pip/utils/udp_file_transfer/main.cpp

#include "pip.h"
#include "pifiletransfer.h"
#include "pidatatransfer.h"

class Ob: public PIObject {
	PIOBJECT(Ob)
public:
	Ob() {
		srand(PISystemTime::current().toMicroseconds());
		bytes_from = bytes_to = 0;
		
		sft.setName("sft");
		//sft.setDirectory(sft.directory().cd("..\\"));
		//piCout << "Send File Transfer DIrectory" << sft.directory().absolutePath();
		CONNECTU(&sft, sendRequest, this, ssend);

		rft.setName("rft");
		//rft.setDirectory(rft.directory().cd("..\\1"));
		//piCout << "Receive File Transfer DIrectory" << rft.directory().absolutePath();
		CONNECTU(&rft, sendRequest, this, rsend);
	}

	void startsend() {
// 		PIDir dir = PIDir::current();
// 		dir.cd("..\\");
// 		piCout << dir.absolutePath();
// 		PIVector<PIFile::FileInfo> des = dir.allEntries();
// 		piCout << "all entries" << des.size();
// 		PIFile::FileInfo sde;
// 		piForeachC(PIFile::FileInfo de, des) {
// 			piCout << (de.isDir() ? "dir:" : "file") << de.name << de.size;
// 			if (de.name() == "0") sde = de;
// 		}
// 		sft.setPacketSize(64096);
// 		sft.send(sde);
		PIByteArray ba;
		ba.resize(65536);
		for (int i=0; i<ba.size_s(); i++)
			ba[i] = rand() % 254;
		//sft.setPacketSize(128);
		if (!sft.send(ba)) {piCoutObj << "SEND FAILED"; return;}
		PIByteArray ba2 = rft.data();
// 		ba[2]++;
		if (ba != ba2) {piCoutObj << "DATA CORRUPTED"; return;}
		piCoutObj << "SUCCESS";
	}

private:
	EVENT_HANDLER1(void, ssend, PIByteArray &, data) {
		bytes_to += data.size();
		piCout << "[sender]" << sft.stateString() << ". datasize =" << data.size()
			   << "(" << PIString::readableSize(sft.bytesCur()) << "/" << PIString::readableSize(sft.bytesAll()) << ")"
			   << "(" << PIString::readableSize(bytes_to) << "/" << PIString::readableSize(bytes_from) << ")";
// 		if(rand()%100 > 80) {data.remove(data.size()/2, 1);}
// 		if(rand()%100 > 70) {data[data.size()-6] = 1;}
// 		if(rand()%100 < 90)
			rft.received(data);
	}

	EVENT_HANDLER1(void, rsend, PIByteArray &, data) {
		bytes_from += data.size();
		piCout << "[receiver]" << rft.stateString() << ". datasize =" << data.size()
			   << "(" << PIString::readableSize(rft.bytesCur()) << "/" << PIString::readableSize(rft.bytesAll()) << ")"
			   << "(" << PIString::readableSize(bytes_to) << "/" << PIString::readableSize(bytes_from) << ")";
// 		if(rand()%100 > 80) {data.remove(data.size()/2, 1);}
// 		if(rand()%100 > 70) {data[data.size()-6] = 1;}
// 		if(rand()%100 < 90)
			sft.received(data);
	}

	PIDataTransfer sft;
	PIDataTransfer rft;
	ullong bytes_to, bytes_from;
};


class UDPFileTransfer: public PITimer {
	PIOBJECT_SUBCLASS(UDPFileTransfer, PITimer)
public:
	UDPFileTransfer(const PIString &src_ip_port, const PIString &dst_ip_port) {
		eth.setReadAddress(src_ip_port);
		eth.setSendAddress(dst_ip_port);
		//ft.setPacketSize(65000);
		CONNECTU(&ft, sendRequest, this, ftsend);
		CONNECTU(&ft, sendFilesStarted, this, ftevent);
		CONNECTU(&ft, receiveFilesStarted, this, ftevent);
		CONNECTU(&ft, sendFilesFinished, this, ftevent);
		CONNECTU(&ft, receiveFilesFinished, this, ftevent);
		CONNECTU(&eth, threadedReadEvent, this, received);
		start(50);
		eth.setParameter(PIEthernet::SeparateSockets);
		eth.startThreadedRead();
	}

	void startSend(const PIString &file) {
		ft.send(file);
	}

	PIFileTransfer ft;

private:
	PIEthernet eth;

	void tick(void *, int) {
		if (ft.isSending() || ft.isReceiving()) ftevent();
	}

	EVENT_HANDLER(void, ftevent) {
		piCout << ft.stateString()
			   << "(" << PIString::readableSize(ft.bytesFileCur()) << "/" << PIString::readableSize(ft.bytesFileAll()) << ", "
			   << PIString::readableSize(ft.bytesCur()) << "/" << PIString::readableSize(ft.bytesAll()) << ")";
	}

	EVENT_HANDLER1(void, ftsend, PIByteArray &, data) {
		eth.send(data);
	}

	EVENT_HANDLER2(void, received, uchar * , readed, int, size) {
		PIByteArray ba(readed, size);
		ft.received(ba);
	}
};

int main (int argc, char * argv[]) {
// 	Ob o;
// 	PITimeMeasurer tm;
// 	o.startsend();
// 	piCout << tm.elapsed_s();
// 	return 0;
	if (!(argc == 3 || argc == 4)) {
		piCout << "UDPFileTransfer";
		piCout << "USE: piptest [src_ip_port] [dst_ip_port] {filename}";
		return 0;
	}
	PIKbdListener kbd;
	kbd.enableExitCapture();
	PIString src = argv[1];
	PIString dst = argv[2];
	UDPFileTransfer f(src, dst);
	piCout << "work directory" << f.ft.directory().absolutePath() << ", listen on" << src << ",send to" << dst;
	if (argc == 4) {
		PIString file = argv[3];
		piCout << "send file" << file;
		f.startSend(file);
		return 0;
	} else {
		piCout << "wait for receiving";
	}
	WAIT_FOR_EXIT
	return 0;

}