#include <cstdlib>

 #include <cstdio>

 #include <cstring>

 

 #ifndef WIN32

 # include <unistd.h>

 # include <sys/socket.h>

 # include <netdb.h>

 # ifdef HAVE_NETINET_IN_H

 #  include <netinet/in.h>

 # endif // HAVE_NETINET_IN_H

 # ifdef HAVE_ARPA_INET_H

 #  include <arpa/inet.h>

 # else // ! HAVE_ARPA_INET_H

 #  define socklen_t int

 # endif // ! HAVE_ARPA_INET_H

 #else // WIN32

 # include "../win32/stdafx.h"

 # include <winsock.h>

 # include <io.h>

 # define socklen_t int

 # define close closesocket

 # define read _read

 # define write _write

 #endif // WIN32

 

 #include "GBA.h"

 #include "GBAGlobals.h"

 

 extern bool debugger;

 extern void CPUUpdateCPSR();

 #ifdef SDL

 extern void (*dbgMain)();

 extern void (*dbgSignal)(int, int);

 extern void debuggerMain();

 extern void debuggerSignal(int, int);

 #endif

 

 int  remotePort         = 55555;

 int  remoteSignal       = 5;

 int  remoteSocket       = -1;

 int  remoteListenSocket = -1;

 bool remoteConnected    = false;

 bool remoteResumed      = false;

 

 int  (*remoteSendFnc)(char *, int) = NULL;

 int  (*remoteRecvFnc)(char *, int) = NULL;

 bool (*remoteInitFnc)()    = NULL;

 void (*remoteCleanUpFnc)() = NULL;

 

 #if (defined WIN32 && !defined SDL)

 void remoteSetSockets(SOCKET l, SOCKET r)

 {

   remoteSocket       = r;

   remoteListenSocket = l;

 }

 

 #endif

 

 int remoteTcpSend(char *data, int len)

 {

   return send(remoteSocket, data, len, 0);

 }

 

 int remoteTcpRecv(char *data, int len)

 {

   return recv(remoteSocket, data, len, 0);

 }

 

 bool remoteTcpInit()

 {

   if (remoteSocket == -1)

     {

 #ifdef WIN32

       WSADATA wsaData;

       int     error = WSAStartup(MAKEWORD(1, 1), &wsaData);

 #endif // WIN32

       int s = socket(PF_INET, SOCK_STREAM, 0);

 

       remoteListenSocket = s;

 

       if (s < 0)

 	{

 	  fprintf(stderr, "Error opening socket\n");

 	  exit(-1);

 	}

       int tmp = 1;

       setsockopt(s, SOL_SOCKET, SO_REUSEADDR, (char *) &tmp, sizeof(tmp));

 

       //    char hostname[256];

       //    gethostname(hostname, 256);

 

       //    hostent *ent = gethostbyname(hostname);

       //    unsigned long a = *((unsigned long *)ent->h_addr);

 

       sockaddr_in addr;

       addr.sin_family      = AF_INET;

       addr.sin_port        = htons(remotePort);

       addr.sin_addr.s_addr = htonl(0);

       int count = 0;

       while (count < 3)

 	{

 	  if (bind(s, (sockaddr *)&addr, sizeof(addr)))

 	    {

 	      addr.sin_port = htons(ntohs(addr.sin_port)+1);

 	    }

 	  else

 	    break;

 	}

       if (count == 3)

 	{

 	  fprintf(stderr, "Error binding \n");

 	  exit(-1);

 	}

 

       fprintf(stderr, "Listening for a connection at port %d\n",

 	      ntohs(addr.sin_port));

 

       if (listen(s, 1))

 	{

 	  fprintf(stderr, "Error listening\n");

 	  exit(-1);

 	}

 

 

 #ifdef WIN32

       int flag = 0;

       ioctlsocket(s, FIONBIO, (unsigned long *)&flag);

 #endif // WIN32

 

       socklen_t len = sizeof(addr);

 

       int s2 = accept(s, (sockaddr *)&addr, &len);

       if (s2 > 0)

 	{

 	  fprintf(stderr, "Got a connection from %s %d\n",

 		  inet_ntoa((in_addr)addr.sin_addr),

 		  ntohs(addr.sin_port));

 	}

       else

 	{

 #ifdef WIN32

 	  int error = WSAGetLastError();

 #endif // WIN32

 	}

       char dummy;

       recv(s2, &dummy, 1, 0);

       if (dummy != '+')

 	{

 	  fprintf(stderr, "ACK not received\n");

 	  exit(-1);

 	}

       remoteSocket = s2;

