performance-aware-programming/8086_assembly_02/dasm.cpp

#include <bits/types/FILE.h>
#include <math.h>
#include <stdint.h>
#include <stdio.h>
#include <string.h>

enum class INST_BITS {
  REG_MEM_REG = 0x88,
  MEM_TO_ACC = 0xa0,
  ACC_TO_MEM = 0xa2,
  IMM_TO_REG = 0xb0,
  IMM_TO_REG_MEM = 0xc6,
};

enum class INST_MASKS {
  REG_MEM_REG = 0xfc,
  IMM_TO_REG = 0xf0,
  IMM_TO_REG_MEM = 0xfe,
  ACCUMULATOR = 0xfe,
};

enum class MODE {
  MEM = 0x00,
  MEM8 = 0x40,
  MEM16 = 0x80,
  REG = 0xc0,
};

bool mask_instruction(uint8_t instruction, uint8_t inst_bits, uint8_t mask);
void decode_register(uint8_t instruction, bool word, char *dest);
void decode_rm(uint8_t instruction, char *dest);
void stringify_rm_and_disp(FILE *fp, uint8_t operands, char *rm,
                           uint32_t buff_size);
void handle_accumulator_mov_instructions(FILE *fp, uint8_t inst, bool reg_dest,
                                         char *dest);

int main(int argc, char *argv[]) {
  if (argc < 2) {
    printf("Please provide a file to disassemble\n");
    return 1;
  }

  const char *filename = argv[1];

  FILE *fp = fopen(filename, "rb");

  if (fp) {
    uint8_t inst = 0;
    const char *op = "";

    char out_filename[4096] = {0};
    sprintf(out_filename, "%s_out.asm", filename);

    FILE *out = fopen(out_filename, "w");

    if (out) {
      fprintf(out, "; Disassembled by DASM\n\nbits 16\n\n");

      while (fread(&inst, sizeof(inst), 1, fp)) {
        if (mask_instruction(inst, (uint8_t)INST_BITS::REG_MEM_REG,
                             (uint8_t)INST_MASKS::REG_MEM_REG)) {
          op = "mov";

          uint8_t operands = 0;
          fread(&operands, sizeof(operands), 1, fp);

          // Instruction bit pattern is:
          //   7   6   5   4   3   2   1   0
          //  -------------------------------
          // | 1 | 0 | 0 | 0 | 1 | 0 | d | w |
          //  -------------------------------
          //
          // Operands bit pattern is:
          //   7   6   5   4   3   2   1   0
          //  -------------------------------
          // |  mod  |    reg    |    r/m    |
          //  -------------------------------

          bool reg_dest = mask_instruction(inst, 0x02, 0x02);

          bool word = mask_instruction(inst, 0x01, 0x01);

          char reg[3] = {0};
          decode_register(operands >> 3, word, reg);

          if (mask_instruction(operands, (uint8_t)MODE::REG,
                               (uint8_t)MODE::REG)) {
            char rm[3] = {0};
            decode_register(operands, word, rm);

            fprintf(out, "%s %s, %s\n", op, reg_dest ? reg : rm,
                    reg_dest ? rm : reg);
          } else {
            char rm[20] = {0};
            stringify_rm_and_disp(fp, operands, rm, 20);

            fprintf(out, reg_dest ? "%s %s, [%s]\n" : "%s [%s], %s\n", op,
                    reg_dest ? reg : rm, reg_dest ? rm : reg);
          }
        } else if (mask_instruction(inst, (uint8_t)INST_BITS::IMM_TO_REG,
                                    (uint8_t)INST_MASKS::IMM_TO_REG)) {
          op = "mov";

          // Bit pattern is:
          //   7   6   5   4   3   2   1   0
          //  -------------------------------
          // | 1 | 0 | 1 | 1 | w |    reg    |
          //  -------------------------------
          //
          // So, we need to mask the fourth bit to check the w flag
          bool word = mask_instruction(inst, 0x08, 0x08);

          uint8_t next_bytes = word ? 2 : 1;

          char reg[3] = {0};

          decode_register(inst, word, reg);

          int16_t data = 0;

          fread(&data, sizeof(next_bytes), next_bytes, fp);

          fprintf(out, "%s %s, %d\n", op, reg, word ? data : (int8_t)data);
        } else if (mask_instruction(inst, (uint8_t)INST_BITS::IMM_TO_REG_MEM,
                                    (uint8_t)INST_MASKS::IMM_TO_REG_MEM)) {
          op = "mov";

          uint8_t operands = 0;
          fread(&operands, sizeof(operands), 1, fp);

