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[/] [eco32/] [trunk/] [sim/] [cpu.c] - Diff between revs 8 and 25

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/*
 
/*
 
 * cpu.c -- CPU simulation
 
 * cpu.c -- CPU simulation
 
 */
 
 */
 
 
 
 
 
 
 
 
 
#include <stdio.h>
 
#include <stdio.h>
 
#include <stdlib.h>
 
#include <stdlib.h>
 
#include <string.h>
 
#include <string.h>
 
#include <setjmp.h>
 
#include <setjmp.h>
 
 
 
 
 
#include "common.h"
 
#include "common.h"
 
#include "console.h"
 
#include "console.h"
 
#include "error.h"
 
#include "error.h"
 
#include "except.h"
 
#include "except.h"
 
#include "instr.h"
 
#include "instr.h"
 
#include "cpu.h"
 
#include "cpu.h"
 
#include "mmu.h"
 
#include "mmu.h"
 
#include "timer.h"
 
#include "timer.h"
 
 
 
 
 
 
 
 
 
/**************************************************************/
 
/**************************************************************/
 
 
 
 
 
 
 
 
 
#define RR(n)           r[n]
 
#define RR(n)           r[n]
 
#define WR(n,d)         ((void) ((n) != 0 ? r[n] = (d) : (d)))
 
#define WR(n,d)         ((void) ((n) != 0 ? r[n] = (d) : (d)))
 
 
 
 
 
#define V               (psw & PSW_V)
 
#define V               (psw & PSW_V)
 
#define UM              (psw & PSW_UM)
 
#define UM              (psw & PSW_UM)
 
#define PUM             (psw & PSW_PUM)
 
#define PUM             (psw & PSW_PUM)
 
#define OUM             (psw & PSW_OUM)
 
#define OUM             (psw & PSW_OUM)
 
#define IE              (psw & PSW_IE)
 
#define IE              (psw & PSW_IE)
 
#define PIE             (psw & PSW_PIE)
 
#define PIE             (psw & PSW_PIE)
 
#define OIE             (psw & PSW_OIE)
 
#define OIE             (psw & PSW_OIE)
 
 
 
 
 
 
 
 
 
/**************************************************************/
 
/**************************************************************/
 
 
 
 
 
 
 
 
 
static Bool debugIRQ = false;   /* set to true if debugging IRQs */
 
static Bool debugIRQ = false;   /* set to true if debugging IRQs */
 
 
 
 
 
static Word pc;                 /* program counter */
 
static Word pc;                 /* program counter */
 
static Word psw;                /* processor status word */
 
static Word psw;                /* processor status word */
 
static Word r[32];              /* general purpose registers */
 
static Word r[32];              /* general purpose registers */
 
 
 
 
 
static int instrCount;          /* counts instrs for timer tick */
 
 
 
static unsigned irqPending;     /* one bit for each pending IRQ */
 
static unsigned irqPending;     /* one bit for each pending IRQ */
 
 
 
 
 
static Bool breakSet;           /* breakpoint set if true */
 
static Bool breakSet;           /* breakpoint set if true */
 
static Word breakAddr;          /* if breakSet, this is where */
 
static Word breakAddr;          /* if breakSet, this is where */
 
 
 
 
 
static Word total;              /* counts total number of instrs */
 
static Word total;              /* counts total number of instrs */
 
 
 
 
 
static Bool run;                /* CPU runs continuously if true */
 
static Bool run;                /* CPU runs continuously if true */
 
 
 
 
 
static Word startAddr;          /* start of ROM (or start of RAM, */
 
static Word startAddr;          /* start of ROM (or start of RAM, */
 
                                /* in case a program was loaded) */
 
                                /* in case a program was loaded) */
 
 
 
 
 
 
 
 
 
/**************************************************************/
 
/**************************************************************/
 
 
 
 
 
 
 
 
 
static void handleRealTimeTasks(void) {
 
 
 
  /* handle 'real-time' tasks */
 
 
 
  if (++instrCount == INSTRS_PER_MSEC) {
 
 
 
    instrCount = 0;
 
 
 
    timerTick();
 
 
 
  }
 
 
 
}
 
 
 
 
 
 
 
 
 
 
 
static void handleInterrupts(void) {
 
static void handleInterrupts(void) {
 
  unsigned irqMask;
 
  unsigned irqMask;
 
  unsigned irqSeen;
 
  unsigned irqSeen;
 
  int priority;
 
  int priority;
 
 
 
 
 
  /* handle exceptions and interrupts */
 
  /* handle exceptions and interrupts */
 
  if (irqPending == 0) {
 
  if (irqPending == 0) {
 
    /* no exception or interrupt pending */
 
    /* no exception or interrupt pending */
 
    return;
 
    return;
 
  }
 
  }
 
  /* at least one exception or interrupt is pending */
 
  /* at least one exception or interrupt is pending */
 
  irqMask = ~PSW_IRQ_MASK | (psw & PSW_IRQ_MASK);
 
  irqMask = ~PSW_IRQ_MASK | (psw & PSW_IRQ_MASK);
 
  if (debugIRQ) {
 
  if (debugIRQ) {
 
    cPrintf("**** IRQ  = 0x%08X ****\n", irqPending);
 
    cPrintf("**** IRQ  = 0x%08X ****\n", irqPending);
 
    cPrintf("**** MASK = 0x%08X ****\n", irqMask);
 
    cPrintf("**** MASK = 0x%08X ****\n", irqMask);
 
