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oot/tools/elf2rom.c

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C
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#include <stdarg.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "elf32.h"
#include "n64chksum.h"
#include "util.h"
#define ROM_SEG_START_SUFFIX ".rom_start"
#define ROM_SEG_END_SUFFIX ".rom_end"
struct RomSegment
{
const char *name;
const void *data;
int size;
int romStart;
int romEnd;
};
static struct RomSegment *g_romSegments = NULL;
static int g_romSegmentsCount = 0;
static int g_romSize;
static bool parse_number(const char *str, int *num)
{
char *endptr;
long int n = strtol(str, &endptr, 0);
*num = n;
return endptr > str;
}
static unsigned int round_up(unsigned int num, unsigned int multiple)
{
num += multiple - 1;
return num / multiple * multiple;
}
static char *sprintf_alloc(const char *fmt, ...)
{
va_list args;
int size;
char *buffer;
va_start(args, fmt);
size = vsnprintf(NULL, 0, fmt, args) + 1;
va_end(args);
buffer = malloc(size);
va_start(args, fmt);
vsprintf(buffer, fmt, args);
va_end(args);
return buffer;
}
static struct RomSegment *add_rom_segment(const char *name)
{
int index = g_romSegmentsCount;
g_romSegmentsCount++;
g_romSegments = realloc(g_romSegments, g_romSegmentsCount * sizeof(*g_romSegments));
g_romSegments[index].name = name;
return &g_romSegments[index];
}
static int find_symbol_value(struct Elf32_Symbol *syms, int numsymbols, const char *name)
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{
struct Elf32_Symbol *sym;
int lo, hi, mid, cmp;
// Binary search for the symbol. We maintain the invariant that [lo, hi) is
// the interval that remains to search.
lo = 0;
hi = numsymbols;
while (lo < hi)
{
mid = lo + (hi - lo) / 2;
sym = &syms[mid];
cmp = strcmp(sym->name, name);
if (cmp == 0)
return (int) sym->value;
else if (cmp < 0)
lo = mid + 1;
else
hi = mid;
}
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util_fatal_error("Symbol %s is not defined\n", name);
}
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static int find_rom_address(struct Elf32_Symbol *syms, int numsymbols, const char *name, const char *suffix)
{
char *symName = sprintf_alloc("_%sSegmentRom%s", name, suffix);
int ret = find_symbol_value(syms, numsymbols, symName);
free(symName);
return ret;
}
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static int cmp_symbol_by_name(const void *a, const void *b)
{
return strcmp(
((struct Elf32_Symbol *)a)->name,
((struct Elf32_Symbol *)b)->name);
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}
static void parse_input_file(const char *filename)
{
struct Elf32 elf;
struct Elf32_Symbol *syms;
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const void *data;
size_t size;
int numRomSymbols;
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int i;
data = util_read_whole_file(filename, &size);
if (!elf32_init(&elf, data, size) || elf.machine != ELF_MACHINE_MIPS)
util_fatal_error("%s is not a valid 32-bit MIPS ELF file", filename);
// sort all symbols that contain the substring "Rom" for fast access
// (sorting all symbols costs 0.1s, might as well avoid that)
syms = malloc(elf.numsymbols * sizeof(struct Elf32_Symbol));
numRomSymbols = 0;
for (i = 0; i < elf.numsymbols; i++)
{
if (!elf32_get_symbol(&elf, &syms[numRomSymbols], i))
util_fatal_error("invalid or corrupt ELF file");
if (strstr(syms[numRomSymbols].name, "Rom"))
numRomSymbols++;
}
qsort(syms, numRomSymbols, sizeof(struct Elf32_Symbol), cmp_symbol_by_name);
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// get ROM segments
// sections of type SHT_PROGBITS and whose name is ..secname are considered ROM segments
for (i = 0; i < elf.shnum; i++)
{
struct Elf32_Section sec;
struct RomSegment *segment;
if (!elf32_get_section(&elf, &sec, i))
util_fatal_error("invalid or corrupt ELF file");
if (sec.type == SHT_PROGBITS && sec.name[0] == '.' && sec.name[1] == '.'
// HACK! ld sometimes marks NOLOAD sections as SHT_PROGBITS for no apparent reason,
// so we must ignore the ..secname.bss sections explicitly
&& strchr(sec.name + 2, '.') == NULL)
{
segment = add_rom_segment(sec.name + 2);
segment->data = elf.data + sec.offset;
segment->romStart = find_rom_address(syms, numRomSymbols, segment->name, "Start");
segment->romEnd = find_rom_address(syms, numRomSymbols, segment->name, "End");
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}
}
g_romSize = find_symbol_value(syms, numRomSymbols, "_RomSize");
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free(syms);
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}
// Writes the N64 ROM, padding the file size to a multiple of 1 MiB
static void write_rom_file(const char *filename, int cicType)
{
size_t fileSize = round_up(g_romSize, 0x100000);
uint8_t *buffer = calloc(fileSize, 1);
int i;
uint32_t chksum[2];
// write segments
for (i = 0; i < g_romSegmentsCount; i++)
{
int size = g_romSegments[i].romEnd - g_romSegments[i].romStart;
memcpy(buffer + g_romSegments[i].romStart, g_romSegments[i].data, size);
}
// pad the remaining space with 0xFF
memset(buffer + g_romSize, 0xFF, fileSize - g_romSize);
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// write checksum
if (!n64chksum_calculate(buffer, cicType, chksum))
util_fatal_error("invalid cic type %i", cicType);
util_write_uint32_be(buffer + 0x10, chksum[0]);
util_write_uint32_be(buffer + 0x14, chksum[1]);
util_write_whole_file(filename, buffer, fileSize);
free(buffer);
}
static void usage(const char *execname)
{
printf("usage: %s -cic <number> input.elf output.z64\n", execname);
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}
int main(int argc, char **argv)
{
int i;
const char *inputFileName = NULL;
const char *outputFileName = NULL;
int cicType = -1;
for (i = 1; i < argc; i++)
{
if (argv[i][0] == '-')
{
if (strcmp(argv[i], "-cic") == 0)
{
i++;
if (i >= argc || !parse_number(argv[i], &cicType))
{
fputs("error: expected number after -cic\n", stderr);
goto bad_args;
}
}
else if (strcmp(argv[i], "-help") == 0)
{
usage(argv[0]);
return 0;
}
else
{
fprintf(stderr, "unknown option %s\n", argv[i]);
goto bad_args;
}
}
else
{
if (inputFileName == NULL)
inputFileName = argv[i];
else if (outputFileName == NULL)
outputFileName = argv[i];
else
{
fputs("error: too many parameters specified\n", stderr);
goto bad_args;
}
}
}
if (inputFileName == NULL)
{
fputs("error: no input file specified\n", stderr);
goto bad_args;
}
if (outputFileName == NULL)
{
fputs("error: no output file specified\n", stderr);
goto bad_args;
}
if (cicType == -1)
{
fputs("error: no CIC type specified\n", stderr);
goto bad_args;
}
parse_input_file(inputFileName);
write_rom_file(outputFileName, cicType);
return 0;
bad_args:
usage(argv[0]);
return 1;
}