ben
/
crater
miroir de https://github.com/earwig/crater
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An emulator, assembler, and disassembler for the Sega Game Gear
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crater/src/assembler.c

247 lignes
6.7 KiB
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  1. /* Copyright (C) 2014-2015 Ben Kurtovic <ben.kurtovic@gmail.com>

  2.    Released under the terms of the MIT License. See LICENSE for details. */

  3. 

  4. #include <stdlib.h>

  5. 

  6. #include "assembler.h"

  7. #include "assembler/errors.h"

  8. #include "assembler/io.h"

  9. #include "assembler/preprocessor.h"

  10. #include "assembler/state.h"

  11. #include "assembler/tokenizer.h"

  12. #include "logging.h"

  13. #include "rom.h"

  14. #include "util.h"

  15. 

  16. /*

  17.     Return the smallest ROM size that can contain the given address.

  18. 

  19.     This uses bit twiddling hacks up to the largest possible ROM size.

  20. */

  21. static size_t bounding_rom_size(size_t size)

  22. {

  23.     size--;

  24.     size |= size >> 1;

  25.     size |= size >> 2;

  26.     size |= size >> 4;

  27.     size |= size >> 8;

  28.     size |= size >> 16;

  29.     size++;

  30.     return size;

  31. }

  32. 

  33. /*

  34.     Resolve default placeholder values in assembler state, such as ROM size.

  35. 

  36.     On success, no new heap objects are allocated. On error, an ErrorInfo

  37.     object is returned.

  38. */

  39. static ErrorInfo* resolve_defaults(AssemblerState *state)

  40. {

  41.     if (!state->rom_size) {

  42.         state->rom_size = ROM_SIZE_MIN;

  43. 

  44.         const ASMInstruction *inst = state->instructions;

  45.         while (inst) {

  46.             size_t bound = inst->loc.offset + inst->loc.length;

  47.             if (bound > state->rom_size)

  48.                 state->rom_size = bounding_rom_size(bound);

  49.             inst = inst->next;

  50.         }

  51. 

  52.         const ASMData *data = state->data;

  53.         while (data) {

  54.             size_t bound = data->loc.offset + data->loc.length;

  55.             if (bound > state->rom_size)

  56.                 state->rom_size = bounding_rom_size(bound);

  57.             data = data->next;

  58.         }

  59. 

  60.         if (state->header.rom_size != INVALID_SIZE_CODE) {

  61.             size_t decl_size = size_code_to_bytes(state->header.rom_size);

  62.             if (decl_size > state->rom_size)

  63.                 state->rom_size = decl_size;

  64.         }

  65.     }

  66. 

  67.     if (state->header.rom_size == INVALID_SIZE_CODE)

  68.         state->header.rom_size = size_bytes_to_code(state->rom_size);

  69. 

  70.     return NULL;

  71. }

  72. 

  73. /*

  74.     Resolve symbol placeholders in instructions such as jumps and branches.

  75. 

  76.     On success, no new heap objects are allocated. On error, an ErrorInfo

  77.     object is returned.

  78. */

  79. static ErrorInfo* resolve_symbols(AssemblerState *state)

  80. {

  81.     ErrorInfo *ei;

  82.     ASMInstruction *inst = state->instructions;

  83.     const ASMSymbol *symbol;

  84. 

  85.     while (inst) {

  86.         if (inst->symbol) {

  87.             symbol = asm_symtable_find(state->symtable, inst->symbol);

  88.             if (!symbol) {

  89.                 ei = error_info_create(inst->line, ET_SYMBOL, ED_SYM_NO_LABEL);

  90.                 return ei;

  91.             }

  92. 

  93.             inst->bytes[inst->loc.length - 2] = symbol->offset & 0xFF;

  94.             inst->bytes[inst->loc.length - 1] = symbol->offset >> 8;

  95.             free(inst->symbol);

  96.             inst->symbol = NULL;

  97.         }

  98.         inst = inst->next;

  99.     }

  100.     return NULL;

  101. }

  102. 

  103. /*

  104.     Write the ROM header to the binary. Header contents are explained in rom.c.

  105. */

  106. static void write_header(const ASMHeaderInfo *info, uint8_t *binary)

  107. {

  108.     uint8_t *header = binary + info->offset;

  109. 

  110.     // Bytes 0-7: magic string

  111.     memcpy(header, rom_header_magic, HEADER_MAGIC_LEN);

  112.     header += HEADER_MAGIC_LEN;

  113. 

  114.     // Bytes 8, 9: unused

  115.     *(header++) = 0x00;

  116.     *(header++) = 0x00;

  117. 