          // Instruction bit pattern is:
          //   7   6   5   4   3   2   1   0
          //  -------------------------------
          // | 1 | 1 | 0 | 0 | 0 | 1 | 1 | w |
          //  -------------------------------
          //
          // Operands bit pattern is:
          //   7   6   5   4   3   2   1   0
          //  -------------------------------
          // |  mod  |    000    |    r/m    |
          //  -------------------------------

          bool word = mask_instruction(inst, 0x01, 0x01);

          char rm[20] = {0};
          stringify_rm_and_disp(fp, operands, rm, 20);

          uint8_t next_bytes = word ? 2 : 1;

          int16_t data = 0;
          fread(&data, sizeof(next_bytes), next_bytes, fp);

          fprintf(out, "%s [%s], %s %d\n", op, rm, word ? "word" : "byte",
                  word ? data : (int8_t)data);
        } else if (mask_instruction(inst, (uint8_t)INST_BITS::MEM_TO_ACC,
                                    (uint8_t)INST_MASKS::ACCUMULATOR)) {
          char inst_out[256] = {0};
          handle_accumulator_mov_instructions(fp, inst, true, inst_out);

          fprintf(out, "%s\n", inst_out);
        } else if (mask_instruction(inst, (uint8_t)INST_BITS::ACC_TO_MEM,
                                    (uint8_t)INST_MASKS::ACCUMULATOR)) {
          char inst_out[256] = {0};
          handle_accumulator_mov_instructions(fp, inst, false, inst_out);

          fprintf(out, "%s\n", inst_out);
        } else {
          printf("It's not a mov operation\n");
        }
      }

      fclose(out);
    } else {
      printf("Failed to open output file\n");
    }

    fclose(fp);
  } else {
    printf("Failed to open the selected file\n");
  }

  return 0;
}

bool mask_instruction(uint8_t instruction, uint8_t inst_bits, uint8_t mask) {
  return (instruction & mask) == inst_bits;
}

void decode_register(uint8_t instruction, bool word, char *dest) {
  static uint8_t reg_mask = 0x07;

  // clang-format off
	static const char *table[16] = {
		"al", "ax",
		"cl", "cx",
		"dl", "dx",
		"bl", "bx",
		"ah", "sp",
		"ch", "bp",
		"dh", "si",
		"bh", "di"
	};
  // clang-format on

  static const uint8_t ROW_WIDTH = 2;

  uint8_t offset = instruction & reg_mask;

  // Multiply offset by 2 since each row has 2 columns
  strcpy(dest, table[offset * ROW_WIDTH + (uint8_t)word]);
}

void decode_rm(uint8_t instruction, char *dest) {
  static uint8_t rm_mask = 0x07;

  // clang-format off
  static const char *table[8] = {
		"bx + si",
		"bx + di",
		"bp + si",
		"bp + di",
		"si",
		"di",
		"bp",
		"bx"
  };
  // clang-format on

  uint8_t index = instruction & rm_mask;

  strcpy(dest, table[index]);
}

void stringify_rm_and_disp(FILE *fp, uint8_t operands, char *rm,
                           uint32_t buff_size) {
  decode_rm(operands, rm);

  bool direct_address = false;

  uint8_t next_bytes = operands >> 6;

  if (next_bytes == 0 && mask_instruction(operands, 0x06, 0x06)) {
    // Handle case when MOD == 00 and R/M == 110
    next_bytes = 2;

    direct_address = true;
  }

  int16_t disp = 0;
  fread(&disp, sizeof(next_bytes), next_bytes, fp);

  if (disp != 0) {
    if (direct_address) {
      memset(rm, 0, buff_size);

      sprintf(rm, "%d", disp);
    } else {
      bool positive = next_bytes > 1 ? disp > 0 : (int8_t)disp > 0;

      char data_out[buff_size];
      memset(data_out, 0, buff_size);

      sprintf(data_out, " %c %d", positive ? '+' : '-',
              next_bytes > 1 ? abs(disp) : abs((int8_t)disp));

      strcat(rm, data_out);
    }
  }
}

void handle_accumulator_mov_instructions(FILE *fp, uint8_t inst, bool reg_dest,
                                         char *dest) {
  bool word = mask_instruction(inst, 0x01, 0x01);

  uint8_t next_bytes = word ? 2 : 1;

  uint16_t addr = 0;
  fread(&addr, sizeof(next_bytes), next_bytes, fp);

  char addr_out[64] = {0};
  sprintf(addr_out, "[%d]", word ? addr : (uint8_t)addr);

  sprintf(dest, "mov %s, %s", reg_dest ? "ax" : addr_out,
          reg_dest ? addr_out : "ax");
}