  }
 
  }
 
  irqSeen = irqPending & irqMask;
 
  irqSeen = irqPending & irqMask;
 
  if (irqSeen == 0) {
 
  if (irqSeen == 0) {
 
    /* none that gets through */
 
    /* none that gets through */
 
    return;
 
    return;
 
  }
 
  }
 
  /* determine the one with the highest priority */
 
  /* determine the one with the highest priority */
 
  for (priority = 31; priority >= 0; priority--) {
 
  for (priority = 31; priority >= 0; priority--) {
 
    if ((irqSeen & ((unsigned) 1 << priority)) != 0) {
 
    if ((irqSeen & ((unsigned) 1 << priority)) != 0) {
 
      /* highest priority among visible ones found */
 
      /* highest priority among visible ones found */
 
      break;
 
      break;
 
    }
 
    }
 
  }
 
  }
 
  /* acknowledge exception, or interrupt if enabled */
 
  /* acknowledge exception, or interrupt if enabled */
 
  if (priority >= 16 || IE != 0) {
 
  if (priority >= 16 || IE != 0) {
 
    if (priority >= 16) {
 
    if (priority >= 16) {
 
      /* clear corresponding bit in irqPending vector */
 
      /* clear corresponding bit in irqPending vector */
 
      /* only done for exceptions, since interrupts are level-sensitive */
 
      /* only done for exceptions, since interrupts are level-sensitive */
 
      irqPending &= ~((unsigned) 1 << priority);
 
      irqPending &= ~((unsigned) 1 << priority);
 
    }
 
    }
 
    /* copy and reset interrupt enable bit in PSW */
 
    /* copy and reset interrupt enable bit in PSW */
 
    if (PIE != 0) {
 
    if (PIE != 0) {
 
      psw |= PSW_OIE;
 
      psw |= PSW_OIE;
 
    } else {
 
    } else {
 
      psw &= ~PSW_OIE;
 
      psw &= ~PSW_OIE;
 
    }
 
    }
 
    if (IE != 0) {
 
    if (IE != 0) {
 
      psw |= PSW_PIE;
 
      psw |= PSW_PIE;
 
    } else {
 
    } else {
 
      psw &= ~PSW_PIE;
 
      psw &= ~PSW_PIE;
 
    }
 
    }
 
    psw &= ~PSW_IE;
 
    psw &= ~PSW_IE;
 
    /* copy and reset user mode enable bit in PSW */
 
    /* copy and reset user mode enable bit in PSW */
 
    if (PUM != 0) {
 
    if (PUM != 0) {
 
      psw |= PSW_OUM;
 
      psw |= PSW_OUM;
 
    } else {
 
    } else {
 
      psw &= ~PSW_OUM;
 
      psw &= ~PSW_OUM;
 
    }
 
    }
 
    if (UM != 0) {
 
    if (UM != 0) {
 
      psw |= PSW_PUM;
 
      psw |= PSW_PUM;
 
    } else {
 
    } else {
 
      psw &= ~PSW_PUM;
 
      psw &= ~PSW_PUM;
 
    }
 
    }
 
    psw &= ~PSW_UM;
 
    psw &= ~PSW_UM;
 
    /* reflect priority in PSW */
 
    /* reflect priority in PSW */
 
    psw &= ~PSW_PRIO_MASK;
 
    psw &= ~PSW_PRIO_MASK;
 
    psw |= priority << PSW_PRIO_SHFT;
 
    psw |= priority << PSW_PRIO_SHFT;
 
    /* save interrupt return address and start service routine */
 
    /* save interrupt return address and start service routine */
 
    WR(30, pc);
 
    WR(30, pc);
 
    if (V == 0) {
 
    if (V == 0) {
 
      /* exceptions and interrupts are vectored to ROM */
 
      /* exceptions and interrupts are vectored to ROM */
 
      pc = 0xC0000000 | ROM_BASE;
 
      pc = 0xC0000000 | ROM_BASE;
 
    } else {
 
    } else {
 
      /* exceptions and interrupts are vectored to RAM */
 
      /* exceptions and interrupts are vectored to RAM */
 
      pc = 0xC0000000;
 
      pc = 0xC0000000;
 
    }
 
    }
 
    if (priority == EXC_TLB_MISS &&
 
    if (priority == EXC_TLB_MISS &&
 
        (mmuGetBadAddr() & 0x80000000) == 0) {
 
        (mmuGetBadAddr() & 0x80000000) == 0) {
 
      /* user TLB miss exception */
 
      /* user TLB miss exception */
 
      pc |= 0x00000008;
 
      pc |= 0x00000008;
 
    } else {
 
    } else {
 
      /* any other exception or interrupt */
 
      /* any other exception or interrupt */
 
      pc |= 0x00000004;
 
      pc |= 0x00000004;
 
    }
 
    }
 
  }
 
  }
 
}
 
}
 
 
 
 
 
 
 
 
 
static void execNextInstruction(void) {
 
static void execNextInstruction(void) {
 
  Word instr;
 
  Word instr;
 
  Word next;
 