       //    close(s);

     }

   return true;

 }

 

 void remoteTcpCleanUp()

 {

   if (remoteSocket > 0)

     {

       fprintf(stderr, "Closing remote socket\n");

       close(remoteSocket);

       remoteSocket = -1;

     }

   if (remoteListenSocket > 0)

     {

       fprintf(stderr, "Closing listen socket\n");

       close(remoteListenSocket);

       remoteListenSocket = -1;

     }

 }

 

 int remotePipeSend(char *data, int len)

 {

   int res = write(1, data, len);

   return res;

 }

 

 int remotePipeRecv(char *data, int len)

 {

   int res = read(0, data, len);

   return res;

 }

 

 bool remotePipeInit()

 {

   char dummy;

   read(0, &dummy, 1);

   if (dummy != '+')

     {

       fprintf(stderr, "ACK not received\n");

       exit(-1);

     }

 

   return true;

 }

 

 void remotePipeCleanUp()

 {}

 

 void remoteSetPort(int port)

 {

   remotePort = port;

 }

 

 void remoteSetProtocol(int p)

 {

   if (p == 0)

     {

       remoteSendFnc    = remoteTcpSend;

       remoteRecvFnc    = remoteTcpRecv;

       remoteInitFnc    = remoteTcpInit;

       remoteCleanUpFnc = remoteTcpCleanUp;

     }

   else

     {

       remoteSendFnc    = remotePipeSend;

       remoteRecvFnc    = remotePipeRecv;

       remoteInitFnc    = remotePipeInit;

       remoteCleanUpFnc = remotePipeCleanUp;

     }

 }

 

 void remoteInit()

 {

   if (remoteInitFnc)

     remoteInitFnc();

 }

 

 void remotePutPacket(char *packet)

 {

   char *hex = "0123456789abcdef";

   char  buffer[1024];

 

   int count = strlen(packet);

 

   unsigned char csum = 0;

 

   char *p = buffer;

   *p++ = '$';

 

   for (int i = 0; i < count; i++)

     {

       csum += packet[i];

       *p++  = packet[i];

     }

   *p++ = '#';

   *p++ = hex[csum>>4];

   *p++ = hex[csum & 15];

   *p++ = 0;

   //  printf("Sending %s\n", buffer);

   remoteSendFnc(buffer, count + 4);

 

   char c = 0;

   remoteRecvFnc(&c, 1);

   /*

     if(c == '+')

     printf("ACK\n");

     else if(c=='-')

     printf("NACK\n");

   */

 }

 

 void remoteOutput(char *s, u32 addr)

 {

   char buffer[16384];

 

   char *d = buffer;

   *d++ = 'O';

 

   if (s)

     {

       char c = *s++;

       while (c)

 	{

 	  sprintf(d, "%02x", c);

 	  d += 2;

 	  c  = *s++;

 	}

     }

   else

     {

       char c = debuggerReadByte(addr);

       addr++;

       while (c)

 	{

 	  sprintf(d, "%02x", c);

 	  d += 2;

 	  c  = debuggerReadByte(addr);

 	  addr++;

 	}

     }

   remotePutPacket(buffer);

   //  fprintf(stderr, "Output sent %s\n", buffer);

 }

 

 void remoteSendSignal()

 {

   char buffer[1024];

   sprintf(buffer, "S%02x", remoteSignal);

   remotePutPacket(buffer);

 }

 

 void remoteSendStatus()

 {

   char buffer[1024];

   sprintf(buffer, "T%02x", remoteSignal);

   char *s = buffer;

   s += 3;

   for (int i = 0; i < 15; i++)

     {

       u32 v = reg[i].I;

       sprintf(s, "%02x:%02x%02x%02x%02x;", i,

 	      (v & 255),

 	      (v >> 8) & 255,

 	      (v >> 16) & 255,

 	      (v >> 24) & 255);

       s += 12;

     }

   u32 v = armNextPC;

   sprintf(s, "0f:%02x%02x%02x%02x;", (v & 255),

 	  (v >> 8) & 255,

 	  (v >> 16) & 255,

 	  (v >> 24) & 255);

   s += 12;

   CPUUpdateCPSR();

   v = reg[16].I;

   sprintf(s, "19:%02x%02x%02x%02x;", (v & 255),

 	  (v >> 8) & 255,

 	  (v >> 16) & 255,

 	  (v >> 24) & 255);

   s += 12;

   *s = 0;

   //  printf("Sending %s\n", buffer);

   remotePutPacket(buffer);

 }

 

 void remoteBinaryWrite(char *p)

