rdos/utils/emul.c

#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include <stdlib.h>

uint8_t mem[64*1024];

union regset {
  uint8_t r8[8]; // AL, AH, CL, CH...
  uint16_t r16[8]; // AX, CX, DX, BX, SP, BP, SI, DI
} regset;

typedef struct flagbits {
  unsigned int c : 1;
  unsigned int u1 : 1;
  unsigned int p : 1;
  unsigned int u3 : 1;

  unsigned int a : 1;
  unsigned int u5 : 1;
  unsigned int z : 1;
  unsigned int s : 1;

  unsigned int t : 1;
  unsigned int i : 1;
  unsigned int d : 1;
  unsigned int o : 1;

  unsigned int u12 : 4;
} flagbits;

union flags {
  uint16_t reg;
  struct flagbits bit;
} flags;

uint16_t ip = 0x100;
uint16_t scratch;
uint16_t prefixes = 0;
uint16_t reg;

void* rmptr;
#define RM8 *(uint8_t*)rmptr
#define RM16 *(uint16_t*)rmptr

#define R8(x) regset.r8[fixr8ref(x)]
#define R16(x) regset.r16[x]

#define AL regset.r8[0]
#define AH regset.r8[1]
#define CL regset.r8[2]
#define DL regset.r8[4]
#define AX regset.r16[0]
#define CX regset.r16[1]
#define BX regset.r16[3]
#define SP regset.r16[4]
#define BP regset.r16[5]
#define SI regset.r16[6]
#define DI regset.r16[7]

#define FLAGMASK 0xF02A

#define ADD 0
#define OR  1
#define ADC 2
#define SBB 3
#define AND 4
#define SUB 5
#define XOR 6
#define CMP 7
#define TEST 8

#define PREFIX_REPE	1
#define PREFIX_REPNE	2

const char* const regnames[] = { "AX", "CX", "DX", "BX", "SP", "BP", "SI", "DI", 0 };

// Dump registers
void dump() {
  printf("\n");
  int i;
  for (i=0; i<8; i++) {
    printf("%s=%04X ", regnames[i], regset.r16[i]);
  }
  printf("%c", flags.bit.o ? 'O' : '-');
  printf("%c", flags.bit.d ? 'D' : '-');
  printf("%c", flags.bit.i ? 'I' : '-');
  printf("%c", flags.bit.t ? 'T' : '-');
  printf("%c", flags.bit.s ? 'S' : '-');
  printf("%c", flags.bit.z ? 'Z' : '-');
  printf("%c", flags.bit.a ? 'A' : '-');
  printf("%c", flags.bit.p ? 'P' : '-');
  printf("%c", flags.bit.c ? 'C' : '-');

  printf("\n");
  printf("IP=%04X : %02X %02X\n", ip, mem[ip], mem[ip+1]);
}

void arith8(int op, int8_t* dst, int src) {
  // I'll just assume this sign-extends
  int t = *dst;
  int p = *dst;
  switch (op) {
  case ADD:  t += src; break;
  case OR:   t |= src; break;
  case ADC:  t += (src + flags.bit.c); break;
  case SBB:  t -= (src + flags.bit.c); break;
  case AND:  t &= src; break;
  case SUB:  t -= src; break;
  case XOR:  t ^= src; break;
  case CMP:  t -= src; break;
  case TEST: t &= src; break;
  }
  flags.bit.z = !t;
  flags.bit.c = !!((t ^ p) >> 8);
  if (op==CMP || op==TEST) return;
  *dst = t;
}

void arith16(int op, int16_t* dst, int src) {
  // I'll just assume this sign-extends
  int t = *dst;
  int p = *dst;
  switch (op) {
  case ADD:  t += src; break;
  case OR:   t |= src; break;
  case ADC:  t += (src + flags.bit.c); break;
  case SBB:  t -= (src + flags.bit.c); break;
  case AND:  t &= src; break;
  case SUB:  t -= src; break;
  case XOR:  t ^= src; break;
  case CMP:  t -= src; break;
  case TEST: t &= src; break;
  }
  flags.bit.z = !t;
  flags.bit.c = !!((t ^ p) >> 8);
  if (op==CMP || op==TEST) return;
  *dst = t;
}

