Ejemplo n.º 1
0
void MemoryModuleInit() {
     int i;
     int curpage;
   
     dbprintf('m',"MemoryGetsize() is %d\n",MemoryGetSize());
     dbprintf('m',"MEM_PAGESIZE is %d\n",MEM_PAGESIZE);
     SetPara();
    //All memory is in use
     for (curpage=0;curpage<(MemoryGetSize()/(MEM_PAGESIZE));curpage++) {
//         printf("curpage is %d\n",curpage);
         MemorySetFreemap(curpage,0);
     }
         
     //all the other memory space is unused
     for (curpage = ((lastosaddress+(MEM_PAGESIZE))/(MEM_PAGESIZE));curpage <(MemoryGetSize()/(MEM_PAGESIZE)); curpage++)
      {
 //        printf("curpage is %d\n",curpage);
         MemorySetFreemap (curpage, 1);
      }

    //print for debug 
     for(i=0;i<16;i++){
     dbprintf('m',"freemap is 0x%x\n",freemap[i]);
     }
}
Ejemplo n.º 2
0
//----------------------------------------------------------------------
//
//	MemoryModuleInit
//
//	Initialize the memory module of the operating system.
//      Basically just need to setup the freemap for pages, and mark
//      the ones in use by the operating system as "VALID", and mark
//      all the rest as not in use.
//
//----------------------------------------------------------------------
void SetPara(){
     int i;
     pagestart = (lastosaddress+(MEM_PAGESIZE))/(MEM_PAGESIZE);
     freemapmax=((MemoryGetSize()/(MEM_PAGESIZE))+31)/32;
     nfreepage=(MemoryGetSize()/(MEM_PAGESIZE))-pagestart+1;  
     printf("nfreepage is %d\n",nfreepage); 
}
Ejemplo n.º 3
0
static int64 MemoryRead(Stream* stream, void* buffer, int64 size)
{
	MemoryStream* ms = (MemoryStream*) stream;
	if(size < 0) return -1;

	if( !ms->useRawBuffer )
	{
		int64 left = MemoryGetSize(stream) - ms->position;
		if(size > left) size = left;
	}

	uint8* cur = ms->buffer + ms->position;
	memcpy(buffer, cur, (size_t) size);

	ms->position += size;
	return size;
}
Ejemplo n.º 4
0
static int64 MemorySeek(Stream* stream, int64 offset, int8 mode)
{
	MemoryStream* ms = (MemoryStream*) stream;

	switch(mode)
	{
	case StreamSeekMode::Absolute:
		ms->position = offset;
		break;
	case StreamSeekMode::Relative:
		ms->position += offset;
		break;
	case StreamSeekMode::RelativeEnd:
		ms->position = MemoryGetSize(stream) - offset;
		break;
	}

	return true;
}
Ejemplo n.º 5
0
uint32 MemoryAllocPage(void) {
   int mapnum;
   int bitnum;
   int i;
   int page;
   uint32 v;

     dbprintf('m',"There are still %d free pages.\n",nfreepage);

   page=(lastosaddress+(MEM_PAGESIZE))/(MEM_PAGESIZE);
   mapnum=page/32;
   if (nfreepage == 0) {
      return MEM_FAIL;
   }

   dbprintf('m',"Allocating memory, starting with entry %d\n",mapnum);
   while (freemap[mapnum] == 0) {
     mapnum +=1;
     if (mapnum >= ((MemoryGetSize()/(MEM_PAGESIZE))+31)/32) {
        mapnum = page/32;
     }
    }
    v=freemap[mapnum];
    for (bitnum = 0; (v & (1 << bitnum)) == 0; bitnum++) {
    }
    freemap[mapnum] &= invert(1 << bitnum);
    v = (mapnum *32)+bitnum;
    dbprintf('m',"Allocated memory, from map %d, page 0x%x, map=0x%x.\n",mapnum,v,freemap[mapnum]);
    nfreepage--;
  
