/*
 *  Copyright (C) 2002-2007  The DOSBox Team
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
 */

/* $Id: softmodem.cpp,v 1.8 2007/07/19 18:58:39 c2woody Exp $ */

#include "dosbox.h"

#if C_MODEM

#include <string.h>
#include <stdlib.h>
#include <ctype.h>

#include "support.h"
#include "serialport.h"
#include "softmodem.h"
#include "misc_util.h"

//#include "mixer.h"


CSerialModem::CSerialModem(Bitu id, CommandLine* cmd):CSerial(id, cmd) {
	InstallationSuccessful=false;
	connected=false;

	rqueue=new CFifo(MODEM_BUFFER_QUEUE_SIZE);
	tqueue=new CFifo(MODEM_BUFFER_QUEUE_SIZE);
	
	// Default to direct null modem connection.  Telnet mode interprets IAC codes
	telnetmode = false;

	// Initialize the sockets and setup the listening port
	listenport = 23;
	waitingclientsocket=0;
	clientsocket = 0;
	serversocket = 0;
	getBituSubstring("listenport:", &listenport, cmd);
	
	// TODO: Fix dialtones if requested
	//mhd.chan=MIXER_AddChannel((MIXER_MixHandler)this->MODEM_CallBack,8000,"MODEM");
	//MIXER_Enable(mhd.chan,false);
	//MIXER_SetMode(mhd.chan,MIXER_16MONO);
		
	CSerial::Init_Registers();
	Reset(); // reset calls EnterIdleState
		
	setEvent(SERIAL_POLLING_EVENT,1);
	InstallationSuccessful=true;
}

CSerialModem::~CSerialModem() {
	if(serversocket) delete serversocket;
	if(clientsocket) delete clientsocket;
	if(waitingclientsocket) delete waitingclientsocket;

	delete rqueue;
	delete tqueue;

	// remove events
	for(Bitu i = SERIAL_BASE_EVENT_COUNT+1;	i <= SERIAL_MODEM_EVENT_COUNT; i++)
		removeEvent(i);
}

void CSerialModem::handleUpperEvent(Bit16u type) {
	switch(type)
	{
	case SERIAL_RX_EVENT:
		{
			break;
		}
	case MODEM_TX_EVENT:
		{
			if(tqueue->left()) {
				tqueue->addb(waiting_tx_character);
				if(tqueue->left() < 2) {
					CSerial::setCTS(false);
				}
			} else {
				static Bits lcount=0;
				if (lcount<1000) {
					lcount++;
					LOG_MSG("MODEM: TX Buffer overflow!");
				}
			}
			ByteTransmitted();
			
			break;
		}
	case SERIAL_POLLING_EVENT:
		{
			Timer2();
			setEvent(SERIAL_POLLING_EVENT,1);
			break;
		}

	case MODEM_RING_EVENT:
		{
			break;
		}
	}
}

void CSerialModem::SendLine(const char *line) {
	rqueue->addb(0xd);
	rqueue->addb(0xa);
	rqueue->adds((Bit8u *)line,strlen(line));
	rqueue->addb(0xd);
	rqueue->addb(0xa);
}

// only for numbers < 1000...
void CSerialModem::SendNumber(Bitu val) {
	rqueue->addb(0xd);
	rqueue->addb(0xa);
	
	rqueue->addb(val/100+'0');
	val = val%100;
	rqueue->addb(val/10+'0');
	val = val%10;
	rqueue->addb(val+'0');

	rqueue->addb(0xd);
	rqueue->addb(0xa);
}

void CSerialModem::SendRes(ResTypes response) {
	char * string;Bitu code;
	switch (response)
	{
		case ResNONE:		return;
		case ResOK:			string="OK"; code=0; break;
		case ResERROR:		string="ERROR"; code=4; break;
		case ResRING:		string="RING"; code=2; break;
		case ResNODIALTONE: string="NO DIALTONE"; code=6; break;
		case ResNOCARRIER:	string="NO CARRIER" ;code=3; break;
		case ResCONNECT:	string="CONNECT 57600"; code=1; break;
	}
	
	if(doresponse!=1) {
		if(doresponse==2 && (response==ResRING || 
			response == ResCONNECT || response==ResNOCARRIER)) return;
		if(numericresponse) SendNumber(code);
		else SendLine(string);