  Word next;
 
  int op, reg1, reg2, reg3;
 
  int op, reg1, reg2, reg3;
 
  Half immed;
 
  Half immed;
 
  Word offset;
 
  Word offset;
 
  int scnt;
 
  int scnt;
 
  Word smsk;
 
  Word smsk;
 
  Word aux;
 
  Word aux;
 
 
 
 
 
  /* count the instruction */
 
  /* count the instruction */
 
  total++;
 
  total++;
 
  /* fetch the instruction */
 
  /* fetch the instruction */
 
  instr = mmuReadWord(pc, UM);
 
  instr = mmuReadWord(pc, UM);
 
  /* decode the instruction */
 
  /* decode the instruction */
 
  op = (instr >> 26) & 0x3F;
 
  op = (instr >> 26) & 0x3F;
 
  reg1 = (instr >> 21) & 0x1F;
 
  reg1 = (instr >> 21) & 0x1F;
 
  reg2 = (instr >> 16) & 0x1F;
 
  reg2 = (instr >> 16) & 0x1F;
 
  reg3 = (instr >> 11) & 0x1F;
 
  reg3 = (instr >> 11) & 0x1F;
 
  immed = instr & 0x0000FFFF;
 
  immed = instr & 0x0000FFFF;
 
  offset = instr & 0x03FFFFFF;
 
  offset = instr & 0x03FFFFFF;
 
  next = pc + 4;
 
  next = pc + 4;
 
  /* execute the instruction */
 
  /* execute the instruction */
 
  switch (op) {
 
  switch (op) {
 
    case OP_ADD:
 
    case OP_ADD:
 
      WR(reg3, (signed int) RR(reg1) + (signed int) RR(reg2));
 
      WR(reg3, (signed int) RR(reg1) + (signed int) RR(reg2));
 
      break;
 
      break;
 
    case OP_ADDI:
 
    case OP_ADDI:
 
      WR(reg2, (signed int) RR(reg1) + (signed int) SEXT16(immed));
 
      WR(reg2, (signed int) RR(reg1) + (signed int) SEXT16(immed));
 
      break;
 
      break;
 
    case OP_SUB:
 
    case OP_SUB:
 
      WR(reg3, (signed int) RR(reg1) - (signed int) RR(reg2));
 
      WR(reg3, (signed int) RR(reg1) - (signed int) RR(reg2));
 
      break;
 
      break;
 
    case OP_SUBI:
 
    case OP_SUBI:
 
      WR(reg2, (signed int) RR(reg1) - (signed int) SEXT16(immed));
 
      WR(reg2, (signed int) RR(reg1) - (signed int) SEXT16(immed));
 
      break;
 
      break;
 
    case OP_MUL:
 
    case OP_MUL:
 
      WR(reg3, (signed int) RR(reg1) * (signed int) RR(reg2));
 
      WR(reg3, (signed int) RR(reg1) * (signed int) RR(reg2));
 
      break;
 
      break;
 
    case OP_MULI:
 
    case OP_MULI:
 
      WR(reg2, (signed int) RR(reg1) * (signed int) SEXT16(immed));
 
      WR(reg2, (signed int) RR(reg1) * (signed int) SEXT16(immed));
 
      break;
 
      break;
 
    case OP_MULU:
 
    case OP_MULU:
 
      WR(reg3, RR(reg1) * RR(reg2));
 
      WR(reg3, RR(reg1) * RR(reg2));
 
      break;
 
      break;
 
    case OP_MULUI:
 
    case OP_MULUI:
 
      WR(reg2, RR(reg1) * ZEXT16(immed));
 
      WR(reg2, RR(reg1) * ZEXT16(immed));
 
      break;
 
      break;
 
    case OP_DIV:
 
    case OP_DIV:
 
      if (RR(reg2) == 0) {
 
      if (RR(reg2) == 0) {
 
        throwException(EXC_DIVIDE);
 
        throwException(EXC_DIVIDE);
 
      }
 
      }
 
      WR(reg3, (signed int) RR(reg1) / (signed int) RR(reg2));
 
      WR(reg3, (signed int) RR(reg1) / (signed int) RR(reg2));
 
      break;
 
      break;
 
    case OP_DIVI:
 
    case OP_DIVI:
 
      if (SEXT16(immed) == 0) {
 
      if (SEXT16(immed) == 0) {
 
        throwException(EXC_DIVIDE);
 
        throwException(EXC_DIVIDE);
 
      }
 
      }
 
      WR(reg2, (signed int) RR(reg1) / (signed int) SEXT16(immed));
 
      WR(reg2, (signed int) RR(reg1) / (signed int) SEXT16(immed));
 
      break;
 
      break;
 
    case OP_DIVU:
 
    case OP_DIVU:
 
      if (RR(reg2) == 0) {
 
      if (RR(reg2) == 0) {
 
        throwException(EXC_DIVIDE);
 
        throwException(EXC_DIVIDE);
 
      }
 
      }
 
      WR(reg3, RR(reg1) / RR(reg2));
 
      WR(reg3, RR(reg1) / RR(reg2));
 
      break;
 
      break;
 
    case OP_DIVUI:
 
    case OP_DIVUI:
 
      if (SEXT16(immed) == 0) {
 
      if (SEXT16(immed) == 0) {
 
        throwException(EXC_DIVIDE);
 
        throwException(EXC_DIVIDE);
 
