I write client-server application like this: client(c#) <-> server (twisted; ftp proxy and additional functional) <-> ftp server
Server has two classes: my own class-protocol inherited from LineReceiever protocol and FTPClient from twisted.protocols.ftp.
But when client sends or gets big files (10 Gb - 20 Gb) server catches MemoryError. I don't use any buffers in my code. It happens when after call transport.write(data) data appends to inner buffer of reactor's writers (correct me if I wrong).
What should I use to avoid this problem? Or should I change approach to the problem?
I found out that for big streams, I should use IConsumer and IProducer interfaces. But finally it will invoke transfer.write method and effect will be the same. Or am I wrong?
Here is logic of file download/upload (from ftp through Twisted server to client on Windows):
Client sends some headers to Twisted server and after that begins send of file. Twisted server receive headers and after that (if it needs) invoke
setRawMode(), open ftp connection and recieves/sends bytes from/to client and after all close connections. Here is a part of code that uploads files:
def _ftpCWDSuccees(self, protocol, fileName): self._ftpClientAsync.retrieveFile(fileName, FileReceiver(protocol)) class FileReceiver(Protocol): def __init__(self, proto): self.__proto = proto def dataReceived(self, data): self.__proto.transport.write(data) def connectionLost(self, why = connectionDone): self.__proto.connectionLost(why)
main proxy-server class:
class SSDMProtocol(LineReceiver) ...
After SSDMProtocol object (call
obSSDMProtocol) parse headers it invoke method that open ftp connection (
twisted.protocols.ftp) and set object of FTPManager field _ftpClientAsync and call
_ftpCWDSuccees(self, protocol, fileName) with
protocol = obSSDMProtocol and when file's bytes recieved invokes
dataReceived(self, data) of FileReceiver object.
self.__proto.transport.write(data) invoked, data appends to inner buffer faster than sending back to client, therefore memory runs out. May be I can stop reading when the buffer reaches a certain size and resume reading after buffer will be all send to client? or something like that?