		//if(CSerial::CanReceiveByte())	// very fast response
		//	if(rqueue->inuse() && CSerial::getRTS())
		//	{ Bit8u rbyte =rqueue->getb();
		//		CSerial::receiveByte(rbyte);
		//	LOG_MSG("Modem: sending byte %2x back to UART2",rbyte);
		//	}

		LOG_MSG("Modem response: %s", string);
	}
}

bool CSerialModem::Dial(char * host) {

	// Scan host for port
	Bit16u port;
	char * hasport=strrchr(host,':');
	if (hasport) {
		*hasport++=0;
		port=(Bit16u)atoi(hasport);
	}
	else port=MODEM_DEFAULT_PORT;
	// Resolve host we're gonna dial
	LOG_MSG("Connecting to host %s port %d",host,port);
	clientsocket = new TCPClientSocket(host, port);
	if(!clientsocket->isopen) {
		delete clientsocket;
		clientsocket=0;
		LOG_MSG("Failed to connect.");
		SendRes(ResNOCARRIER);
		EnterIdleState();
		return false;
	} else {
		EnterConnectedState();
		return true;
	}
}

void CSerialModem::AcceptIncomingCall(void) {
	if(waitingclientsocket) {
		clientsocket=waitingclientsocket;
		waitingclientsocket=0;
		EnterConnectedState();
	} else {
		EnterIdleState();
	}
}

Bitu CSerialModem::ScanNumber(char * & scan) {
	Bitu ret=0;
	while (char c=*scan) {
		if (c>='0' && c<='9') {
			ret*=10;
			ret+=c-'0';
			scan++;
		} else break;
	}
	return ret;
}

void CSerialModem::Reset(){
	EnterIdleState();
	cmdpos = 0;
	cmdbuf[0]=0;
	oldDTRstate = getDTR();
	flowcontrol = 0;
	plusinc = 0;
	if(clientsocket) {
		delete clientsocket;
		clientsocket=0;
	}
	memset(&reg,0,sizeof(reg));
	reg[MREG_AUTOANSWER_COUNT]=0;	// no autoanswer
	reg[MREG_RING_COUNT] = 1;
	reg[MREG_ESCAPE_CHAR]='+';
	reg[MREG_CR_CHAR]='\r';
	reg[MREG_LF_CHAR]='\n';
	reg[MREG_BACKSPACE_CHAR]='\b';

	cmdpause = 0;	
	echo = true;
	doresponse = 0;
	numericresponse = false;

	/* Default to direct null modem connection.  Telnet mode interprets IAC codes */
	telnetmode = false;
}

void CSerialModem::EnterIdleState(void){
	connected=false;
	ringing=false;
	
	if(clientsocket) {
		delete clientsocket;
		clientsocket=0;
	}

	if(waitingclientsocket) {	// clear current incoming socket
		delete waitingclientsocket;
		waitingclientsocket=0;
	}
	// get rid of everything
	if(serversocket) {
		while(waitingclientsocket=serversocket->Accept())
			delete waitingclientsocket;
	} else if (listenport) {
		
		serversocket=new TCPServerSocket(listenport);	
		if(!serversocket->isopen) {
			LOG_MSG("Serial%d: Modem could not open TCP port %d.",COMNUMBER,listenport);
			delete serversocket;
			serversocket=0;
		} else LOG_MSG("Serial%d: Modem listening on port %d...",COMNUMBER,listenport);
	}
	waitingclientsocket=0;
	
	commandmode = true;
	CSerial::setCD(false);
	CSerial::setRI(false);
	CSerial::setDSR(true);
	CSerial::setCTS(true);
	tqueue->clear();
}