      }
 
      }
 
      WR(reg2, RR(reg1) / ZEXT16(immed));
 
      WR(reg2, RR(reg1) / ZEXT16(immed));
 
      break;
 
      break;
 
    case OP_REM:
 
    case OP_REM:
 
      if (RR(reg2) == 0) {
 
      if (RR(reg2) == 0) {
 
        throwException(EXC_DIVIDE);
 
        throwException(EXC_DIVIDE);
 
      }
 
      }
 
      WR(reg3, (signed int) RR(reg1) % (signed int) RR(reg2));
 
      WR(reg3, (signed int) RR(reg1) % (signed int) RR(reg2));
 
      break;
 
      break;
 
    case OP_REMI:
 
    case OP_REMI:
 
      if (SEXT16(immed) == 0) {
 
      if (SEXT16(immed) == 0) {
 
        throwException(EXC_DIVIDE);
 
        throwException(EXC_DIVIDE);
 
      }
 
      }
 
      WR(reg2, (signed int) RR(reg1) % (signed int) SEXT16(immed));
 
      WR(reg2, (signed int) RR(reg1) % (signed int) SEXT16(immed));
 
      break;
 
      break;
 
    case OP_REMU:
 
    case OP_REMU:
 
      if (RR(reg2) == 0) {
 
      if (RR(reg2) == 0) {
 
        throwException(EXC_DIVIDE);
 
        throwException(EXC_DIVIDE);
 
      }
 
      }
 
      WR(reg3, RR(reg1) % RR(reg2));
 
      WR(reg3, RR(reg1) % RR(reg2));
 
      break;
 
      break;
 
    case OP_REMUI:
 
    case OP_REMUI:
 
      if (SEXT16(immed) == 0) {
 
      if (SEXT16(immed) == 0) {
 
        throwException(EXC_DIVIDE);
 
        throwException(EXC_DIVIDE);
 
      }
 
      }
 
      WR(reg2, RR(reg1) % ZEXT16(immed));
 
      WR(reg2, RR(reg1) % ZEXT16(immed));
 
      break;
 
      break;
 
    case OP_AND:
 
    case OP_AND:
 
      WR(reg3, RR(reg1) & RR(reg2));
 
      WR(reg3, RR(reg1) & RR(reg2));
 
      break;
 
      break;
 
    case OP_ANDI:
 
    case OP_ANDI:
 
      WR(reg2, RR(reg1) & ZEXT16(immed));
 
      WR(reg2, RR(reg1) & ZEXT16(immed));
 
      break;
 
      break;
 
    case OP_OR:
 
    case OP_OR:
 
      WR(reg3, RR(reg1) | RR(reg2));
 
      WR(reg3, RR(reg1) | RR(reg2));
 
      break;
 
      break;
 
    case OP_ORI:
 
    case OP_ORI:
 
      WR(reg2, RR(reg1) | ZEXT16(immed));
 
      WR(reg2, RR(reg1) | ZEXT16(immed));
 
      break;
 
      break;
 
    case OP_XOR:
 
    case OP_XOR:
 
      WR(reg3, RR(reg1) ^ RR(reg2));
 
      WR(reg3, RR(reg1) ^ RR(reg2));
 
      break;
 
      break;
 
    case OP_XORI:
 
    case OP_XORI:
 
      WR(reg2, RR(reg1) ^ ZEXT16(immed));
 
      WR(reg2, RR(reg1) ^ ZEXT16(immed));
 
      break;
 
      break;
 
    case OP_XNOR:
 
    case OP_XNOR:
 
      WR(reg3, ~(RR(reg1) ^ RR(reg2)));
 
      WR(reg3, ~(RR(reg1) ^ RR(reg2)));
 
      break;
 
      break;
 
    case OP_XNORI:
 
    case OP_XNORI:
 
      WR(reg2, ~(RR(reg1) ^ ZEXT16(immed)));
 
      WR(reg2, ~(RR(reg1) ^ ZEXT16(immed)));
 
      break;
 
      break;
 
    case OP_SLL:
 
    case OP_SLL:
 
      scnt = RR(reg2) & 0x1F;
 
      scnt = RR(reg2) & 0x1F;
 
      WR(reg3, RR(reg1) << scnt);
 
      WR(reg3, RR(reg1) << scnt);
 
      break;
 
      break;
 
    case OP_SLLI:
 
    case OP_SLLI:
 
      scnt = immed & 0x1F;
 
      scnt = immed & 0x1F;
 
      WR(reg2, RR(reg1) << scnt);
 
      WR(reg2, RR(reg1) << scnt);
 
      break;
 
      break;
 
    case OP_SLR:
 
    case OP_SLR:
 
      scnt = RR(reg2) & 0x1F;
 
      scnt = RR(reg2) & 0x1F;
 
      WR(reg3, RR(reg1) >> scnt);
 
      WR(reg3, RR(reg1) >> scnt);
 
      break;
 
      break;
 
    case OP_SLRI:
 
    case OP_SLRI:
 
      scnt = immed & 0x1F;
 
      scnt = immed & 0x1F;
 
      WR(reg2, RR(reg1) >> scnt);
 
