def __init__(self):
#获取当前目录
_cur_path = os.path.normpath(
os.path.join(os.getcwd(), os.path.dirname(__file__)))
_log_path = _cur_path + "/../../app/logs"
if not os.path.isdir(_log_path):
os.makedirs(_log_path)
#创建解析器
self.__config = Config()
self.__log_path = _log_path
def __init__(self, options={}):
self.config = Config()
if "redis" not in sys.modules:
Log.error(L('_NO_MODULE_')+":redis")
if len(options) == 0:
options = {
"host":self.config.get("redis.host") if self.config.get("redis.host") else "127.0.0.1",
"port":self.config.get("redis.port") if self.config.get("redis.port") else "6397"
}
self.options = options
self.handler = redis.Redis(**options)
#set prefix
if 'prefix' in options:
self.options['prefix'] = options['prefix']
else:
self.options['prefix'] = self.config.get("redis.prefix")
class Queue():
#配置对象
__config = ""
#队列字典
__sqs = {}
#初始化
def __init__(self):
self.__config = Config()
#初始化队列
queue_type_list = str(self.__config.get("queue.queue_type_list"))
for queue_type in queue_type_list.split(","):
self.__sqs[queue_type] = deque([])
#进队列
def handler_8001(self, p):
i = p.get('i', 0)
queue_type = p.get('queue_type', "")
if queue_type not in self.__sqs:
return [4001, {"msg": "queue type error"}]
try:
del p['queue_type']
self.__sqs[queue_type].append(p)
except:
Log.error()
return [8001, {"msg": "success" + str(i)}]
#出队列
def handler_8002(self, p):
queue_type = p.get('queue_type', "")
if queue_type not in self.__sqs:
return [4001, {"msg": "queue type error"}]
try:
temp = self.__sqs[queue_type].popleft()
if temp == -1:
return [4002, {"msg": "queue is empty"}]
except:
Log.error()
return [8002, temp]
#队列长度
def handler_8003(self, p):
queue_type = p.get('queue_type', "")
if queue_type not in self.__sqs:
return [4001, {"msg": "queue type error"}]
try:
temp = len(self.__sqs[queue_type])
except:
Log.error()
return [8003, temp]
class Cache():
# 是否连接
connected = False
# 操作句柄
handler = None
# 缓存连接参数
options = {}
# 配置对象
config = None
# 缓存对象
cache = None
# __instance
__instance = None
def __init__(self):
self.config = Config()
def connect(self, type=""):
if '' == type:
type = self.config.get("cache.data_cache_type")
module_type = type.title()
module = "caches." + module_type
m = getattr(__import__(module), module_type)
# print(m)
className = getattr(m, module_type)
# print(className)
try:
cache = className(self.options)
except:
Log.error(L('_CACHE_TYPE_INVALID_') + ':' + type)
return cache
def setOptions(self, name="", value=""):
self.options[name] = value
def getOptions(self, name=""):
return self.options[name]
# 取得缓存类实例
@classmethod
def getinstance(cls, type=""):
if (cls.__instance == None):
cls.__instance = Cache()
return cls.__instance
def __init__(self):
self.__config = Config()
#初始化队列
queue_type_list = str(self.__config.get("queue.queue_type_list"))
for queue_type in queue_type_list.split(","):
self.__sqs[queue_type] = deque([])
def __init__(self):
self.config = Config()
class Db():
# 配置对象
config = ""
# 数据库类型
dbType = ""
# 数据库链接ID,支持多个连接
linkID = {}
# 当前链接ID
clinkID = ''
# 是否已经连接数据库
connected = False
# 数据库连接参数配置
dbConfig = {}
# 数据配置缓存
__config_dbs = {}
# 错误信息
error = ''
# 是否显示调试信息,如果启用会在日志文件里记录SQL语句
debug = False
# 当前SQL指令
queryStr = ""
# 日期格式
__format = "%Y-%m-%d %H:%M:%S"
# 数据库类实例
__instance = None
# 返回或影响记录数
numRows = 0
# 当前查询ID
queryID = None
# 最后插入ID
lastInsID = 0
# 事务指令数
transTimes = 0
def __init__(self):
self.config = Config()
# 取得数据库类实例
@classmethod
def getinstance(cls, db_config=''):
if (cls.__instance == None):
db = Db()
cls.__instance = db.factory(db_config)
return cls.__instance
# 加载数据库 支持配置文件或DSN
def factory(self, db_config=''):
# 读取数据库配置
db_config = self.__parseConfig(db_config)
# print(db_config)
if db_config['dbms'] == '':
Log.error(L('_NO_DB_CONFIG_'))
