Esempio n. 1
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 def _request(self,url,body):
     LOG.debug('request target: '+url)
     r=self._call_method(url,data=body,headers=self._headers,cookies=self._cookies)
     for cur_flag in self._flags:
         if r.text.find(cur_flag)!=-1:
             return url+','+body+';'
     return ''
Esempio n. 2
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	def _scan_target(self,target):
		try:
			LOG.debug('scan target: %s'%target)
			socket.getaddrinfo(target,None)
			return target+';'
		except Exception, e:
			return ''
Esempio n. 3
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	def _parse_args(self,args):
		l=args.split(',')
		for cur in l:
			pair=cur.split(':')
			LOG.debug('key: %s, value: %s'%(pair[0],pair[1]))
			self._args[pair[0]]=pair[1]
		self._unite_args()
Esempio n. 4
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 def _parse_args(self, args):
     l = args.split(',')
     for cur in l:
         pair = cur.split(':')
         LOG.debug('key: %s, value: %s' % (pair[0], pair[1]))
         self._args[pair[0]] = pair[1]
     self._unite_args()
Esempio n. 5
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    def get_result(self):
        """
        Get result from result queue, do task index confirm meanwhile
        Return '' if all tasks have been confirmed

        Raises:
            Queue.Empty: can not get response within timeout
        """
        # check whether all task has been confirmed
        # if so, return ''
        if self._task_confirm_num==self._cur_task_num:
            return ''
        # may throw Queue.Empty here
        task_result=self._result_queue.get(block=True,timeout=self._timeout)
        resultl=task_result.split('|') 
        index=int(resultl[1],10)
        result='|'.join(resultl[2:])
        # do confirm
        # if it is duplicate, try to get result again
        if self._task_confirm_list[index]!=0:
            return self.get_result()
        self._task_confirm_list[index]=1
        self._task_confirm_num+=1
        LOG.debug('get result: %s'%task_result.replace('\n',' '))
        return result
Esempio n. 6
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 def _scan_target(self, target):
     try:
         LOG.debug('scan target: %s' % target)
         socket.getaddrinfo(target, None)
         return target + ';'
     except Exception, e:
         return ''
Esempio n. 7
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	def get_task(self):
		task=self._task_queue.get()
		LOG.debug('get task:%s'%task)
		taskl=task.split('|')
		self._cur_task_flag=taskl[0]
		self._cur_task_index=taskl[1]
		task='|'.join(taskl[2:])
		return self._cur_task_flag,task
Esempio n. 8
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 def get_task(self):
     task=self._task_queue.get()
     LOG.debug('get task: %s'%task.replace('\n',' '))
     taskl=task.split('|')
     self._cur_task_flag=taskl[0]
     self._cur_task_index=taskl[1]
     task='|'.join(taskl[2:])
     return self._cur_task_flag,task
Esempio n. 9
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 def put_task(self,pre_str,task):
     """
     Put task into task queue, update current task list and current task number meanwhile.
     """
     task="|".join([pre_str,str(self._cur_task_num),task])
     LOG.debug('put task: %s'%task.replace('\n',' '))
     self._task_queue.put(task)
     self._cur_task_num+=1
     self._cur_task_list.append(task)
Esempio n. 10
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	def _put_task(self,pre_str,task):
		"""
		Put task into task queue, update current task list and current task number meanwhile
		"""
		task=":".join([pre_str,str(self._cur_task_num),task])
		LOG.debug('put task into queue:%s'%task)
		self._task_queue.put(task)
		self._cur_task_num+=1
		self._cur_task_list.append(task)
Esempio n. 11
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    def _put_task(self, pre_str, task):
        """
		Put task into task queue, update current task list and current task number meanwhile