  //   for(i=0;i<16;i++){
  //   printf("freemap is 0x%x\n",freemap[i]);
 //    }
  
    return (v);
}
Ejemplo n.º 6
0
//----------------------------------------------------------------------
//
//	main
//
//	This routine is called when the OS starts up.  It allocates a
//	PCB for the first process - the one corresponding to the initial
//	thread of execution.  Note that the stack pointer is already
//	set correctly by _osinit (assembly language code) to point
//	to the stack for the 0th process.  This stack isn't very big,
//	though, so it should be replaced by the system stack of the
//	currently running process.
//
//----------------------------------------------------------------------
void main (int argc, char *argv[])
{
  int		i,j;
  int		n;
  char	buf[120];
  char		*userprog = (char *)0;
  int base=0;
  int numargs=0;
  char allargs[SIZE_ARG_BUFF];
  int allargs_offset = 0;
  
  debugstr[0] = '\0';

  printf ("Got %d arguments.\n", argc);
  printf ("Available memory: 0x%x -> 0x%x.\n", (int)lastosaddress, MemoryGetSize ());
  printf ("Argument count is %d.\n", argc);
  for (i = 0; i < argc; i++) {
    printf ("Argument %d is %s.\n", i, argv[i]);
  }

  FsModuleInit ();
  for (i = 0; i < argc; i++) 
  {
    if (argv[i][0] == '-') 
    {
      switch (argv[i][1]) 
      {
      case 'D':
	dstrcpy (debugstr, argv[++i]);
	break;
      case 'i':
	n = dstrtol (argv[++i], (void *)0, 0);
	ditoa (n, buf);
	printf ("Converted %s to %d=%s\n", argv[i], n, buf);
	break;
      case 'f':
      {
	int	start, codeS, codeL, dataS, dataL, fd, j;
	int	addr = 0;
	static unsigned char buf[200];
	fd = ProcessGetCodeInfo (argv[++i], &start, &codeS, &codeL, &dataS,
				 &dataL);
	printf ("File %s -> start=0x%08x\n", argv[i], start);
	printf ("File %s -> code @ 0x%08x (size=0x%08x)\n", argv[i], codeS,
		codeL);
	printf ("File %s -> data @ 0x%08x (size=0x%08x)\n", argv[i], dataS,
		dataL);
	while ((n = ProcessGetFromFile (fd, buf, &addr, sizeof (buf))) > 0) 
	{
	  for (j = 0; j < n; j += 4) 
	  {
	    printf ("%08x: %02x%02x%02x%02x\n", addr + j - n, buf[j], buf[j+1],
		    buf[j+2], buf[j+3]);
	  }
	}
	close (fd);
	break;
      }
      case 'u':
	userprog = argv[++i];
        base = i; // Save the location of the user program's name 
	break;
      default:
	printf ("Option %s not recognized.\n", argv[i]);
	break;
      }
      if(userprog)
        break;
    }
  }
  dbprintf ('i', "About to initialize queues.\n");
  AQueueModuleInit ();
  dbprintf ('i', "After initializing queues.\n");
  MemoryModuleInit ();
  dbprintf ('i', "After initializing memory.\n");

  ProcessModuleInit ();
  dbprintf ('i', "After initializing processes.\n");
  SynchModuleInit ();
  dbprintf ('i', "After initializing synchronization tools.\n");
  KbdModuleInit ();
  dbprintf ('i', "After initializing keyboard.\n");
  ClkModuleInit ();
  dbprintf ('i', "After initializing clock.\n");
  for (i = 0; i < 100; i++) {
    buf[i] = 'a';
  }
  i = FsOpen ("vm", FS_MODE_WRITE);
  dbprintf ('i', "VM Descriptor is %d\n", i);
  FsSeek (i, 0, FS_SEEK_SET);
  FsWrite (i, buf, 80);
  FsClose (i);

  // Setup command line arguments
  if (userprog != (char *)0) {
    numargs=0;
    allargs_offset = 0;
    // Move through each of the argv addresses
    for(i=0; i<argc-base; i++) {
      // At each argv address, copy the string into allargs, including the '\0'
      for(j=0; allargs_offset < SIZE_ARG_BUFF; j++) {
        allargs[allargs_offset++] = argv[i+base][j];
        if (argv[i+base][j] == '\0') break; // end of this string
      }
      numargs++;
    }
    allargs[SIZE_ARG_BUFF-1] = '\0'; // set last char to NULL for safety
    ProcessFork(0, (uint32)allargs, userprog, 1);
  } else {
    dbprintf('i', "No user program passed!\n");
  }
  ClkStart();
  dbprintf ('i', "Set timer quantum to %d, about to run first process.\n",
	    processQuantum);
  intrreturn ();
  // Should never be called because the scheduler exits when there
  // are no runnable processes left.
  exitsim();	// NEVER RETURNS!
}
Ejemplo n.º 7
0
//----------------------------------------------------------------------
//
//	main
//
//	This routine is called when the OS starts up.  It allocates a
//	PCB for the first process - the one corresponding to the initial
//	thread of execution.  Note that the stack pointer is already
//	set correctly by _osinit (assembly language code) to point
//	to the stack for the 0th process.  This stack isn't very big,
//	though, so it should be replaced by the system stack of the
//	currently running process.
//
//----------------------------------------------------------------------
main (int argc, char *argv[])
{
  int		i, j;
  int		n;
  char	buf[120];
  char		*userprog = (char *)0;
  static PCB	temppcb;
  uint32	addr;
  extern void	SysprocCreateProcesses ();
  char *param[12]={NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL,
  	 	   NULL, NULL, NULL, NULL};
  int base;