 {

   u32 address;

   int count;

   sscanf(p, "%x,%x:", &address, &count);

   //  printf("Binary write for %08x %d\n", address, count);

 

   p = strchr(p, ':');

   p++;

   for (int i = 0; i < count; i++)

     {

       u8 b = *p++;

       switch (b)

 	{

 	case 0x7d:

 	  b = *p++;

 	  debuggerWriteByte(address, (b^0x20));

 	  address++;

 	  break;

 	default:

 	  debuggerWriteByte(address, b);

 	  address++;

 	  break;

 	}

     }

   //  printf("ROM is %08x\n", debuggerReadMemory(0x8000254));

   remotePutPacket("OK");

 }

 

 void remoteMemoryWrite(char *p)

 {

   u32 address;

   int count;

   sscanf(p, "%x,%x:", &address, &count);

   //  printf("Memory write for %08x %d\n", address, count);

 

   p = strchr(p, ':');

   p++;

   for (int i = 0; i < count; i++)

     {

       u8   v = 0;

       char c = *p++;

       if (c <= '9')

 	v = (c - '0') << 4;

       else

 	v = (c + 10 - 'a') << 4;

       c = *p++;

       if (c <= '9')

 	v += (c - '0');

       else

 	v += (c + 10 - 'a');

       debuggerWriteByte(address, v);

       address++;

     }

   //  printf("ROM is %08x\n", debuggerReadMemory(0x8000254));

   remotePutPacket("OK");

 }

 

 void remoteMemoryRead(char *p)

 {

   u32 address;

   int count;

   sscanf(p, "%x,%x:", &address, &count);

   //  printf("Memory read for %08x %d\n", address, count);

 

   char buffer[1024];

 

   char *s = buffer;

   for (int i = 0; i < count; i++)

     {

       u8 b = debuggerReadByte(address);

       sprintf(s, "%02x", b);

       address++;

       s += 2;

     }

   *s = 0;

   remotePutPacket(buffer);

 }

 

 void remoteStepOverRange(char *p)

 {

   u32 address;

   u32 final;

   sscanf(p, "%x,%x", &address, &final);

 

   remotePutPacket("OK");

 

   remoteResumed = true;

   do

     {

       CPULoop(1);

       if (debugger)

 	break;

     }

   while (armNextPC >= address && armNextPC < final);

 

   remoteResumed = false;

 

   remoteSendStatus();

 }

 

 void remoteWriteWatch(char *p, bool active)

 {

   u32 address;

   int count;

   sscanf(p, ",%x,%x#", &address, &count);

 

   fprintf(stderr, "Write watch for %08x %d\n", address, count);

 

   if (address < 0x2000000 || address > 0x3007fff)

     {

       remotePutPacket("E01");

       return;

     }

 

   if (address > 0x203ffff && address < 0x3000000)

     {

       remotePutPacket("E01");

       return;

     }

 

   u32 final = address + count;

 

   if (address < 0x2040000 && final > 0x2040000)

     {

       remotePutPacket("E01");

       return;

     }

   else if (address < 0x3008000 && final > 0x3008000)

     {

       remotePutPacket("E01");

       return;

     }

 

   for (int i = 0; i < count; i++)

     {

       if ((address >> 24) == 2)

 	freezeWorkRAM[address & 0x3ffff] = active;

       else

 	freezeInternalRAM[address & 0x7fff] = active;

       address++;

     }

 

   remotePutPacket("OK");

 }

 

 void remoteReadRegisters(char *p)

 {

   char buffer[1024];

 

   char *s = buffer;

   int   i;

   // regular registers

   for (i = 0; i < 15; i++)

     {

       u32 v = reg[i].I;

       sprintf(s, "%02x%02x%02x%02x",  v & 255, (v >> 8) & 255,

 	      (v >> 16) & 255, (v >> 24) & 255);

       s += 8;

     }

   // PC

   u32 pc = armNextPC;

   sprintf(s, "%02x%02x%02x%02x", pc & 255, (pc >> 8) & 255,

 	  (pc >> 16) & 255, (pc >> 24) & 255);

   s += 8;

 

   // floating point registers (24-bit)

   for (i = 0; i < 8; i++)

     {

       sprintf(s, "000000000000000000000000");

       s += 24;

     }

 

   // FP status register

   sprintf(s, "00000000");

   s += 8;

   // CPSR

   CPUUpdateCPSR();

   u32 v = reg[16].I;

   sprintf(s, "%02x%02x%02x%02x",  v & 255, (v >> 8) & 255,

 	  (v >> 16) & 255, (v >> 24) & 255);

   s += 8;