void CSerialModem::EnterConnectedState(void) {
	if(serversocket) {
		// we don't accept further calls
		delete serversocket;
		serversocket=0;
	}
	SendRes(ResCONNECT);
	commandmode = false;
	memset(&telClient, 0, sizeof(telClient));
	connected = true;
	ringing = false;
	CSerial::setCD(true);
	CSerial::setRI(false);
}

void CSerialModem::DoCommand() {
	cmdbuf[cmdpos] = 0;
	cmdpos = 0;			//Reset for next command
	upcase(cmdbuf);
	LOG_MSG("Command sent to modem: ->%s<-\n", cmdbuf);
		/* Check for empty line, stops dialing and autoanswer */
		if (!cmdbuf[0]) {
			reg[0]=0;	// autoanswer off
			return;
		//	} 
		//else {
				//MIXER_Enable(mhd.chan,false);
		//		dialing = false;
		//		SendRes(ResNOCARRIER);
		//		goto ret_none;
		//	}
		}
		/* AT command set interpretation */

		if ((cmdbuf[0] != 'A') || (cmdbuf[1] != 'T')) {
			SendRes(ResERROR);
			return;
		}
		
		if (strstr(cmdbuf,"NET0")) {
			telnetmode = false;
			SendRes(ResOK);
			return;
		}
		else if (strstr(cmdbuf,"NET1")) {
			telnetmode = true;
			SendRes(ResOK);
			return;
		}
		
		/* Check for dial command */
		if(strncmp(cmdbuf,"ATD3",3)==0) {
			char * foundstr=&cmdbuf[3];
			if (*foundstr=='T' || *foundstr=='P') foundstr++;
			/* Small protection against empty line */
			if (!foundstr[0]) {
				SendRes(ResERROR);
				return;
			}
			char* helper;
			// scan for and remove spaces; weird bug: with leading spaces in the string,
			// SDLNet_ResolveHost will return no error but not work anyway (win)
			while(foundstr[0]==' ') foundstr++;
			helper=foundstr;
			helper+=strlen(foundstr);
			while(helper[0]==' ') {
				helper[0]=0;
				helper--;
			}

			if (strlen(foundstr) >= 12) {
					// Check if supplied parameter only consists of digits
					bool isNum = true;
				for (Bitu i=0; i<strlen(foundstr); i++)
						if (foundstr[i] < '0' || foundstr[i] > '9')
							isNum = false;
				if (isNum) {
					// Parameter is a number with at least 12 digits => this cannot be a valid IP/name
					// Transform by adding dots
					char buffer[128];
					Bitu j = 0;
					for (Bitu i=0; i<strlen(foundstr); i++) {
							buffer[j++] = foundstr[i];
							// Add a dot after the third, sixth and ninth number
							if (i == 2 || i == 5 || i == 8)
								buffer[j++] = '.';
							// If the string is longer than 12 digits, interpret the rest as port
							if (i == 11 && strlen(foundstr)>12)
								buffer[j++] = ':';
						}
						buffer[j] = 0;
						foundstr = buffer;
					}
				}
			Dial(foundstr);
			return;
		}
		char * scanbuf;
		scanbuf=&cmdbuf[2];
		char chr;
		Bitu num;
		while (chr=*scanbuf++) {
			switch (chr) {
			case 'I':	//Some strings about firmware
				switch (num=ScanNumber(scanbuf)) {
				case 3:SendLine("DosBox Emulated Modem Firmware V1.00");break;
				case 4:SendLine("Modem compiled for DosBox version " VERSION);break;
				};break;
			case 'E':	//Echo on/off
				switch (num=ScanNumber(scanbuf)) {
				case 0:echo = false;break;
				case 1:echo = true;break;
				};break;
			case 'V':
				switch (num=ScanNumber(scanbuf)) {
				case 0:numericresponse = true;break;
				case 1:numericresponse = false;break;
				};break;
			case 'H':	//Hang up
				switch (num=ScanNumber(scanbuf)) {
				case 0:
					if (connected) {
						SendRes(ResNOCARRIER);
						EnterIdleState();
						return;
		}
					//Else return ok
				};break;
			case 'O':	//Return to data mode
				switch (num=ScanNumber(scanbuf))
				{
				case 0:
					if (clientsocket) {
						commandmode = false;
						return;
					} else {
						SendRes(ResERROR);
						return;
					}
				};break;
			case 'T':	//Tone Dial
			case 'P':	//Pulse Dial
				break;
			case 'M':	//Monitor
			case 'L':	//Volume
				ScanNumber(scanbuf);
				break;
			case 'A':	//Answer call
				if (waitingclientsocket) {
					AcceptIncomingCall();
				} else {
					SendRes(ResERROR);
					return;
				}
				return;
			case 'Z':	//Reset and load profiles
			{
				// scan the number away, if any
				ScanNumber(scanbuf);
				if (clientsocket/*socket*/) SendRes(ResNOCARRIER);
				Reset();
				break;
			}
			case ' ':	//Space just skip
				break;
			case 'Q':	// Response options
				{			// 0 = all on, 1 = all off,
							// 2 = no ring and no connect/carrier in answermode
					Bitu val = ScanNumber(scanbuf);	
					if(!(val>2)) {
						doresponse=val;
						break;
					} else {
						SendRes(ResERROR);
						return;
					}
				}
			case 'S':	//Registers	
			{
				Bitu index=ScanNumber(scanbuf);
				if(index>=SREGS) {
					SendRes(ResERROR);
					return; //goto ret_none;
				}
				
