class Clear(object):
    def __init__(self, id):
        self.check_param()

        self.mapId_list = []
        self.setId_list = []

        for param in FLUSH_MAP_ID:
            self.mapId_list.append(param + id)

        for param in FLUSH_SET_ID:
            self.setId_list.append(param + id)

        self.ssdb = SSDB(host=SOURCE_IP, port=SOURCE_PORT)

    def check_param(self):
        if CHARACTER_SET == "" or SOURCE_IP == "" or SOURCE_PORT == "":
            print("Check Clear Parameters!")
            sys.exit()

        for param in FLUSH_MAP_ID:
            if param == "":
                print("Check Clear Parameters!")

        for param in FLUSH_SET_ID:
            if param == "":
                print("Check Clear Parameters!")

    def show_config(self):
        print("")
        print("SOURCE_IP = %s" % SOURCE_IP)
        print("SOURCE_PORT = %s" % SOURCE_PORT)
        print("")

        index = 1
        for param in self.mapId_list:
            print("mapId%s = %s,Size = %s" %
                  (index, param, self.ssdb.hsize(param)))
            index = index + 1
        print("")

        index = 1
        for param in self.setId_list:
            print("setId%s = %s,Size = %s" %
                  (index, param, self.ssdb.zsize(param)))
            index = index + 1
        print("")

    def clear_data(self):

        for param in self.mapId_list:
            self.ssdb.hclear(param)
            print("Clear %s Success!" % (param))

        for param in self.setId_list:
            self.ssdb.zclear(param)
            print("Clear %s Success!" % (param))

        print("Clear SSDB Success!")
Esempio n. 2
0
def processHash(arg):
    keyList = arg[0]
    redisHost = arg[1]
    redisPort = arg[2]
    ssdbHost = arg[3]
    ssdbPort = arg[4]

    if len(keyList) == 0:
        return
    try:
        #get data from redis
        data = {}
        r = redis.Redis(host=redisHost, port=redisPort)
        pipeRedis = r.pipeline()
        #get keys
        for item in keyList:
            pipeRedis.hgetall(item)
        retList = pipeRedis.execute()

        for i in range(len(retList)):
            if len(retList[i]) > 0:
                data[keyList[i]] = retList[i]

        #put keys
        print "get redis data size: %d" % (len(data))
        #print data
        #put data to ssdb
        s = SSDB(SSDB_HOST, SSDB_PORT)
        for key in data:
            s.hclear(key)
            s.multi_hset(key, **data[key])
            print "hset key: %s" % (key)
        #set expire
        setExpire(keyList, "hash", EX_TIME)
    except Exception, e:
        print e.message
Esempio n. 3
0
class SSDBHashMap(object, SSDBBase):
    def __init__(self,
                 hashmap_name,
                 host="127.0.0.1",
                 port=8888,
                 max_connections=10,
                 timeout=60):
        self.hashmap_name = hashmap_name
        self.host = host
        self.port = port
        self.max_connections = max_connections
        self.timeout = timeout
        pool = BlockingConnectionPool(connection_class=Connection,
                                      max_connections=max_connections,
                                      timeout=timeout,
                                      host=host,
                                      port=port)
        self.ssdb = SSDB(connection_pool=pool)
        SSDBBase.__init__(self, self.ssdb)

    def set(self, key, value):
        return self.ssdb.hset(self.hashmap_name, key, value)

    def get(self, key):
        return self.ssdb.hget(self.hashmap_name, key)

    def delete(self, key):
        return self.ssdb.hdel(self.hashmap_name, key)

    def keys(self, name_start="", name_end="", limit=10):
        return self.ssdb.hkeys(self.hashmap_name, name_start, name_end, limit)

    def exists(self, key):
        return self.ssdb.hexists(self.hashmap_name, key)

    def size(self):
        return self.ssdb.hsize(self.hashmap_name)

    def list(self, name_start="", name_end="", limit=10):
        #列出名字处于区间 (name_start, name_end] 的 hashmap
        return self.ssdb.hlist(name_start, name_end, limit)

    def scan(self, key_start, key_end="", limit=10):
        return self.ssdb.hscan(self.hashmap_name, key_start, key_end, limit)

    def clear(self):
        return self.ssdb.hclear(self.hashmap_name)
Esempio n. 4
0
class ssdb_proxy(object):
    def __init__(self, set_name, host, port, max_connections=2, timeout=60):
        """数据库初始化"""
        self.set_name = set_name
        self.host = host
        self.port = port
        self.max_connections = max_connections
        self.timeout = timeout
        pool = BlockingConnectionPool(connection_class=Connection,
                                      max_connections=max_connections,
                                      timeout=timeout,
                                      host=host,
                                      port=port)
        self.ssdb = SSDB(connection_pool=pool)
        pass

    def hset(self, key, value):
        """添加集合"""
        return self.ssdb.hset(self.set_name, key, value)

    def hget(self, key):
        """获取key所对应的值"""
        return self.ssdb.hget(self.set_name, key)

    def hgetall(self):
        """获取所有的数据"""
        return self.ssdb.hgetall(self.set_name)

    def hdel(self, key):
        """删除数据"""
        return self.ssdb.hdel(self.set_name, key)

    def hexists(self, key):
        """判断Key是否存在"""
        return self.ssdb.hexists(self.set_name, key)

    def size(self):
        """获取结合的大小"""
        return self.ssdb.hsize(self.set_name)

    def clean(self):
        """清楚所有数据"""
        return self.ssdb.hclear(self.set_name)
Esempio n. 5
0
class QueueSSDB(QueueBase.QueueBase):
    """
    base class , only provide interface for sub class to implement
    """
    def __init__(self, name, host='localhost', port=8888, **kwargs):
        QueueBase.QueueBase.__init__(self, name, host, port)
        self.__conn = SSDB(connection_pool=BlockingConnectionPool(host=self.host, port=self.port))