		"""
        task = ":".join([pre_str, str(self._cur_task_num), task])
        LOG.debug('put task into queue:%s' % task)
        self._task_queue.put(task)
        self._cur_task_num += 1
        self._cur_task_list.append(task)
Esempio n. 12
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	def _parse_args_for_swarm(self):
		s=''
		s=self._put_key_value(s,'m_addr',self._args.m_addr)
		s=self._put_key_value(s,'m_port',self._args.m_port)
		s=self._put_key_value(s,'authkey',self._args.authkey)
		s=self._put_key_value(s,'process_num',self._args.process_num)
		s=self._put_key_value(s,'thread_num',self._args.thread_num)
		s=self._put_key_value(s,'domain_timeout',self._args.domain_timeout)
		# remove the last ','
		s=s[:-1]
		LOG.debug('args pass to swarm-s: '+s)
		return s
Esempio n. 13
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	def reorganize_tasks(self):
		# first clear tasks in task queue
		while True:
			try:
				self._task_queue.get(block=False)
			except Queue.Empty as e:
				break
		# put tasks which have not been confirmed again
		for cur_index,cur in enumerate(self._task_confirm_list):
			if cur==0:
				LOG.debug('put task into queue again: %s'%self._cur_task_list[cur_index])
				self._task_queue.put(self._cur_task_list[cur_index])
Esempio n. 14
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 def _parse_args_for_swarm(self):
     s = ''
     s = self._put_key_value(s, 'm_addr', self._args.m_addr)
     s = self._put_key_value(s, 'm_port', self._args.m_port)
     s = self._put_key_value(s, 'authkey', self._args.authkey)
     s = self._put_key_value(s, 'process_num', self._args.process_num)
     s = self._put_key_value(s, 'thread_num', self._args.thread_num)
     s = self._put_key_value(s, 'domain_timeout', self._args.domain_timeout)
     # remove the last ','
     s = s[:-1]
     LOG.debug('args pass to swarm-s: ' + s)
     return s
Esempio n. 15
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 def reorganize_tasks(self):
     # first clear tasks in task queue
     while True:
         try:
             self._task_queue.get(block=False)
         except Queue.Empty as e:
             break
     # put tasks which have not been confirmed again
     for cur_index,cur in enumerate(self._task_confirm_list):
         if cur==0:
             tmptask=self._cur_task_list[cur_index]
             LOG.debug('put task: %s'%tmptask.replace('\n',' '))
             self._task_queue.put(self._cur_task_list[cur_index])
Esempio n. 16
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 def _send2one(self,content,ip,port):
     try:
         s=socket.socket(socket.AF_INET,socket.SOCK_STREAM)
         s.settimeout(self._args.timeout)
         LOG.debug('connect to %s:%d...'%(ip,port))
         s.connect((ip,port))
         s.send(content)
         s.close()
         LOG.debug('connection to %s:%d close'%(ip,port))
     except socket.timeout as e:
         LOG.warning('%s:%d lost response'%(ip,port))
     except socket.error as arg:
         LOG.error('socket error while connecting to %s:%d errno %d: %s'%(ip,port,arg[0],arg[1]))
Esempio n. 17
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 def _send2one(self, content, ip, port):
     try:
         s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
         s.settimeout(self._args.timeout)
         LOG.debug('connect to %s:%d...' % (ip, port))
         s.connect((ip, port))
         s.send(content)
         s.close()
         LOG.debug('connection to %s:%d close' % (ip, port))
     except socket.timeout as e:
         LOG.warning('%s:%d lost response' % (ip, port))
     except socket.error as arg:
         LOG.error('socket error while connecting to %s:%d errno %d: %s' %
                   (ip, port, arg[0], arg[1]))
Esempio n. 18
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    def _parse_url(self, dst, src):
        """
        Check wether target url 'dst' is in the same domain(include port) with url 'src', and 
        convert url into complete url without params.