				while(scanbuf[0]==' ') scanbuf++;	// skip spaces
				
				if(scanbuf[0]=='=') {	// set register
					scanbuf++;
					while(scanbuf[0]==' ') scanbuf++;	// skip spaces
					Bitu val = ScanNumber(scanbuf);
					reg[index]=val;
					break;
				}
				else if(scanbuf[0]=='?') {	// get register
					SendNumber(reg[index]);
					scanbuf++;
					break;
				}
				//else LOG_MSG("print reg %d with %d",index,reg[index]);
			}
			break;
			case '&':
			{
				if(scanbuf[0]!=0) {
					char ch = scanbuf[0];
					scanbuf++;
					switch(ch) {
						case 'K':
						{
							Bitu val = ScanNumber(scanbuf);
							if(val<5) flowcontrol=val;
							else {
								SendRes(ResERROR);
								return;
							}
							break;
						}
						default:
						{
							scanbuf++;
							LOG_MSG("Modem: Unhandled command: &%c%d",ch,ScanNumber(scanbuf));
							break;
						}
					}	
				} else {
					SendRes(ResERROR);
					return;
				}
			}
		break;

			default:
				LOG_MSG("Modem: Unhandled command: %c%d",chr,ScanNumber(scanbuf));
				}
			}
		
		SendRes(ResOK);
		return;
	}

void CSerialModem::TelnetEmulation(Bit8u * data, Bitu size) {
	Bitu i;
	Bit8u c;
	for(i=0;i<size;i++) {
		c = data[i];
		if(telClient.inIAC) {
			if(telClient.recCommand) {
				if((c != 0) && (c != 1) && (c != 3)) {
					LOG_MSG("MODEM: Unrecognized option %d", c);
					if(telClient.command>250) {
						/* Reject anything we don't recognize */
						tqueue->addb(0xff);
						tqueue->addb(252);
						tqueue->addb(c); /* We won't do crap! */
					}
			}
			switch(telClient.command) {
				case 251: /* Will */
					if(c == 0) telClient.binary[TEL_SERVER] = true;
					if(c == 1) telClient.echo[TEL_SERVER] = true;
					if(c == 3) telClient.supressGA[TEL_SERVER] = true;
					break;
				case 252: /* Won't */
					if(c == 0) telClient.binary[TEL_SERVER] = false;
					if(c == 1) telClient.echo[TEL_SERVER] = false;
					if(c == 3) telClient.supressGA[TEL_SERVER] = false;
					break;
				case 253: /* Do */
					if(c == 0) {
						telClient.binary[TEL_CLIENT] = true;
							tqueue->addb(0xff);
							tqueue->addb(251);
							tqueue->addb(0); /* Will do binary transfer */
					}
					if(c == 1) {
						telClient.echo[TEL_CLIENT] = false;
							tqueue->addb(0xff);
							tqueue->addb(252);
							tqueue->addb(1); /* Won't echo (too lazy) */
					}
					if(c == 3) {
						telClient.supressGA[TEL_CLIENT] = true;
							tqueue->addb(0xff);
							tqueue->addb(251);
							tqueue->addb(3); /* Will Suppress GA */
					}
					break;
				case 254: /* Don't */
					if(c == 0) {
						telClient.binary[TEL_CLIENT] = false;
							tqueue->addb(0xff);
							tqueue->addb(252);