    #queue
    @QueueBase.catch
    def put(self, value, *args, **kwargs):
        """
        put an  item in the back of a queue
        :param value:
        :param args:
        :param kwargs:
        :return:
        """
        return self.__conn.qpush_back(self.name,
                                      json.dumps(value, ensure_ascii=False).encode('utf-8') if isinstance(value, dict) or isinstance(value, list) else value)

    def save(self, value, *args, **kwargs):
        """
        put an  item in the back of a queue
        :param value:
        :param args:
        :param kwargs:
        :return:
        """
        return self.__conn.qpush_back(self.name,
                                      json.dumps(value, ensure_ascii = False).encode('utf-8') if isinstance(value,
                                                                                                            dict) or isinstance(
                                          value, list) else value)

    @QueueBase.catch
    def get(self, *args, **kwargs):
        """
        get element from the from of queue
        :param args:
        :param kwargs:
        :return:
        """
        value = self.__conn.qpop_front(self.name)
        return value[0] if value else value

    @QueueBase.catch
    def getMore(self, *args, **kwargs):
        """
        get element from the from of queue
        :param args:
        :param kwargs:
        :return:
        """
        value = self.__conn.qpop_front(self.name, **kwargs)
        return value

    @QueueBase.catch
    def size(self, *args, **kwargs):
        return self.__conn.qsize(self.name)

    @QueueBase.catch
    def changeTable(self, name):
        """
        change the queue name to operate
        :param name:
        :return:
        """
        self.name = name

    @QueueBase.catch
    def select_queue(self, name):
        """
        change the queue name to operate
        :param name:
        :return:
        """
        self.name = name

    @QueueBase.catch
    def qclaerQueue(self):
        return self.__conn.qclear(self.name)


    #KV
    @QueueBase.catch
    def keySet(self,key,value):
        """
        Set the value at key ``name`` to ``value`` .
        :param key:
        :param value:
        :return:
        """
        value = json.dumps(value, ensure_ascii = False).encode('utf-8') if isinstance(value,dict) or isinstance(value, list) else value
        return self.__conn.set(key,value)

    @QueueBase.catch
    def keySetx(self,name, value, ttl=-1):
        """
        Set the value of key ``name`` to ``value`` that expires in ``ttl``
        seconds. ``ttl`` can be represented by an integer or a Python
        timedelta object.
        :param name:
        :param value:
        :param ttl:
        :return:
        """
        return self.__conn.setx(name,value,ttl=ttl)

    @QueueBase.catch
    def keyTtl(self,key):
        """
        Returns the number of seconds until the key ``name`` will expire.
        :return:
        """
        self.__conn.ttl(key)

    @QueueBase.catch
    def keyGet(self,key):
        """
        Return the value at key ``name``, or ``None`` if the key doesn't exist
        :param key:
        :return:
        """
        return self.__conn.get(key)

    @QueueBase.catch
    def keyDel(self,key):
        """
        Delete the key specified by ``name`` .
        :param key:
        :return:
        """
        return self.__conn.delete(key)

    @QueueBase.catch
    def keyKeys(self,key_start='',key_end=''):
        """
        Return a list of the top ``limit`` keys between ``name_start`` and
        ``name_end``
        :param key_start:
        :param key_end:
        :return:
        """
        return self.__conn.keys(name_start=key_start,name_end=key_end,limit=100000)
    @QueueBase.catch
    def keyexists(self,key):
        """
        :param key:
        :return:
        """
        return self.__conn.exists(key)
    #SET
    @QueueBase.catch
    def zsetSet(self,field,score = 1):
        if field:
            if isinstance(field, dict) or isinstance(field, list):
                field = json.dumps(field)
            field = field if len(field) < 100 else field[:100]
        return self.__conn.zset(self.name, field, score)
    @QueueBase.catch
    def zgetSet(self,key):
        return self.__conn.zget(self.name,key)
    @QueueBase.catch
    def zexistsSet(self,name,field):
        return self.__conn.zexists(name,field)
    @QueueBase.catch
    def zkeysSet(self):
        return self.__conn.zkeys(self.name,'','','',limit=100000000)
    @QueueBase.catch
    def zdelSet(self,key):
        return self.__conn.zdel(self.name,key)
    @QueueBase.catch
    def multi_zgetSet(self,*keys):
        return self.__conn.multi_zget(self.name,*keys)
    #Hash
    @QueueBase.catch
    def hgetallHash(self,key):
        return self.__conn.hgetall(key)
    @QueueBase.catch
    def hincrHash(self,name,key):
        return self.__conn.hincr(name,key,amount=1)
    @QueueBase.catch
    def multi_hsetHash(self,name,**mapping):
        return self.__conn.multi_hset(name, **mapping)

    @QueueBase.catch
    def hlistHash(self,start,end):
        return self.__conn.hlist(start, end, limit =  10000000)
    @QueueBase.catch
    def hclearHash(self,key):
        return self.__conn.hclear(key)

    @QueueBase.catch
    def hset(self, key,value):
        return self.__conn.hset(self.name, key,json.dumps(value, ensure_ascii = False).encode('utf-8')
                                if isinstance(value,dict) or isinstance(value, list) else value)

    @QueueBase.catch
    def hsize(self):
        return self.__conn.hsize(self.name)

    @QueueBase.catch
    def hget(self, key = None):
        if key:
            return self.__conn.hget(self.name, key)
        else:
            if self.__conn.hsize(self.name) > 0:
                keys=self.__conn.hkeys(self.name,"", "",limit=1)
                if keys:
                    key=keys[0]
                    v=self.__conn.hget(self.name, key)
                    self.__conn.hdel(self.name, key)
                    return v