        Returns:
            String of complete url with query params if it has. if target url is not in the 
            same domain, return '';
        """
        LOG.debug('detecting url: ' + dst)
        s_parsed = urlparse.urlparse(src)
        s_scheme = s_parsed.scheme
        s_netloc = s_parsed.netloc
        s_cur_dir = s_parsed.path
        if s_cur_dir[-1] != '/':
            s_cur_dir = '/'.join(s_cur_dir.split('/')[:-1])
        else:
            s_cur_dir = s_cur_dir[:-1]

        d_parsed = urlparse.urlparse(dst)
        d_scheme = d_parsed.scheme
        if d_parsed.netloc.find(':') == -1 and d_parsed.netloc != '':
            if d_scheme == 'http':
                d_netloc = d_parsed.netloc + ':80'
            elif d_scheme == 'https':
                d_netloc = d_parsed.netloc + ':443'
            elif d_scheme == '':
                d_netloc = d_parsed.netloc + ':80' if s_scheme == 'http' else d_parsed.netloc + ':443'
            else:
                d_netloc = d_parsed.netloc
        else:
            d_netloc = d_parsed.netloc
        # add '/' as prefix if the path does not starts with '/'
        if d_parsed.path != '':
            d_path = '/' + d_parsed.path if d_parsed.path[
                0] != '/' else d_parsed.path
        else:
            d_path = '/'
        d_query = d_parsed.query

        # if it is a relative url
        if d_netloc == '':
            return urlparse.ParseResult(s_scheme, s_netloc, s_cur_dir + d_path,
                                        '', d_query, '').geturl()
        elif d_netloc == s_netloc and (d_scheme == s_scheme or d_scheme == ''):
            return urlparse.ParseResult(s_scheme, s_netloc, d_path, '',
                                        d_query, '').geturl()
        else:
            return ''
Esempio n. 19
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	def get_do_task(self):
		proc=[]
		if self._args['process_num']==0:
			for cur in range(multiprocessing.cpu_count()):
				p=multiprocessing.Process(target=self._get_do_task_proc)
				p.start()
				proc.append(p)
		else:
			for cur in range(self._args['process_num']):
				p=multiprocessing.Process(target=self._get_do_task_proc)
				p.start()
				proc.append(p)
		for cur in proc:
			proc.join()
		LOG.debug('task completed')
Esempio n. 20
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 def get_do_task(self):
     proc = []
     if self._args['process_num'] == 0:
         for cur in range(multiprocessing.cpu_count()):
             p = multiprocessing.Process(target=self._get_do_task_proc)
             p.start()
             proc.append(p)
     else:
         for cur in range(self._args['process_num']):
             p = multiprocessing.Process(target=self._get_do_task_proc)
             p.start()
             proc.append(p)
     for cur in proc:
         proc.join()
     LOG.debug('task completed')
Esempio n. 21
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	def _send2one_r(self,content,ip,port,result):
		try:
			s=socket.socket(socket.AF_INET,socket.SOCK_STREAM)
			s.settimeout(self._args.timeout)
			LOG.info('connecting to %s:%d...'%(ip,port))
			s.connect((ip,port))
			s.send(content.replace('__EOF__','__EOF___'))
			s.send('__EOF__')
			r=s.recv(4096)
			if r!='':
				result.append(r)
			s.close()
			LOG.debug('connection to %s:%d close'%(ip,port))
		except socket.timeout,e:
			LOG.warning('%s:%d lost response'%(ip,port))
			return ''
Esempio n. 22
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 def _send2one_r(self, content, ip, port, result):
     try:
         s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
         s.settimeout(self._args.timeout)
         LOG.info('connecting to %s:%d...' % (ip, port))
         s.connect((ip, port))
         s.send(content.replace('__EOF__', '__EOF___'))
         s.send('__EOF__')
         r = s.recv(4096)
         if r != '':
             result.append(r)
         s.close()
         LOG.debug('connection to %s:%d close' % (ip, port))
     except socket.timeout, e:
         LOG.warning('%s:%d lost response' % (ip, port))
         return ''
Esempio n. 23
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def main():
    try:
        parser=argparse.ArgumentParser()
        parser.add_argument('-p',dest='s_port',metavar='LISTEN PORT',type=int,required=True,
            help="Listen port to receive info from master")
        args=parser.parse_args()
        init_logger('/var/log/swarm_s.log',True,False)

        sswarm=SSwarm(args.s_port)
        # Parse arguments from mswarm
        sswarm.get_parse_args()
        # Ready to get and exec command from master host
        sswarm.get_do_task()

    except SwarmBaseException as e:
        LOG.debug(str(e))
        return 
Esempio n. 24
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    def _parse_url(self,dst,src):
        """
        Check wether target url 'dst' is in the same domain(include port) with url 'src', and 
        convert url into complete url without params.

