除总行数 :param table_name: 要删除的表 :return: 返回要删除数据最大ID、最小ID、删除总行数 """ global DELETE_DATETIME sql_script = """ SELECT MAX(ID) AS MAX_ID, MIN(ID) AS MIN_ID, COUNT(1) AS Total_Count FROM {0} WHERE create_time <=‘{1}‘; """.format(table_name, DELETE_DATETIME) query_result = mysql_query(sql_script=sql_script, sql_param=None) max_id, min_id, total_count = query_result[0] # 此处有一坑,可能出现total_count不为0 但是max_id 和min_id 为None的情况 # 因此判断max_id和min_id 是否为NULL if (max_id is None) or (min_id is None): max_id, min_id, total_count = 0, 0, 0 return max_id, min_id, total_count def delete_data(table_name): max_id, min_id, total_count = get_id_range(table_name) temp_id = min_id while temp_id <= max_id: sql_script = """ DELETE FROM {0} WHERE id <= {1} and id >= {2} AND create_time <=‘{3}‘; """.format(table_name, temp_id + DELETE_ROWS, temp_id, DELETE_DATETIME) temp_id += DELETE_ROWS print(sql_script) row_count = mysql_exec(sql_script) print_info("影响行数:{0}".format(row_count)) current_percent = (temp_id - min_id) * 1.0 / (max_id - min_id) print_info("当前进度{0}/{1},剩余{2},进度为{3}%".format(temp_id, max_id, max_id - temp_id, "%.2f" % current_percent)) time.sleep(SLEEP_SECOND_PER_BATCH) print_info("当前表{0}已无需要删除的数据".format(table_name)) delete_data(‘TB001‘) delete_data(‘TB002‘) delete_data(‘TB003‘)
执行效果:
实现原理:
由于表存在自增ID,于是给我们增量循环删除的机会,查找出满足删除条件的最大值ID和最小值ID,然后按ID 依次递增,每次小范围内(如10000条)进行删除。
实现优点:
实现“小斧子砍大柴”的效果,事务小,对线上影响较小,打印出当前处理到的“ID”,可以随时关闭,稍微修改下代码便可以从该ID开始,方便。
实现不足:
为防止主从延迟太高,采用每次删除SLEEP1秒的方式,相对比较糙,最好的方式应该是周期扫描这条复制链路,根据延迟调整SLEEP的周期,反正都脚本化,再智能化点又何妨!
本文重点依旧是妹子,不能让诸位看官白跑一趟,是不!!!
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原文地址:http://www.cnblogs.com/TeyGao/p/5898591.html