      WR(reg2, RR(reg1) >> scnt);
 
      break;
 
      break;
 
    case OP_SAR:
 
    case OP_SAR:
 
      scnt = RR(reg2) & 0x1F;
 
      scnt = RR(reg2) & 0x1F;
 
      smsk = (RR(reg1) & 0x80000000 ? ~(((Word) 0xFFFFFFFF) >> scnt) : 0);
 
      smsk = (RR(reg1) & 0x80000000 ? ~(((Word) 0xFFFFFFFF) >> scnt) : 0);
 
      WR(reg3, smsk | (RR(reg1) >> scnt));
 
      WR(reg3, smsk | (RR(reg1) >> scnt));
 
      break;
 
      break;
 
    case OP_SARI:
 
    case OP_SARI:
 
      scnt = immed & 0x1F;
 
      scnt = immed & 0x1F;
 
      smsk = (RR(reg1) & 0x80000000 ? ~(((Word) 0xFFFFFFFF) >> scnt) : 0);
 
      smsk = (RR(reg1) & 0x80000000 ? ~(((Word) 0xFFFFFFFF) >> scnt) : 0);
 
      WR(reg2, smsk | (RR(reg1) >> scnt));
 
      WR(reg2, smsk | (RR(reg1) >> scnt));
 
      break;
 
      break;
 
    case OP_LDHI:
 
    case OP_LDHI:
 
      WR(reg2, ZEXT16(immed) << 16);
 
      WR(reg2, ZEXT16(immed) << 16);
 
      break;
 
      break;
 
    case OP_BEQ:
 
    case OP_BEQ:
 
      if (RR(reg1) == RR(reg2)) {
 
      if (RR(reg1) == RR(reg2)) {
 
        next += SEXT16(immed) << 2;
 
        next += SEXT16(immed) << 2;
 
      }
 
      }
 
      break;
 
      break;
 
    case OP_BNE:
 
    case OP_BNE:
 
      if (RR(reg1) != RR(reg2)) {
 
      if (RR(reg1) != RR(reg2)) {
 
        next += SEXT16(immed) << 2;
 
        next += SEXT16(immed) << 2;
 
      }
 
      }
 
      break;
 
      break;
 
    case OP_BLE:
 
    case OP_BLE:
 
      if ((signed int) RR(reg1) <= (signed int) RR(reg2)) {
 
      if ((signed int) RR(reg1) <= (signed int) RR(reg2)) {
 
        next += SEXT16(immed) << 2;
 
        next += SEXT16(immed) << 2;
 
      }
 
      }
 
      break;
 
      break;
 
    case OP_BLEU:
 
    case OP_BLEU:
 
      if (RR(reg1) <= RR(reg2)) {
 
      if (RR(reg1) <= RR(reg2)) {
 
        next += SEXT16(immed) << 2;
 
        next += SEXT16(immed) << 2;
 
      }
 
      }
 
      break;
 
      break;
 
    case OP_BLT:
 
    case OP_BLT:
 
      if ((signed int) RR(reg1) < (signed int) RR(reg2)) {
 
      if ((signed int) RR(reg1) < (signed int) RR(reg2)) {
 
        next += SEXT16(immed) << 2;
 
        next += SEXT16(immed) << 2;
 
      }
 
      }
 
      break;
 
      break;
 
    case OP_BLTU:
 
    case OP_BLTU:
 
      if (RR(reg1) < RR(reg2)) {
 
      if (RR(reg1) < RR(reg2)) {
 
        next += SEXT16(immed) << 2;
 
        next += SEXT16(immed) << 2;
 
      }
 
      }
 
      break;
 
      break;
 
    case OP_BGE:
 
    case OP_BGE:
 
      if ((signed int) RR(reg1) >= (signed int) RR(reg2)) {
 
      if ((signed int) RR(reg1) >= (signed int) RR(reg2)) {
 
        next += SEXT16(immed) << 2;
 
        next += SEXT16(immed) << 2;
 
      }
 
      }
 
      break;
 
      break;
 
    case OP_BGEU:
 
    case OP_BGEU:
 
      if (RR(reg1) >= RR(reg2)) {
 
      if (RR(reg1) >= RR(reg2)) {
 
        next += SEXT16(immed) << 2;
 
        next += SEXT16(immed) << 2;
 
      }
 
      }
 
      break;
 
      break;
 
    case OP_BGT:
 
    case OP_BGT:
 
      if ((signed int) RR(reg1) > (signed int) RR(reg2)) {
 
      if ((signed int) RR(reg1) > (signed int) RR(reg2)) {
 
        next += SEXT16(immed) << 2;
 
        next += SEXT16(immed) << 2;
 
      }
 
      }
 
      break;
 
      break;
 
    case OP_BGTU:
 
    case OP_BGTU:
 
      if (RR(reg1) > RR(reg2)) {
 
      if (RR(reg1) > RR(reg2)) {
 
        next += SEXT16(immed) << 2;
 
        next += SEXT16(immed) << 2;
 
      }
 
      }
 
      break;
 
      break;
 
    case OP_J:
 
    case OP_J:
 
      next += SEXT26(offset) << 2;
 
      next += SEXT26(offset) << 2;
 
      break;
 
      break;
 
    case OP_JR:
 
    case OP_JR:
 
      next = RR(reg1);
 
      next = RR(reg1);
 
      break;
 
      break;
 
    case OP_JAL:
 
    case OP_JAL:
 