        Returns:
            String of complete url with query params if it has. if target url is not in the 
            same domain, return '';
        """
        LOG.debug('detecting url: '+dst)
        s_parsed=urlparse.urlparse(src)
        s_scheme=s_parsed.scheme
        s_netloc=s_parsed.netloc
        s_cur_dir=s_parsed.path
        if s_cur_dir[-1]!='/':
            s_cur_dir='/'.join(s_cur_dir.split('/')[:-1])
        else:
            s_cur_dir=s_cur_dir[:-1]

        d_parsed=urlparse.urlparse(dst)
        d_scheme=d_parsed.scheme
        if d_parsed.netloc.find(':')==-1 and d_parsed.netloc!='':
            if d_scheme=='http':
                d_netloc=d_parsed.netloc+':80'
            elif d_scheme=='https':
                d_netloc=d_parsed.netloc+':443'
            elif d_scheme=='':
                d_netloc=d_parsed.netloc+':80' if s_scheme=='http' else d_parsed.netloc+':443'
            else:
                d_netloc=d_parsed.netloc
        else:
            d_netloc=d_parsed.netloc
        # add '/' as prefix if the path does not starts with '/'
        if d_parsed.path!='':
            d_path='/'+d_parsed.path if d_parsed.path[0]!='/' else d_parsed.path
        else:
            d_path='/'
        d_query=d_parsed.query
        
        # if it is a relative url
        if d_netloc=='':
            return urlparse.ParseResult(s_scheme,s_netloc,s_cur_dir+d_path,'',d_query,'').geturl()
        elif d_netloc==s_netloc and (d_scheme==s_scheme or d_scheme==''):
            return urlparse.ParseResult(s_scheme,s_netloc,d_path,'',d_query,'').geturl()
        else:
            return ''
Esempio n. 25
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 def get_do_task(self):
     proc=[]
     if self._args.process_num==0:
         for cur in range(multiprocessing.cpu_count()):
             p=multiprocessing.Process(target=self._get_do_task_proc)
             p.start()
             proc.append(p)
     else:
         for cur in range(self._args.process_num):
             p=multiprocessing.Process(target=self._get_do_task_proc)
             p.start()
             proc.append(p)
     # start a new thread to listen command from master host
     # use daemon argtment so we need not to wait for this thread to exit
     t=threading.Thread(target=self._response_master)
     t.daemon=True
     t.start()
     for cur in proc:
         cur.join()
     LOG.debug('task completed')
Esempio n. 26
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    def _get_do_task_proc(self):
        self._manager=SSwarmManager(address=(self._args.m_addr, self._args.m_port),
                authkey=self._args.authkey)

        LOG.debug('load module: '+self._args.mod)
        LOG.debug('begin to get and do task...')
        try:
            module=importlib.import_module('modules.'+self._args.mod+'.'+self._args.mod)
        except ImportError as e:
            raise SwarmModuleException('an error occured when load module:'+self._args.mod)
        # create Slave class of this module
        mod_slave=getattr(module,'Slave')(self._args)
    