# 数据库类型
self.dbType = db_config['dbms'].capitalize() # 首字母大写
# 加载数据库驱动
module_name = "dbs." + self.dbType
# print(dir(__import__(module_name)))
# print(sys.modules)
m = getattr(__import__(module_name), self.dbType)
# print(m)
if module_name not in sys.modules:
Log.error(L('_NO_DB_MODULE_'))
# 实例化数据库驱动类
if hasattr(m, self.dbType):
dbClass = getattr(m, self.dbType)
db = dbClass(db_config)
if "pdo" != db_config['dbms'].lower():
db.dbType = self.dbType.upper()
if self.config.get('debug'):
db.debug = True
else:
Log.error(L('_NO_SUPPORT_DB_'))
return db
# 分析数据库配置信息
def __parseConfig(self, db_config=''):
if db_config != '' and isinstance(db_config, str):
db_config = self.__parseDSN(db_config)
else:
db_config = {
"dbms": self.config.get('db.type'),
"username": self.config.get('db.username'),
"password": self.config.get('db.password'),
"hostname": self.config.get('db.hostname'),
"hostport": self.config.get('db.hostport'),
"database": self.config.get('db.database')
}
return db_config
# DSN解析(Data Source Name)
# 事例:mysql://username:password@localhost:3306/dbname
def __parseDSN(self, dsn_str=''):
if (dsn_str == ''):
return False
p = re.compile("^(.*?)\:\/\/(.*?)\:(.*?)\@(.*?)\:([0-9]{1,6})\/(.*?)$")
info = p.findall(dsn_str)
dsn = {
"dbms": info[0][0],
"username": info[0][1],
"password": info[0][2],
"hostname": info[0][3],
"hostport": info[0][4],
"database": info[0][5]
}
return dsn
# 初始化数据库链接
def initConnect(self, master=True):
if 1 == self.config.get('db.deploy_type'): # 部署类型,多库或单库
# 采用分布式主从服务器
self.clinkID = self.multiConnect(master)
else:
# 默认单数据库
if self.connected == False:
self.clinkID = self.connect()
# 连接分布式服务器
def multiConnect(self, master=False):
if len(self.__config_dbs) == 0:
if len(self.dbConfig) == 0:
self.dbConfig = self.config.getSection('db')
for (k, v) in self.dbConfig.items():
self.__config_dbs[k] = v.split(',')
# 数据库读写是否分离
# 是:读写区分服务器,否:读写不区分服务器
if self.config.get('db.rw_separate'):
# “写” 操作时master=true,默认往第一个数据库里写数据
if master:
r = 0
else:
# “读” 操作时master=false,随机抽取一个服务器做读取操作
r = math.trunc(
random.randint(1,
len(self.__config_dbs['hostname']) - 1))
else:
# 每次随机链接数据库,从第一个数据库开始
r = math.trunc(
random.randint(0,
len(self.__config_dbs['hostname']) - 1))
username = self.__config_dbs['username']
password = self.__config_dbs['password']
hostname = self.__config_dbs['hostname']
hostport = self.__config_dbs['hostport']
database = self.__config_dbs['database']
# print("r = %s" % r)
db_config = {
"username": username[r] if r <= len(username) - 1 else username[0],
"password": password[r] if r <= len(password) - 1 else password[0],
"hostname": hostname[r] if r <= len(hostname) - 1 else hostname[0],
"hostport": hostport[r] if r <= len(hostport) - 1 else hostport[0],
"database": database[r] if r <= len(database) - 1 else database[0]
}
return self.connect(db_config, r)
# 数据库调试,记录当前SQL
def Debug(self):
if self.debug:
G('queryEndTime')
Log.record(self.queryStr + " [ RunTime:" +
str(G('queryStartTime', 'queryEndTime', 6)) + "s ]")
# 最近一次查询的SQL语句
def getLastSql(self):
return self.queryStr
# 最近一次的错误信息
def getError(self):
return self.error
# !/usr/bin/python
# coding=utf-8
#
# @Author: LiXiaoYu
# @Time: 2013-10-17
# @Info: 公共方法库
import time
from eserver.common.const import *
from eserver.library.config import Config
_config = Config()
_default_lang = _config.get("default_lang")
_lang_set = getattr(__import__("lang."+_default_lang), _default_lang)
#print(_lang_set._lang)
#获取内存信息
def get_mem_info():
meminfo = {}
with open('/proc/meminfo') as f:
for line in f:
meminfo[line.split(':')[0]] = line.split(':')[1].strip()
return meminfo
#内存使用
def memory_get_usage():
meminfo = get_mem_info()
return int(meminfo['Active'].split(" ")[0])
#格式化数字
def number_format(num=0, dec=2):
if isinstance(num, float):