      WR(31, next);
 
      WR(31, next);
 
      next += SEXT26(offset) << 2;
 
      next += SEXT26(offset) << 2;
 
      break;
 
      break;
 
    case OP_JALR:
 
    case OP_JALR:
 
      aux = RR(reg1);
 
      aux = RR(reg1);
 
      WR(31, next);
 
      WR(31, next);
 
      next = aux;
 
      next = aux;
 
      break;
 
      break;
 
    case OP_TRAP:
 
    case OP_TRAP:
 
      throwException(EXC_TRAP);
 
      throwException(EXC_TRAP);
 
      break;
 
      break;
 
    case OP_RFX:
 
    case OP_RFX:
 
      if (UM != 0) {
 
      if (UM != 0) {
 
        throwException(EXC_PRV_INSTRCT);
 
        throwException(EXC_PRV_INSTRCT);
 
      }
 
      }
 
      if (PIE != 0) {
 
      if (PIE != 0) {
 
        psw |= PSW_IE;
 
        psw |= PSW_IE;
 
      } else {
 
      } else {
 
        psw &= ~PSW_IE;
 
        psw &= ~PSW_IE;
 
      }
 
      }
 
      if (OIE != 0) {
 
      if (OIE != 0) {
 
        psw |= PSW_PIE;
 
        psw |= PSW_PIE;
 
      } else {
 
      } else {
 
        psw &= ~PSW_PIE;
 
        psw &= ~PSW_PIE;
 
      }
 
      }
 
      if (PUM != 0) {
 
      if (PUM != 0) {
 
        psw |= PSW_UM;
 
        psw |= PSW_UM;
 
      } else {
 
      } else {
 
        psw &= ~PSW_UM;
 
        psw &= ~PSW_UM;
 
      }
 
      }
 
      if (OUM != 0) {
 
      if (OUM != 0) {
 
        psw |= PSW_PUM;
 
        psw |= PSW_PUM;
 
      } else {
 
      } else {
 
        psw &= ~PSW_PUM;
 
        psw &= ~PSW_PUM;
 
      }
 
      }
 
      next = RR(30);
 
      next = RR(30);
 
      break;
 
      break;
 
    case OP_LDW:
 
    case OP_LDW:
 
      WR(reg2, mmuReadWord(RR(reg1) + SEXT16(immed), UM));
 
      WR(reg2, mmuReadWord(RR(reg1) + SEXT16(immed), UM));
 
      break;
 
      break;
 
    case OP_LDH:
 
    case OP_LDH:
 
      WR(reg2, (signed int) (signed short)
 
      WR(reg2, (signed int) (signed short)
 
               mmuReadHalf(RR(reg1) + SEXT16(immed), UM));
 
               mmuReadHalf(RR(reg1) + SEXT16(immed), UM));
 
      break;
 
      break;
 
    case OP_LDHU:
 
    case OP_LDHU:
 
      WR(reg2, mmuReadHalf(RR(reg1) + SEXT16(immed), UM));
 
      WR(reg2, mmuReadHalf(RR(reg1) + SEXT16(immed), UM));
 
      break;
 
      break;
 
    case OP_LDB:
 
    case OP_LDB:
 
      WR(reg2, (signed int) (signed char)
 
      WR(reg2, (signed int) (signed char)
 
               mmuReadByte(RR(reg1) + SEXT16(immed), UM));
 
               mmuReadByte(RR(reg1) + SEXT16(immed), UM));
 
      break;
 
      break;
 
    case OP_LDBU:
 
    case OP_LDBU:
 
      WR(reg2, mmuReadByte(RR(reg1) + SEXT16(immed), UM));
 
      WR(reg2, mmuReadByte(RR(reg1) + SEXT16(immed), UM));
 
      break;
 
      break;
 
    case OP_STW:
 
    case OP_STW:
 
      mmuWriteWord(RR(reg1) + SEXT16(immed), RR(reg2), UM);
 
      mmuWriteWord(RR(reg1) + SEXT16(immed), RR(reg2), UM);
 
      break;
 
      break;
 
    case OP_STH:
 
    case OP_STH:
 
      mmuWriteHalf(RR(reg1) + SEXT16(immed), RR(reg2), UM);
 
      mmuWriteHalf(RR(reg1) + SEXT16(immed), RR(reg2), UM);
 
      break;
 
      break;
 
    case OP_STB:
 
    case OP_STB:
 
      mmuWriteByte(RR(reg1) + SEXT16(immed), RR(reg2), UM);
 
      mmuWriteByte(RR(reg1) + SEXT16(immed), RR(reg2), UM);
 
      break;
 
      break;
 
    case OP_MVFS:
 
    case OP_MVFS:
 
      switch (immed) {
 
      switch (immed) {
 
        case 0:
 
        case 0:
 
          WR(reg2, psw);
 
          WR(reg2, psw);
 
          break;
 
          break;
 
        case 1:
 
        case 1:
 
          WR(reg2, mmuGetIndex());
 
          WR(reg2, mmuGetIndex());
 
          break;
 
          break;
 
        case 2:
 
        case 2:
 
