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[/] [eco32/] [trunk/] [sim/] [memory.c] - Blame information for rev 130

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Line No. Rev Author Line
1 8 hellwig
/*
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 * memory.c -- physical memory simulation
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 */
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <setjmp.h>
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#include "common.h"
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#include "console.h"
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#include "error.h"
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#include "except.h"
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#include "cpu.h"
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#include "memory.h"
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#include "timer.h"
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#include "dspkbd.h"
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#include "term.h"
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#include "disk.h"
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#include "output.h"
22 25 hellwig
#include "shutdown.h"
23 8 hellwig
#include "graph.h"
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static Byte *rom;
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static Byte *mem;
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static unsigned int memSize;
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static FILE *romImage;
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static unsigned int romSize;
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static FILE *progImage;
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static unsigned int progSize;
33 91 hellwig
static unsigned int progAddr;
34 8 hellwig
 
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Word memoryReadWord(Word pAddr) {
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  Word data;
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  if (pAddr <= memSize - 4) {
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    data = ((Word) *(mem + pAddr + 0)) << 24 |
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           ((Word) *(mem + pAddr + 1)) << 16 |
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           ((Word) *(mem + pAddr + 2)) <<  8 |
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           ((Word) *(mem + pAddr + 3)) <<  0;
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    return data;
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  }
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  if (pAddr >= ROM_BASE &&
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      pAddr <= ROM_BASE + ROM_SIZE - 4) {
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    data = ((Word) *(rom + (pAddr - ROM_BASE) + 0)) << 24 |
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           ((Word) *(rom + (pAddr - ROM_BASE) + 1)) << 16 |
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           ((Word) *(rom + (pAddr - ROM_BASE) + 2)) <<  8 |
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           ((Word) *(rom + (pAddr - ROM_BASE) + 3)) <<  0;
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    return data;
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  }
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  if ((pAddr & IO_DEV_MASK) == TIMER_BASE) {
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    data = timerRead(pAddr & IO_REG_MASK);
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    return data;
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  }
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  if ((pAddr & IO_DEV_MASK) == DISPLAY_BASE) {
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    data = displayRead(pAddr & IO_REG_MASK);
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    return data;
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  }
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  if ((pAddr & IO_DEV_MASK) == KEYBOARD_BASE) {
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    data = keyboardRead(pAddr & IO_REG_MASK);
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    return data;
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  }
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  if ((pAddr & IO_DEV_MASK) == TERM_BASE) {
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    data = termRead(pAddr & IO_REG_MASK);
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    return data;
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  }
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  if ((pAddr & IO_DEV_MASK) == DISK_BASE) {
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    data = diskRead(pAddr & IO_REG_MASK);
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    return data;
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  }
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  if ((pAddr & IO_DEV_MASK) == OUTPUT_BASE) {
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    data = outputRead(pAddr & IO_REG_MASK);
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    return data;
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  }
78 25 hellwig
  if ((pAddr & IO_DEV_MASK) == SHUTDOWN_BASE) {
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    data = shutdownRead(pAddr & IO_REG_MASK);
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    return data;
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  }
82 8 hellwig
  if ((pAddr & IO_DEV_MASK) >= GRAPH_BASE) {
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    data = graphRead(pAddr & IO_GRAPH_MASK);
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    return data;
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  }
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  /* throw bus timeout exception */
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  throwException(EXC_BUS_TIMEOUT);
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  /* not reached */
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  data = 0;
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  return data;
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}
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Half memoryReadHalf(Word pAddr) {
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  Half data;
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  if (pAddr <= memSize - 2) {
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    data = ((Half) *(mem + pAddr + 0)) << 8 |
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           ((Half) *(mem + pAddr + 1)) << 0;
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    return data;
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  }
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  if (pAddr >= ROM_BASE &&
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      pAddr <= ROM_BASE + ROM_SIZE - 2) {
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    data = ((Half) *(rom + (pAddr - ROM_BASE) + 0)) << 8 |
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           ((Half) *(rom + (pAddr - ROM_BASE) + 1)) << 0;
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    return data;
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  }
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  /* throw bus timeout exception */
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  throwException(EXC_BUS_TIMEOUT);
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  /* not reached */
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  data = 0;
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  return data;
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}
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115
 