  debugstr[0] = '\0';
  MyFuncRetZero();
  printf ("Got %d arguments.\n", argc);
  printf ("Available memory: 0x%x -> 0x%x.\n", lastosaddress,
	  MemoryGetSize ());
  printf ("Argument count is %d.\n", argc);
  for (i = 0; i < argc; i++) {
    printf ("Argument %d is %s.\n", i, argv[i]);
  }
//  *((int *)0xfff00100) = 't';
  FsModuleInit ();
  for (i = 0; i < argc; i++)
  {
    if (argv[i][0] == '-')
    {
      switch (argv[i][1])
      {
      case 'D':
	dstrcpy (debugstr, argv[++i]);
	break;
      case 'i':
	n = dstrtol (argv[++i], (void *)0, 0);
	ditoa (n, buf);
	printf ("Converted %s to %d=%s\n", argv[i], n, buf);
	break;
      case 'f':
      {
	int	start, codeS, codeL, dataS, dataL, fd, j;
	int	addr = 0;
	static unsigned char buf[200];
	fd = ProcessGetCodeInfo (argv[++i], &start, &codeS, &codeL, &dataS,
				 &dataL);
	printf ("File %s -> start=0x%08x\n", argv[i], start);
	printf ("File %s -> code @ 0x%08x (size=0x%08x)\n", argv[i], codeS,
		codeL);
	printf ("File %s -> data @ 0x%08x (size=0x%08x)\n", argv[i], dataS,
		dataL);
	while ((n = ProcessGetFromFile (fd, buf, &addr, sizeof (buf))) > 0)
	{
	  for (j = 0; j < n; j += 4)
	  {
	    printf ("%08x: %02x%02x%02x%02x\n", addr + j - n, buf[j], buf[j+1],
		    buf[j+2], buf[j+3]);
	  }
	}
	close (fd);
	break;
      }
      case 'u':
	userprog = argv[++i];
        base = i;
	break;
      default:
	printf ("Option %s not recognized.\n", argv[i]);
	break;
      }
      if(userprog)
        break;
    }
  }
  dbprintf ('i', "About to initialize queues.\n");
  QueueModuleInit ();
  dbprintf ('i', "After initializing queues.\n");
  MemoryModuleInit ();
  dbprintf ('i', "After initializing memory.\n");

  ProcessModuleInit ();
  dbprintf ('i', "After initializing processes.\n");
  ShareModuleInit ();
  dbprintf ('i', "After initializing shared memory.\n");
  SynchModuleInit ();
  dbprintf ('i', "After initializing synchronization tools.\n");
  KbdModuleInit ();
  dbprintf ('i', "After initializing keyboard.\n");
  for (i = 0; i < 100; i++) {
    buf[i] = 'a';
  }
  i = FsOpen ("vm", FS_MODE_WRITE);
  dbprintf ('i', "VM Descriptor is %d\n", i);
  FsSeek (i, 0, FS_SEEK_SET);
  FsWrite (i, buf, 80);
  FsClose (i);
  if (userprog != (char *)0) {
      for(i=base;i<argc&&i-base<11; i++)
      {
        param[i-base] = argv[i];
      }
      process_create(0,0,param[0], param[1], param[2], param[3], param[4],
      		     param[5], param[6], param[7], param[8], param[9],
		     param[10], param[11]);
//    ProcessFork (0, (uint32)"Help Me man!", userprog, 1);
  }
  SysprocCreateProcesses ();
  dbprintf ('i', "Created processes - about to set timer quantum.\n");
  TimerSet (processQuantum);
  dbprintf ('i', "Set timer quantum to %d, about to run first process.\n",
	    processQuantum);
  intrreturn ();
  // Should never be called because the scheduler exits when there
  // are no runnable processes left.
  exitsim();	// NEVER RETURNS!
}