          WR(reg2, mmuGetEntryHi());
 
          WR(reg2, mmuGetEntryHi());
 
          break;
 
          break;
 
        case 3:
 
        case 3:
 
          WR(reg2, mmuGetEntryLo());
 
          WR(reg2, mmuGetEntryLo());
 
          break;
 
          break;
 
        case 4:
 
        case 4:
 
          WR(reg2, mmuGetBadAddr());
 
          WR(reg2, mmuGetBadAddr());
 
          break;
 
          break;
 
        default:
 
        default:
 
          throwException(EXC_ILL_INSTRCT);
 
          throwException(EXC_ILL_INSTRCT);
 
          break;
 
          break;
 
      }
 
      }
 
      break;
 
      break;
 
    case OP_MVTS:
 
    case OP_MVTS:
 
      if (UM != 0) {
 
      if (UM != 0) {
 
        throwException(EXC_PRV_INSTRCT);
 
        throwException(EXC_PRV_INSTRCT);
 
      }
 
      }
 
      switch (immed) {
 
      switch (immed) {
 
        case 0:
 
        case 0:
 
          psw = RR(reg2);
 
          psw = RR(reg2);
 
          break;
 
          break;
 
        case 1:
 
        case 1:
 
          mmuSetIndex(RR(reg2));
 
          mmuSetIndex(RR(reg2));
 
          break;
 
          break;
 
        case 2:
 
        case 2:
 
          mmuSetEntryHi(RR(reg2));
 
          mmuSetEntryHi(RR(reg2));
 
          break;
 
          break;
 
        case 3:
 
        case 3:
 
          mmuSetEntryLo(RR(reg2));
 
          mmuSetEntryLo(RR(reg2));
 
          break;
 
          break;
 
        case 4:
 
        case 4:
 
          mmuSetBadAddr(RR(reg2));
 
          mmuSetBadAddr(RR(reg2));
 
          break;
 
          break;
 
        default:
 
        default:
 
          throwException(EXC_ILL_INSTRCT);
 
          throwException(EXC_ILL_INSTRCT);
 
          break;
 
          break;
 
      }
 
      }
 
      break;
 
      break;
 
    case OP_TBS:
 
    case OP_TBS:
 
      if (UM != 0) {
 
      if (UM != 0) {
 
        throwException(EXC_PRV_INSTRCT);
 
        throwException(EXC_PRV_INSTRCT);
 
      }
 
      }
 
      mmuTbs();
 
      mmuTbs();
 
      break;
 
      break;
 
    case OP_TBWR:
 
    case OP_TBWR:
 
      if (UM != 0) {
 
      if (UM != 0) {
 
        throwException(EXC_PRV_INSTRCT);
 
        throwException(EXC_PRV_INSTRCT);
 
      }
 
      }
 
      mmuTbwr();
 
      mmuTbwr();
 
      break;
 
      break;
 
    case OP_TBRI:
 
    case OP_TBRI:
 
      if (UM != 0) {
 
      if (UM != 0) {
 
        throwException(EXC_PRV_INSTRCT);
 
        throwException(EXC_PRV_INSTRCT);
 
      }
 
      }
 
      mmuTbri();
 
      mmuTbri();
 
      break;
 
      break;
 
    case OP_TBWI:
 
    case OP_TBWI:
 
      if (UM != 0) {
 
      if (UM != 0) {
 
        throwException(EXC_PRV_INSTRCT);
 
        throwException(EXC_PRV_INSTRCT);
 
      }
 
      }
 
      mmuTbwi();
 
      mmuTbwi();
 
      break;
 
      break;
 
    default:
 
    default:
 
      throwException(EXC_ILL_INSTRCT);
 
      throwException(EXC_ILL_INSTRCT);
 
      break;
 
      break;
 
  }
 
  }
 
  /* update PC */
 
  /* update PC */
 
  pc = next;
 
  pc = next;
 
}
 
}
 
 
 
 
 
 
 
 
 
/**************************************************************/
 
/**************************************************************/
 
 
 
 
 
 
 
 
 
Word cpuGetPC(void) {
 
Word cpuGetPC(void) {
 
  return pc;
 
  return pc;
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuSetPC(Word addr) {
 
void cpuSetPC(Word addr) {
 
  pc = addr;
 
  pc = addr;
 
}
 
}
 
 
 
 
 
 
 
 
 
Word cpuGetReg(int regnum) {
 
Word cpuGetReg(int regnum) {
 
  return RR(regnum & 0x1F);
 
  return RR(regnum & 0x1F);
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuSetReg(int regnum, Word value) {
 
void cpuSetReg(int regnum, Word value) {
 
  WR(regnum & 0x1F, value);
 
  WR(regnum & 0x1F, value);
 
}
 
}
 
 
 
 
 
 
 
 
 
Word cpuGetPSW(void) {
 
Word cpuGetPSW(void) {
 
  return psw;
 
  return psw;
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuSetPSW(Word value) {
 
void cpuSetPSW(Word value) {
 
  psw = value;
 
  psw = value;
 
}
 
}
 
 
 
 
 
 
 
 
 
Word cpuGetIRQ(void) {
 
Word cpuGetIRQ(void) {
 
  return irqPending;
 
  return irqPending;
 