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Byte memoryReadByte(Word pAddr) {
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  Byte data;
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  if (pAddr <= memSize - 1) {
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    data = ((Byte) *(mem + pAddr + 0)) << 0;
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    return data;
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  }
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  if (pAddr >= ROM_BASE &&
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      pAddr <= ROM_BASE + ROM_SIZE - 1) {
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    data = ((Byte) *(rom + (pAddr - ROM_BASE) + 0)) << 0;
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    return data;
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  }
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  /* throw bus timeout exception */
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  throwException(EXC_BUS_TIMEOUT);
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  /* not reached */
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  data = 0;
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  return data;
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}
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void memoryWriteWord(Word pAddr, Word data) {
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  if (pAddr <= memSize - 4) {
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    *(mem + pAddr + 0) = (Byte) (data >> 24);
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    *(mem + pAddr + 1) = (Byte) (data >> 16);
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    *(mem + pAddr + 2) = (Byte) (data >>  8);
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    *(mem + pAddr + 3) = (Byte) (data >>  0);
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    return;
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  }
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  if ((pAddr & IO_DEV_MASK) == TIMER_BASE) {
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    timerWrite(pAddr & IO_REG_MASK, data);
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    return;
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  }
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  if ((pAddr & IO_DEV_MASK) == DISPLAY_BASE) {
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    displayWrite(pAddr & IO_REG_MASK, data);
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    return;
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  }
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  if ((pAddr & IO_DEV_MASK) == KEYBOARD_BASE) {
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    keyboardWrite(pAddr & IO_REG_MASK, data);
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    return;
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  }
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  if ((pAddr & IO_DEV_MASK) == TERM_BASE) {
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    termWrite(pAddr & IO_REG_MASK, data);
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    return;
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  }
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  if ((pAddr & IO_DEV_MASK) == DISK_BASE) {
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    diskWrite(pAddr & IO_REG_MASK, data);
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    return;
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  }
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  if ((pAddr & IO_DEV_MASK) == OUTPUT_BASE) {
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    outputWrite(pAddr & IO_REG_MASK, data);
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    return;
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  }
168 25 hellwig
  if ((pAddr & IO_DEV_MASK) == SHUTDOWN_BASE) {
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    shutdownWrite(pAddr & IO_REG_MASK, data);
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    return;
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  }
172 8 hellwig
  if ((pAddr & IO_DEV_MASK) >= GRAPH_BASE) {
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    graphWrite(pAddr & IO_GRAPH_MASK, data);
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    return;
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  }
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  /* throw bus timeout exception */
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  throwException(EXC_BUS_TIMEOUT);
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}
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180
 
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void memoryWriteHalf(Word pAddr, Half data) {
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  if (pAddr <= memSize - 2) {
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    *(mem + pAddr + 0) = (Byte) (data >> 8);
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    *(mem + pAddr + 1) = (Byte) (data >> 0);
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    return;
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  }
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  /* throw bus timeout exception */
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  throwException(EXC_BUS_TIMEOUT);
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}
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void memoryWriteByte(Word pAddr, Byte data) {
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  if (pAddr <= memSize - 1) {
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    *(mem + pAddr + 0) = (Byte) (data >> 0);
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    return;
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  }
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  /* throw bus timeout exception */
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  throwException(EXC_BUS_TIMEOUT);
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}
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void memoryReset(void) {
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  unsigned int i;
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  cPrintf("Resetting Memory...\n");
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  for (i = 0; i < memSize; i++) {
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    mem[i] = rand();
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  }
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  cPrintf("%6d MB RAM installed", memSize / M);
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  if (progImage != NULL) {
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    fseek(progImage, 0, SEEK_SET);
212 91 hellwig
    if (fread(mem + progAddr, progSize, 1, progImage) != 1) {
213 8 hellwig
      error("cannot read program image file");
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    }
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    cPrintf(", %d bytes loaded", progSize);
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  }
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  cPrintf(".\n");
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  for (i = 0; i < ROM_SIZE; i++) {
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    rom[i] = 0xFF;
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  }
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  if (romImage != NULL) {
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    fseek(romImage, 0, SEEK_SET);
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    if (fread(rom, romSize, 1, romImage) != 1) {
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      error("cannot read ROM image file");
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    }
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    cPrintf("%6d KB ROM installed, %d bytes programmed.\n",
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            ROM_SIZE / K, romSize);
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  }
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}
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void memoryInit(unsigned int memorySize,
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                char *progImageName,
234 91 hellwig
                unsigned int loadAddr,
235 8 hellwig
                char *romImageName) {
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  /* allocate RAM */
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  memSize = memorySize;
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  mem = malloc(memSize);
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  if (mem == NULL) {
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    error("cannot allocate RAM");
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  }
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  /* possibly load program image */
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  if (progImageName == NULL) {
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    /* no program to load */
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    progImage = NULL;
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  } else {
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    /* load program */
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    progImage = fopen(progImageName, "rb");
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    if (progImage == NULL) {
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      error("cannot open program file '%s'", progImageName);
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    }
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    fseek(progImage, 0, SEEK_END);
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    progSize = ftell(progImage);
254 91 hellwig
    progAddr = loadAddr;
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    if (progAddr + progSize > memSize) {
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      error("program file or load address too big");
257 8 hellwig
    }
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    /* do actual loading of image in memoryReset() */
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  }
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  /* allocate ROM */
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  rom = malloc(ROM_SIZE);
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  if (rom == NULL) {
263
    error("cannot allocate ROM");
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  }
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  /* possibly load ROM image */
266
  if (romImageName == NULL) {
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    /* no ROM to plug in */
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    romImage = NULL;
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  } else {
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    /* plug in ROM */
271
    romImage = fopen(romImageName, "rb");
272
    if (romImage == NULL) {
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      error("cannot open ROM image '%s'", romImageName);
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    }
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    fseek(romImage, 0, SEEK_END);
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    romSize = ftell(romImage);
277
    if (romSize > ROM_SIZE) {
278
      error("ROM image too big");
279
    }
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    /* do actual loading of image in memoryReset() */
281
  }
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  memoryReset();
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}
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void memoryExit(void) {
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  free(mem);
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  free(rom);
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}

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