  118.     // Bytes A, B: checksum

  119.     if (info->checksum) {

  120.         uint16_t checksum = compute_checksum(binary, 0, info->rom_size);

  121.         *header = checksum & 0xFF;

  122.         *(header + 1) = checksum >> 8;

  123.     } else {

  124.         *header = *(header + 1) = 0x00;

  125.     }

  126.     header += 2;

  127. 

  128.     // Bytes C, D: product code (least significant two bytes)

  129.     *header = bcd_encode(info->product_code % 100);

  130.     *(header + 1) = bcd_encode((info->product_code / 100) % 100);

  131.     header += 2;

  132. 

  133.     // Byte E: product code (most significant nibble), version

  134.     *header = (info->product_code / 10000) << 4 | (info->version & 0x0F);

  135.     header++;

  136. 

  137.     // Byte F: region code, ROM size

  138.     *header = (info->region << 4) | (info->rom_size & 0x0F);

  139. }

  140. 

  141. /*

  142.     Convert finalized ASMInstructions and ASMData into a binary data block.

  143. 

  144.     This function should never fail.

  145. */

  146. static void serialize_binary(const AssemblerState *state, uint8_t *binary)

  147. {

  148.     memset(binary, 0xFF, state->rom_size);

  149. 

  150.     const ASMInstruction *inst = state->instructions;

  151.     while (inst) {

  152.         memcpy(binary + inst->loc.offset, inst->bytes, inst->loc.length);

  153.         inst = inst->next;

  154.     }

  155. 

  156.     const ASMData *data = state->data;

  157.     while (data) {

  158.         memcpy(binary + data->loc.offset, data->bytes, data->loc.length);

  159.         data = data->next;

  160.     }

  161. 

  162.     write_header(&state->header, binary);

  163. }

  164. 

  165. /*

  166.     Assemble the z80 source code in the source code buffer into binary data.

  167. 

  168.     If successful, return the size of the assembled binary data and change

  169.     *binary_ptr to point to the assembled ROM data buffer. *binary_ptr must be

  170.     free()'d when finished.

  171. 

  172.     If an error occurred, return 0 and update *ei_ptr to point to an ErrorInfo

  173.     object which can be shown to the user with error_info_print(). The

  174.     ErrorInfo object must be destroyed with error_info_destroy() when finished.

  175. 

  176.     In either case, only one of *binary_ptr and *ei_ptr is modified.

  177. */

  178. size_t assemble(const LineBuffer *source, uint8_t **binary_ptr, ErrorInfo **ei_ptr)

  179. {

  180.     AssemblerState state;

  181.     ErrorInfo *error_info;

  182.     size_t retval = 0;

  183. 

  184.     state_init(&state);

  185. 

  186.     if ((error_info = preprocess(&state, source)))

  187.         goto error;

  188. 

  189.     asm_symtable_init(&state.symtable);

  190. 

  191. #ifdef DEBUG_MODE

  192.     asm_lines_print(state.lines);

  193. #endif

  194. 

  195.     if ((error_info = tokenize(&state)))

  196.         goto error;

  197. 

  198.     if ((error_info = resolve_defaults(&state)))

  199.         goto error;

  200. 

  201.     if ((error_info = resolve_symbols(&state)))

  202.         goto error;

  203. 

  204.     uint8_t *binary = cr_malloc(sizeof(uint8_t) * state.rom_size);

  205.     serialize_binary(&state, binary);

  206.     *binary_ptr = binary;

  207.     retval = state.rom_size;

  208.     goto cleanup;

  209. 

  210.     error:

  211.     *ei_ptr = error_info;

  212. 

  213.     cleanup:

  214.     state_free(&state);

  215.     return retval;

  216. }

  217. 

  218. /*

  219.     Assemble the z80 source code at the input path into a binary file.

  220. 

  221.     Return true if the operation was a success and false if it was a failure.

  222.     Errors are printed to STDOUT; if the operation was successful then nothing

  223.     is printed.

  224. */

  225. bool assemble_file(const char *src_path, const char *dst_path)

  226. {

  227.     DEBUG("Assembling: %s -> %s", src_path, dst_path)

  228.     LineBuffer *source = read_source_file(src_path, true);

  229.     if (!source)

  230.         return false;

  231. 

  232.     uint8_t *binary;

  233.     ErrorInfo *error_info;

  234.     size_t size = assemble(source, &binary, &error_info);

  235.     line_buffer_free(source);

  236. 

  237.     if (!size) {

  238.         error_info_print(error_info, stderr);

  239.         error_info_destroy(error_info);

  240.         return false;

  241.     }

  242. 

  243.     bool success = write_binary_file(dst_path, binary, size);

  244.     free(binary);

  245.     return success;

  246. }