        while True:
            flag,task=self._manager.get_task()
            if flag=='__off__':
                break
            # else use module to do task
            result=mod_slave.do_task(task)
            self._manager.put_result(result)
Esempio n. 27
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	def _parse_charset(self):
		try:
			charset=self._args.domain_charset
			while True:
				index=charset.find('-')
				if index==-1:
					break
				begin_chr=charset[index-1]
				end_chr=charset[index+1]
				dst=''
				for x in range(ord(begin_chr),ord(end_chr)+1):
					dst+=chr(x)
				charset=charset.replace(begin_chr+'-'+end_chr,dst)
			ret = ''.join(x for i, x in enumerate(charset) if charset.index(x) == i) 
			LOG.debug('charset: %s'%ret)
			return ret
		except Exception, e:
			LOG.critical('invalid subdomain name charset, or format error')
			# raise SwarmUseException('invalid subdomain name charset, or format error')
			raise
Esempio n. 28
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 def get_do_task(self):
     proc = []
     if self._args.process_num == 0:
         for cur in range(multiprocessing.cpu_count()):
             p = multiprocessing.Process(target=self._get_do_task_proc)
             p.start()
             proc.append(p)
     else:
         for cur in range(self._args.process_num):
             p = multiprocessing.Process(target=self._get_do_task_proc)
             p.start()
             proc.append(p)
     # start a new thread to listen command from master host
     # use daemon argtment so we need not to wait for this thread to exit
     t = threading.Thread(target=self._response_master)
     t.daemon = True
     t.start()
     for cur in proc:
         cur.join()
     LOG.debug('task completed')
Esempio n. 29
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def main():
    try:
        parser = argparse.ArgumentParser()
        parser.add_argument('-p',
                            dest='s_port',
                            metavar='LISTEN PORT',
                            type=int,
                            required=True,
                            help="Listen port to receive info from master")
        args = parser.parse_args()
        init_logger('/var/log/swarm_s.log', True, False)

        sswarm = SSwarm(args.s_port)
        # Parse arguments from mswarm
        sswarm.get_parse_args()
        # Ready to get and exec command from master host
        sswarm.get_do_task()

    except SwarmBaseException as e:
        LOG.debug(str(e))
        return
Esempio n. 30
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 def _parse_charset(self):
     try:
         charset = self._args.domain_charset
         while True:
             index = charset.find('-')
             if index == -1:
                 break
             begin_chr = charset[index - 1]
             end_chr = charset[index + 1]
             dst = ''
             for x in range(ord(begin_chr), ord(end_chr) + 1):
                 dst += chr(x)
             charset = charset.replace(begin_chr + '-' + end_chr, dst)
         ret = ''.join(x for i, x in enumerate(charset)
                       if charset.index(x) == i)
         LOG.debug('charset: %s' % ret)
         return ret
     except Exception, e:
         LOG.critical('invalid subdomain name charset, or format error')
         # raise SwarmUseException('invalid subdomain name charset, or format error')
         raise
Esempio n. 31
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    def _get_do_task_proc(self):
        self._manager = SwarmManager(address=(self._args['m_addr'],
                                              self._args['m_port']),
                                     authkey=self._args['authkey'])
        self._manager.connect()

        self._task_queue = self._manager.get_task_queue()
        self._result_queue = self._manager.get_result_queue()
        # init scanners and other modules
        self._init_module()
        LOG.debug('begin to get and do task...')

        while True:
            task = self._task_queue.get()
            LOG.debug('get task:%s' % task)
            taskl = task.split(':')
            task_flag = taskl[0]
            task_index = taskl[1]
            if task_flag == '__doms__':
                result = self.do_domain_scan(taskl[2:])

            elif task_flag == '__off__':
                break

            result = ":".join([task_flag, task_index, result])
            LOG.debug('put result:%s' % result)
            self._result_queue.put(result)
Esempio n. 32
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	def _get_do_task_proc(self):
		self._manager=SwarmManager(address=(self._args['m_addr'], self._args['m_port']),
				authkey=self._args['authkey'])
		self._manager.connect()

		self._task_queue = self._manager.get_task_queue()
		self._result_queue = self._manager.get_result_queue()
		# init scanners and other modules
		self._init_module()
		LOG.debug('begin to get and do task...')
	