# !/usr/bin/python
# coding=utf-8
#
# @Author: LiXiaoYu
# @Time: 2013-11-06
# @Info: queue Server.
import eserver.library.epoll as epoll
from eserver.library.config import Config
from eserver.app.queue.circularQueue import CircularQueue
# 获取队列服务配置
_config = Config("queue")
# 初始参数
_port = _config.get("queue.port") # 服务端口
_app = CircularQueue()
# _allow_ip = ['192.168.1.100'] #白名单IP列表
# 开始服务
s = epoll.createServer(_app)
# s.setAllowIp(_allow_ip)
s.listen(_port)
class Log():
#日志类型
__type = {1: "SYSTEM", 2: "QUEUE"}
#日志级别
__level = {
50: "CRITICAL",
40: "ERROR",
30: "WARNING",
20: "INFO",
10: "DEBUG"
}
#日志信息
__log = []
#日期格式
__format = "%Y-%m-%d %H:%M:%S"
#配置对象
__config = ""
#日志目录
__log_path = ""
def __init__(self):
#获取当前目录
_cur_path = os.path.normpath(
os.path.join(os.getcwd(), os.path.dirname(__file__)))
_log_path = _cur_path + "/../../app/logs"
if not os.path.isdir(_log_path):
os.makedirs(_log_path)
#创建解析器
self.__config = Config()
self.__log_path = _log_path
#记录日志,并且过滤未设置的级别
def record(self, msg="", type=LOG_SYSTEM, level=ERROR, record=False):
if isinstance(msg, (list, tuple)):
s = [str(i) for i in msg]
msg = " | ".join(s)
type = self.__type[type]
level = self.__level[level]
log_level = self.__config.get("log_level").split(",")
if record or (level in log_level):
now = datetime.datetime.now().strftime(self.__format)
self.__log.append("%s %s: %s" % (now, type, msg))
#日志保存
#destination 写入目标
def save(self, destination='', level=ERROR):
if destination == "":
now = datetime.datetime.now().strftime("%Y_%m_%d")
destination = self.__log_path + "/" + now + ".log"
else:
destination = self.__log_path + "/" + destination
#检测日志文件大小,超过配置大小则备份日志文件重新生成
is_file = os.path.isfile(destination) #判断文件,是否存在
if is_file == True:
file_size = os.path.getsize(destination) #获取文件尺寸,以字节为单位
log_file_size = math.floor(int(self.__config.get("log_file_size")))
if log_file_size <= file_size:
cur_time = datetime.datetime.now()
os.rename(
destination,
os.path.dirname(destination) + '/' + str(cur_time) + '-' +
os.path.basename(destination))
#写日志
msg = "\r\n".join(self.__log)
logging.basicConfig(filename=destination, level=level)
logging.log(level, msg)
#保存后清空日志缓存
self.__log = []
#写日志
def write(self, msg="", destination="", type=LOG_SYSTEM, level=ERROR):
if isinstance(msg, (list, tuple)):
s = [str(i) for i in msg]
msg = " | ".join(s)
if destination == "":
now = datetime.datetime.now().strftime("%Y_%m_%d")
destination = self.__log_path + "/" + now + ".log"
else:
destination = self.__log_path + "/" + destination
#检测日志文件大小,超过配置大小则备份日志文件重新生成
is_file = os.path.isfile(destination) #判断文件,是否存在
if is_file == True:
file_size = os.path.getsize(destination) #获取文件尺寸,以字节为单位
log_file_size = math.floor(int(self.__config.get("log_file_size")))
if log_file_size <= file_size:
cur_time = datetime.datetime.now()
os.rename(
destination,
os.path.dirname(destination) + '/' + str(cur_time) + '-' +
os.path.basename(destination))
#写日志
now = datetime.datetime.now().strftime(self.__format)
type = self.__type[type]
msg = "%s %s: %s" % (now, type, msg)
logging.basicConfig(filename=destination, level=level)
logging.log(level, msg)
class Redis(Cache):
config = None
def __init__(self, options={}):
self.config = Config()
if "redis" not in sys.modules:
Log.error(L('_NO_MODULE_')+":redis")
if len(options) == 0:
options = {
"host":self.config.get("redis.host") if self.config.get("redis.host") else "127.0.0.1",
"port":self.config.get("redis.port") if self.config.get("redis.port") else "6397"
}
self.options = options
self.handler = redis.Redis(**options)
#set prefix
if 'prefix' in options:
self.options['prefix'] = options['prefix']
else:
self.options['prefix'] = self.config.get("redis.prefix")
##
# 读取缓存
# @access public
# @param string $name 缓存变量名
# @return mixed None
##
def get(self, name=""):
value = self.handler.get(self.options['prefix']+name)
value = value.decode('UTF-8')
try:
jsonData = json.loads(value)
except:
jsonData = value
return jsonData
##
# 写入缓存
# @access public
# @param string $name 缓存变量名
# @param mixed $value 存储数据
# @param integer $expire 有效时间(秒)
# @return boolean
##
def set(self, name="", value="", expire=0):
name = self.options['prefix']+name
if isinstance(value, (dict,tuple,list)):
value = json.dumps(value)
if isinstance(expire, int) and expire>0:
result = self.handler.setex(name, value, expire)
else:
result = self.handler.set(name, value)
return result
##
# 删除缓存
# @access public
# @param string $name 缓存变量名
# @return boolean
##
def rm(self, name=""):
self.handler.delete(self.options['prefix']+name)
##
# 清除缓存
# @access public
# @return boolean
##
def clear(self):
return self.handler.flushdb()