							tqueue->addb(0); /* Won't do binary transfer */
					}
					if(c == 1) {
						telClient.echo[TEL_CLIENT] = false;
							tqueue->addb(0xff);
							tqueue->addb(252);
							tqueue->addb(1); /* Won't echo (fine by me) */
					}
					if(c == 3) {
						telClient.supressGA[TEL_CLIENT] = true;
							tqueue->addb(0xff);
							tqueue->addb(251);
							tqueue->addb(3); /* Will Suppress GA (too lazy) */
					}
					break;
				default:
					LOG_MSG("MODEM: Telnet client sent IAC %d", telClient.command);
					break;
			}
			telClient.inIAC = false;
			telClient.recCommand = false;
			continue;
		} else {
			if(c==249) {
				/* Go Ahead received */
				telClient.inIAC = false;
				continue;
			}
			telClient.command = c;
			telClient.recCommand = true;
			
			if((telClient.binary[TEL_SERVER]) && (c == 0xff)) {
				/* Binary data with value of 255 */
				telClient.inIAC = false;
				telClient.recCommand = false;
					rqueue->addb(0xff);
				continue;
			}
		}
	} else {
		if(c == 0xff) {
			telClient.inIAC = true;
			continue;
		}
			rqueue->addb(c);
		}
	}
}

void CSerialModem::Timer2(void) {

	unsigned long args = 1;
	bool sendbyte = true;
	Bitu usesize;
	Bit8u txval;
	Bitu txbuffersize =0;

	// check for bytes to be sent to port
	if(CSerial::CanReceiveByte())
		if(rqueue->inuse() && (CSerial::getRTS()||(flowcontrol!=3))) {
			Bit8u rbyte = rqueue->getb();
			//LOG_MSG("Modem: sending byte %2x back to UART3",rbyte);
			CSerial::receiveByte(rbyte);
		}
	// Check for eventual break command
	if (!commandmode) cmdpause++;
	// Handle incoming data from serial port, read as much as available
	CSerial::setCTS(true);	// buffer will get 'emptier', new data can be received 
	while (tqueue->inuse()) {
		txval = tqueue->getb();
		if (commandmode) {
			if (echo) {
				rqueue->addb(txval);
				//LOG_MSG("Echo back to queue: %x",txval);
			}
			if (txval==0xa) continue;		//Real modem doesn't seem to skip this?
			else if (txval==0x8 && (cmdpos > 0)) --cmdpos;	// backspace
			else if (txval==0xd) DoCommand();				// return
			else if (txval != '+') {
				if(cmdpos<99) {
					cmdbuf[cmdpos] = txval;
					cmdpos++;
				}
			}
		}
		else {// + character
			// 1000 ticks have passed, can check for pause command
			if (cmdpause > 1000) {
				if(txval ==reg[MREG_ESCAPE_CHAR]) // +
				{
					plusinc++;
					if(plusinc>=3) {
						LOG_MSG("Modem: Entering command mode(escape sequence)");
						commandmode = true;
						SendRes(ResOK);
						plusinc = 0;
					}
					sendbyte=false;
				} else {
					plusinc=0;
				}
	// If not a special pause command, should go for bigger blocks to send 
			}
			tmpbuf[txbuffersize] = txval;
			txbuffersize++;
		}
	} // while loop
	