		while True:
			task=self._task_queue.get()
			LOG.debug('get task:%s'%task)
			taskl=task.split(':')
			task_flag=taskl[0]
			task_index=taskl[1]
			if task_flag=='__doms__':
				result=self.do_domain_scan(taskl[2:])
			
			elif task_flag=='__off__':
				break

			result=":".join([task_flag,task_index,result])
			LOG.debug('put result:%s'%result)
			self._result_queue.put(result)
Esempio n. 33
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 def _receive_master(self):
     s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
     # incase 'Address already in use error'
     s.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
     s.bind(('', self._s_port))
     LOG.debug('listen on port:%d' % self._s_port)
     s.listen(1)
     sock, addr = s.accept()
     LOG.debug('receive from master host...')
     buff = ''
     while True:
         d = sock.recv(4096)
         buff += d
         if d.find('__EOF__') != -1:
             break
     sock.send('ack')
     sock.close()
     s.close()
     # cut off last __EOF__
     buff = buff[:-7]
     # return to origin args
     buff = buff.replace('__EOF___', '__EOF__')
     return buff
Esempio n. 34
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    def _get_do_task_proc(self):
        self._manager = SSwarmManager(address=(self._args.m_addr,
                                               self._args.m_port),
                                      authkey=self._args.authkey)

        LOG.debug('load module: ' + self._args.mod)
        LOG.debug('begin to get and do task...')
        try:
            module = importlib.import_module('modules.' + self._args.mod +
                                             '.' + self._args.mod)
        except ImportError as e:
            raise SwarmModuleException('an error occured when load module:' +
                                       self._args.mod)
        # create Slave class of this module
        mod_slave = getattr(module, 'Slave')(self._args)

        while True:
            flag, task = self._manager.get_task()
            if flag == '__off__':
                break
            # else use module to do task
            result = mod_slave.do_task(task)
            self._manager.put_result(result)
Esempio n. 35
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	def _receive_master(self):
		s=socket.socket(socket.AF_INET,socket.SOCK_STREAM)
		# incase 'Address already in use error'
		s.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
		s.bind(('',self._s_port))
		LOG.debug('listen on port:%d'%self._s_port)
		s.listen(1)
		sock, addr=s.accept()
		LOG.debug('receive from master host...')
		buff=''
		while True:
			d=sock.recv(4096)
			buff+=d
			if d.find('__EOF__')!=-1:
				break
		sock.send('ack')
		sock.close()
		s.close()
		# cut off last __EOF__
		buff=buff[:-7]
		# return to origin args
		buff=buff.replace('__EOF___','__EOF__')
		return buff
Esempio n. 36
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	def get_parse_args(self):
		# first receive args
		args=self._receive_master()
		sync_flag=args[-8:]
		args=args[:-8]
		self._parse_args(args)
		LOG.debug('complete parsing args')

		if sync_flag=='__SYNC__':
			# do data sync here
			LOG.debug('begin to synchronize data...')
			self._sync_data()
			LOG.debug('data synchronize completed')
Esempio n. 37
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    def get_parse_args(self):
        # first receive args
        args = self._receive_master()
        sync_flag = args[-8:]
        args = args[:-8]
        self._parse_args(args)
        LOG.debug('complete parsing args')

        if sync_flag == '__SYNC__':
            # do data sync here
            LOG.debug('begin to synchronize data...')
            self._sync_data()
            LOG.debug('data synchronize completed')
Esempio n. 38
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 def _scan_target(self,target):
     LOG.debug('scan target: %s'%target)
     if self._quick_mode:
         return self._scan_target_quick(target)
     else:
         return self._scan_target_normal(target)
Esempio n. 39
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 def _parse_args(self,args):
     dict=json.loads(args)
     for k,v in dict.items():
         LOG.debug('set self._args.'+k+' => '+str(v))
         setattr(self._args,k,v)
Esempio n. 40
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 def put_result(self,result):
     result="|".join([self._cur_task_flag,self._cur_task_index,result])
     LOG.debug('put result:%s'%result.replace('\n',' '))
     self._result_queue.put(result)
Esempio n. 41
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 def _parse_args(self, args):
     dict = json.loads(args)
     for k, v in dict.items():
         LOG.debug('set self._args.' + k + ' => ' + str(v))
         setattr(self._args, k, v)
Esempio n. 42
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	def put_result(self,result):
		result="|".join([self._cur_task_flag,self._cur_task_index,result])
		LOG.debug('put result:%s'%result)
		self._result_queue.put(result)