   *s = 0;

   remotePutPacket(buffer);

 }

 

 void remoteWriteRegister(char *p)

 {

   int r;

 

   sscanf(p, "%x=", &r);

 

   p = strchr(p, '=');

   p++;

 

   char c = *p++;

 

   u32 v = 0;

 

   u8 data[4] = {0, 0, 0, 0};

 

   int i = 0;

 

   while (c != '#')

     {

       u8 b = 0;

       if (c <= '9')

 	b = (c - '0') << 4;

       else

 	b = (c + 10 - 'a') << 4;

       c = *p++;

       if (c <= '9')

 	b += (c - '0');

       else

 	b += (c + 10 - 'a');

       data[i++] = b;

       c         = *p++;

     }

 

   v = data[0] | (data[1] << 8) | (data[2] << 16) | (data[3] << 24);

 

   //  printf("Write register %d=%08x\n", r, v);

   reg[r].I = v;

   if (r == 15)

     {

       armNextPC = v;

       if (armState)

 	reg[15].I = v + 4;

       else

 	reg[15].I = v + 2;

     }

   remotePutPacket("OK");

 }

 

 void remoteStubMain()

 {

   if (!debugger)

     return;

 

   if (remoteResumed)

     {

       remoteSendStatus();

       remoteResumed = false;

     }

 

   while (true)

     {

       char buffer[1024];

       int  res = remoteRecvFnc(buffer, 1024);

 

       if (res == -1)

 	{

 	  fprintf(stderr, "GDB connection lost\n");

 #ifdef SDL

 	  dbgMain   = debuggerMain;

 	  dbgSignal = debuggerSignal;

 #endif

 	  debugger = false;

 	  break;

 	}

 

       //    fprintf(stderr, "Received %s\n", buffer);

       char *p  = buffer;

       char  c  = *p++;

       char  pp = '+';

       remoteSendFnc(&pp, 1);

 

       if (c != '$')

 	continue;

       c = *p++;

       switch (c)

 	{

 	case '?':

 	  remoteSendSignal();

 	  break;

 	case 'D':

 	  remotePutPacket("OK");

 #ifdef SDL

 	  dbgMain   = debuggerMain;

 	  dbgSignal = debuggerSignal;

 #endif

 	  remoteResumed = true;

 	  debugger      = false;

 	  return;

 	case 'e':

 	  remoteStepOverRange(p);

 	  break;

 	case 'k':

 	  remotePutPacket("OK");

 #ifdef SDL

 	  dbgMain   = debuggerMain;

 	  dbgSignal = debuggerSignal;

 #endif

 	  debugger  = false;

 	  emulating = false;

 	  return;

 	case 'C':

 	  remoteResumed = true;

 	  debugger      = false;

 	  return;

 	case 'c':

 	  remoteResumed = true;

 	  debugger      = false;

 	  return;

 	case 's':

 	  remoteResumed = true;

 	  remoteSignal  = 5;

 	  CPULoop(1);

 	  if (remoteResumed)

 	    {

 	      remoteResumed = false;

 	      remoteSendStatus();

 	    }

 	  break;

 	case 'g':

 	  remoteReadRegisters(p);

 	  break;

 	case 'P':

 	  remoteWriteRegister(p);

 	  break;

 	case 'M':

 	  remoteMemoryWrite(p);

 	  break;

 	case 'm':

 	  remoteMemoryRead(p);

 	  break;

 	case 'X':

 	  remoteBinaryWrite(p);

 	  break;

 	case 'H':

 	  remotePutPacket("OK");

 	  break;

 	case 'q':

 	  remotePutPacket("");

 	  break;

 	case 'Z':

 	  if (*p++ == '2')

 	    {

 	      remoteWriteWatch(p, true);

 	    }

 	  else

 	    remotePutPacket("");

 	  break;

 	case 'z':

 	  if (*p++ == '2')

 	    {

 	      remoteWriteWatch(p, false);

 	    }

 	  else

 	    remotePutPacket("");

 	  break;

 	default:

 	  {

 	    *(strchr(p, '#') + 3) = 0;

 	    fprintf(stderr, "Unknown packet %s\n", --p);

 	    remotePutPacket("");

 	    break;

 	  }

 	}

     }

 }

 

 void remoteStubSignal(int sig, int number)

 {

   remoteSignal  = sig;

   remoteResumed = false;

   remoteSendStatus();

   debugger = true;

 }

 

 void remoteCleanUp()

 {

   if (remoteCleanUpFnc)

     remoteCleanUpFnc();

 }