int fixr8ref(int r) {
  return ((r << 1) & 0b110) | ((r >> 2) & 0b1);
}

uint8_t imm8() {
  uint8_t r = *(uint8_t*)&mem[ip];
  ip++;
  return r;
}

uint16_t imm16() {
  uint16_t r = *(uint16_t*)&mem[ip];
  ip+=2;
  return r;
}

#define BIT8  8
#define BIT16 16
void modrm(int size) {
  uint8_t mod = (mem[ip] >> 6) & 0b11; // highest 2 bits
  reg = (mem[ip] >> 3) & 0b111;
  uint8_t rm = (mem[ip]) & 0b111;
  ip++;
  if (mod == 3) {
    if (size == BIT16) {
      rmptr = &R16(rm);
    } else {
      rmptr = &R8(rm);
    }
   return;
  }
  if (mod == 0 && rm == 6) {
    rmptr = mem + (int16_t)imm16();
    return;
  }
  switch(rm) {
  case 0: rmptr = mem + BX + SI; break;
  case 1: rmptr = mem + BX + DI; break;
  case 2: rmptr = mem + BP + SI; break;
  case 3: rmptr = mem + BP + DI; break;
  case 4: rmptr = mem + SI; break;
  case 5: rmptr = mem + DI; break;
  case 6: rmptr = mem + BP; break;
  case 7: rmptr = mem + BX; break;
  }
  if (mod == 1) rmptr += (int8_t)imm8();
  if (mod == 2) rmptr += (int16_t)imm16();
}

void push(uint16_t v) {
  SP -= 2;
  *(uint16_t*)&mem[SP] = v;
}

uint16_t pop() {
  uint16_t v = *(uint16_t*)&mem[SP];
  SP += 2;
  return v;
}

void cpm_syscall(int number) {
  switch(number) {
  case 0:
    exit(0);
    break;
  case 2:
    printf("%c", DL);
    break;
  default:
    fprintf(stderr, "Fatal: Unhandled CP/M syscall %Xh\n", number);
    exit(1);
  }
}

void dos_syscall(int number) {
  switch(number) {
  case 0:
    exit(0);
    break;
  default:
    fprintf(stderr, "Fatal: Unhandled DOS syscall %Xh\n", number);
    exit(1);
  }
}

void handle_intr(int number) {
  switch(number) {
  case 0x20:
    dos_syscall(0);
    break;
  case 0x21:
    dos_syscall(AH);
    break;
  case 0xE0:
    cpm_syscall(CL);
    break;
  default:
    fprintf(stderr, "Fatal: Unhandled interrupt %Xh\n", number);
    exit(1);
  }
}