}
 
}
 
 
 
 
 
 
 
 
 
Bool cpuTestBreak(void) {
 
Bool cpuTestBreak(void) {
 
  return breakSet;
 
  return breakSet;
 
}
 
}
 
 
 
 
 
 
 
 
 
Word cpuGetBreak(void) {
 
Word cpuGetBreak(void) {
 
  return breakAddr;
 
  return breakAddr;
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuSetBreak(Word addr) {
 
void cpuSetBreak(Word addr) {
 
  breakAddr = addr;
 
  breakAddr = addr;
 
  breakSet = true;
 
  breakSet = true;
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuResetBreak(void) {
 
void cpuResetBreak(void) {
 
  breakSet = false;
 
  breakSet = false;
 
}
 
}
 
 
 
 
 
 
 
 
 
Word cpuGetTotal(void) {
 
Word cpuGetTotal(void) {
 
  return total;
 
  return total;
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuStep(void) {
 
void cpuStep(void) {
 
  jmp_buf myEnvironment;
 
  jmp_buf myEnvironment;
 
  int exception;
 
  int exception;
 
 
 
 
 
  exception = setjmp(myEnvironment);
 
  exception = setjmp(myEnvironment);
 
  if (exception == 0) {
 
  if (exception == 0) {
 
    /* initialization */
 
    /* initialization */
 
    pushEnvironment(&myEnvironment);
 
    pushEnvironment(&myEnvironment);
 
    handleRealTimeTasks();
 
    timerTick();
 
    execNextInstruction();
 
    execNextInstruction();
 
    handleInterrupts();
 
    handleInterrupts();
 
  } else {
 
  } else {
 
    /* an exception was thrown */
 
    /* an exception was thrown */
 
    cpuSetInterrupt(exception);
 
    cpuSetInterrupt(exception);
 
    handleInterrupts();
 
    handleInterrupts();
 
  }
 
  }
 
  popEnvironment();
 
  popEnvironment();
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuRun(void) {
 
void cpuRun(void) {
 
  jmp_buf myEnvironment;
 
  jmp_buf myEnvironment;
 
  int exception;
 
  int exception;
 
 
 
 
 
  run = true;
 
  run = true;
 
  exception = setjmp(myEnvironment);
 
  exception = setjmp(myEnvironment);
 
  if (exception == 0) {
 
  if (exception == 0) {
 
    /* initialization */
 
    /* initialization */
 
    pushEnvironment(&myEnvironment);
 
    pushEnvironment(&myEnvironment);
 
  } else {
 
  } else {
 
    /* an exception was thrown */
 
    /* an exception was thrown */
 
    cpuSetInterrupt(exception);
 
    cpuSetInterrupt(exception);
 
    handleInterrupts();
 
    handleInterrupts();
 
    if (breakSet && pc == breakAddr) {
 
    if (breakSet && pc == breakAddr) {
 
      run = false;
 
      run = false;
 
    }
 
    }
 
  }
 
  }
 
  while (run) {
 
  while (run) {
 
    handleRealTimeTasks();
 
    timerTick();
 
    execNextInstruction();
 
    execNextInstruction();
 
    handleInterrupts();
 
    handleInterrupts();
 
    if (breakSet && pc == breakAddr) {
 
    if (breakSet && pc == breakAddr) {
 
      run = false;
 
      run = false;
 
    }
 
    }
 
  }
 
  }
 
  popEnvironment();
 
  popEnvironment();
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuHalt(void) {
 
void cpuHalt(void) {
 
  run = false;
 
  run = false;
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuSetInterrupt(int priority) {
 
void cpuSetInterrupt(int priority) {
 
  irqPending |= ((unsigned) 1 << priority);
 
  irqPending |= ((unsigned) 1 << priority);
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuResetInterrupt(int priority) {
 
void cpuResetInterrupt(int priority) {
 
  irqPending &= ~((unsigned) 1 << priority);
 
  irqPending &= ~((unsigned) 1 << priority);
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuReset(void) {
 
void cpuReset(void) {
 
  int i;
 
  int i;
 
 
 
 
 
  cPrintf("Resetting CPU...\n");
 
  cPrintf("Resetting CPU...\n");
 
  /* most registers are in a random state */
 
  /* most registers are in a random state */
 
  for (i = 1; i < 32; i++) {
 
  for (i = 1; i < 32; i++) {
 
    r[i] = rand();
 
    r[i] = rand();
 
  }
 
  }
 
  /* but not all */
 
  /* but not all */
 
  pc = startAddr;
 
  pc = startAddr;
 
  r[0] = 0;
 
  r[0] = 0;
 
  psw = 0;
 
  psw = 0;
 
  /* reset simulator control variables */
 
  /* reset simulator control variables */
 
  instrCount = 0;
 
 
 
  irqPending = 0;
 
  irqPending = 0;
 
  total = 0;
 
  total = 0;
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuInit(Word initialPC) {
 
void cpuInit(Word initialPC) {
 
  startAddr = initialPC;
 
  startAddr = initialPC;
 
  cpuReset();
 
  cpuReset();
 
}
 
}
 
 
 
 
 
 
 
 
 
void cpuExit(void) {
 
void cpuExit(void) {
 
}
 
}
 
 
 
 

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