	if (clientsocket && sendbyte && txbuffersize) {
		// down here it saves a lot of network traffic
		clientsocket->SendArray(tmpbuf,txbuffersize);
		//TODO error testing
	}
	// Handle incoming to the serial port
	if(!commandmode && clientsocket && rqueue->left()) {
		usesize = rqueue->left();
		if (usesize>16) usesize=16;
		if(!clientsocket->ReceiveArray(tmpbuf, &usesize)) {
			SendRes(ResNOCARRIER);
			EnterIdleState();
		} else if(usesize) {
			// LOG_MSG("rcv:%d", result);
			// Filter telnet commands 
			if(telnetmode) TelnetEmulation(tmpbuf, usesize);
			else rqueue->adds(tmpbuf,usesize);
			cmdpause = 0;
		} 
	}
	// Check for incoming calls
	if (!connected && !waitingclientsocket && serversocket) {
		waitingclientsocket=serversocket->Accept();
		if(waitingclientsocket) {	
			if(!CSerial::getDTR()) {
				// accept no calls with DTR off; TODO: AT &Dn
				EnterIdleState();
			} else {
				ringing=true;
				SendRes(ResRING);
				CSerial::setRI(!CSerial::getRI());
				//MIXER_Enable(mhd.chan,true);
				ringtimer = 3000;
				reg[1] = 0;		//Reset ring counter reg
			}
		}
	}
	if (ringing) {
		if (ringtimer <= 0) {
			reg[1]++;
			if ((reg[0]>0) && (reg[0]>=reg[1])) {
				AcceptIncomingCall();
				return;
			}
			SendRes(ResRING);
			CSerial::setRI(!CSerial::getRI());

			//MIXER_Enable(mhd.chan,true);
			ringtimer = 3000;
		}
		--ringtimer;
	}
}


//TODO
void CSerialModem::RXBufferEmpty() {
	// see if rqueue has some more bytes
	if(rqueue->inuse() && (CSerial::getRTS()||(flowcontrol!=3))){
		Bit8u rbyte = rqueue->getb();
		//LOG_MSG("Modem: sending byte %2x back to UART1",rbyte);
		CSerial::receiveByte(rbyte);
	}
}

void CSerialModem::transmitByte(Bit8u val, bool first) {
	waiting_tx_character=val;
	setEvent(MODEM_TX_EVENT, bytetime); // TX event
	if(first) ByteTransmitting();
	//LOG_MSG("MODEM: Byte %x to be transmitted",val);
}

void CSerialModem::updatePortConfig(Bit16u, Bit8u lcr) { 
// nothing to do here right?
}

void CSerialModem::updateMSR() {
	// think it is not needed
}

void CSerialModem::setBreak(bool) {
	// TODO: handle this
}

void CSerialModem::setRTSDTR(bool rts, bool dtr) {
	setDTR(dtr);
}
void CSerialModem::setRTS(bool val) {
	
}
void CSerialModem::setDTR(bool val) {
	if(!val && connected) {
		// If DTR goes low, hang up.
		SendRes(ResNOCARRIER);
		EnterIdleState();
		LOG_MSG("Modem: Hang up due to dropped DTR.");
	}	
}
/*
void CSerialModem::updateModemControlLines() {
	//bool txrdy=tqueue->left();
	//if(CSerial::getRTS() && txrdy) CSerial::setCTS(true);
	//else CSerial::setCTS(tqueue->left());
	
	// If DTR goes low, hang up.
	if(connected)
		if(oldDTRstate)
			if(!getDTR()) {
				SendRes(ResNOCARRIER);
				EnterIdleState();
				LOG_MSG("Modem: Hang up due to dropped DTR.");
			}

	oldDTRstate = getDTR();
}
*/

#endif