// Execute a single instruction
void step() {
  uint8_t opcode = mem[ip];
  ip++;
  switch(opcode) {
  case 0x00: // ARITH r/m8,reg8
  case 0x08:
  case 0x10:
  case 0x18:
  case 0x20:
  case 0x28:
  case 0x30:
  case 0x38:
    modrm(BIT8);
    arith8(opcode >> 3, &RM8, R8(reg));
    break;
  case 0x01: // ARITH r/m16,reg16
  case 0x09:
  case 0x11:
  case 0x19:
  case 0x21:
  case 0x29:
  case 0x31:
  case 0x39:
    modrm(BIT16);
    arith16(opcode >> 3, &RM16, R16(reg));
    break;
  case 0x40 ... 0x47: // INC reg16
    R16(opcode - 0x40)++;
    flags.bit.z=!R16(opcode - 0x40);
    break;
  case 0x48 ... 0x4F: // DEC reg16
    R16(opcode - 0x48)--;
    flags.bit.z=!R16(opcode - 0x48);
    break;
  case 0x50 ... 0x57: // PUSH reg16
    push(R16(opcode-0x50));
    break;
  case 0x58 ... 0x5F: // POP reg16
    R16(opcode-0x58)=pop();
    break;
  case 0x70 ... 0x7F: // Jcc
    reg = ip + (int8_t)imm8();
    switch((opcode-0x70) >> 1) {
    case 0: scratch = flags.bit.o; break;
    case 1: scratch = flags.bit.s; break;
    case 2: scratch = flags.bit.z; break;
    case 3: scratch = flags.bit.c; break;
    case 4: scratch = flags.bit.c || flags.bit.z; break;
    case 5: scratch = flags.bit.s != flags.bit.o; break;
    case 6: scratch = flags.bit.z || flags.bit.s != flags.bit.o; break;
    case 7: scratch = flags.bit.p; break;
    }
    if (!!(opcode & 1) != scratch) {
      ip = reg;
    }
    break;
  case 0x83: // ARITH r/m16,imm8
    modrm(BIT16);
    arith16(reg, &RM16, imm8());
    break;
  case 0x84: // TEST r/m8,reg8
    modrm(BIT8);
    scratch = R8(reg) & RM8;
    break;
  case 0x88: // MOV r/m8,reg8
    modrm(BIT8);
    RM8 = R8(reg);
    break;
  case 0x89: // MOV r/m16,reg16
    modrm(BIT16);
    RM16 = R16(reg);
    break;
  case 0x8B: // MOV reg16,r/m16
    modrm(BIT16);
    R16(reg) = RM16;
    break;
  case 0x9C: // PUSHF
    push(flags.reg | FLAGMASK);
    break;
  case 0xA1: // MOV AX,memoffs16
    AX = *(uint16_t*)&mem[imm16()];
    break;
  case 0xAA: // STOSB
    scratch = 1;
    if (prefixes & PREFIX_REPE) {
      scratch = CX;
      CX = 0;
    }
    for(;scratch>0;scratch--) {
      mem[DI] = AL;
      DI += 1 - (flags.bit.d << 1);
    }
    break;
  case 0xAC: // LODSB
    scratch = 1;
    if (prefixes & PREFIX_REPE) {
      scratch = CX;
      CX = 0;
    }
    for(;scratch>0;scratch--) {
      AL = mem[SI];
      SI += 1 - (flags.bit.d << 1);
    }
    break;
  case 0xB0 ... 0xB7: // MOV reg8,imm8
    reg = opcode-0xB0;
    R8(reg) = imm8();
    break;
  case 0xB8 ... 0xBF: // MOV reg16,imm16
    reg = opcode-0xB8;
    R16(reg) = imm16();
    break;
  case 0xC3: // RET
    ip = pop();
    break;
  case 0xCC: // INT3
    dump();
    break;
  case 0xCD: // INT imm8
    handle_intr(imm8());
    break;
  case 0xE8: // CALL rw
    reg = ip + (int16_t)imm16();
    if (reg == 5) {
      cpm_syscall(CL);
    } else {
      push(ip);
      ip = reg;
    }
    break;
  case 0xE9:
    reg = imm16();
    ip += (int16_t)reg;
    break;
  case 0xEB: // JMP rb
    ip = ip + (int8_t)imm8();
    break;
  case 0xF2:
    prefixes |= PREFIX_REPNE;
    return;
  case 0xF3:
    prefixes |= PREFIX_REPE;
    return;
  case 0xFA: // CLI
    flags.bit.i = 0;
    break;
  case 0xFB: // STI
    flags.bit.i = 1;
    break;
  default:
    ip--;
    dump();
    fprintf(stderr, "Invalid opcode at IP=%04X\n", ip);
    exit(1);
    break;
  }
  prefixes = 0;
  if (flags.bit.t) dump();
}

void copy_cmdline(char* str) {
  int i, c;
  uint8_t *len = &mem[0x80];
  char* ptr = (char*)&mem[0x81];
  c = strlen(str);
  // Clip at max length
  if (c>0x7E) {
    fprintf(stderr, "Command line too long, max is 126 bytes\n");
    exit(1);
  }
  memcpy(ptr, str, c);
  ptr[c]=0x0D;
  *len=c;
}

int main(int argc, char** argv) {
  memset(&mem, sizeof(mem), 0);
  memset(&regset, sizeof(regset), 0);
  // Prepare default exit into int 20h
  mem[0]=0xCD;
  mem[1]=0x20;
  push(0);

  argc--;
  argv++;

  while(argc && argv[0][0]=='-') {
    switch(argv[0][1]) {
    case 't':
      flags.bit.t = 1;
      break;
    default:
      fprintf(stderr, "Unknown option %s\n", argv[0]);
      exit(1);
      break;
    }
    argc--;
    argv++;
  }

  if (argc) {
    FILE* fd = fopen(argv[0], "r");
    fread(mem + ip, 1, sizeof(mem) - ip, fd);
    argc--;
    argv++;
  } else {
    fprintf(stderr, "No COM file specified\n");
    exit(1);
  }

  if (argc) {
    copy_cmdline(argv[0]);
  } else {
    copy_cmdline("");
  }

  while(1) {
    step();
  }
}