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#include <stdlib.h>
#include <memory.h>
#include <zlib.h>
#include "mpq-bios.h"
#include "mpq-file.h"
#include "mpq-errors.h"
#include "errors.h"
#define MPQ_BUFSIZ 16384
struct mpq_file_t {
struct mpq_archive_t * mpq_a;
int entry;
int number_of_sectors;
int remaining_bytes;
int current_sector;
uint32_t cursor;
uint64_t offset;
uint32_t file_size;
uint32_t sector_size;
char * buffer;
uint64_t * offsets;
uint32_t * sizes;
};
struct mpq_file_t * mpqlib_open_file(struct mpq_archive_t * mpq_a, int entry) {
struct mpq_file_t * r;
uint32_t o;
uint32_t flags;
int i;
__mpqlib_errno = MPQLIB_ERROR_NO_ERROR;
/* Basic checks of the entry. */
if (mpqlib_ioctl(mpq_a, MPQLIB_IOCTL_ENTRY_EXISTS, entry)) {
__mpqlib_errno = MPQLIB_ERROR_FILE_NOT_FOUND;
return NULL;
}
flags = mpqlib_ioctl(mpq_a, MPQLIB_IOCTL_GET_FLAGS, entry);
if (!(flags & MPQ_FLAGS_ISFILE)) {
__mpqlib_errno = MPQLIB_ERROR_NOT_A_FILE;
return NULL;
}
if (flags & MPQ_FLAGS_IMPLODED) {
__mpqlib_errno = MPQLIB_ERROR_NOT_SUPPORTED;
return NULL;
}
// We won't support anything else than compressed files yet.
if (!(flags & MPQ_FLAGS_COMPRESSED)) {
__mpqlib_errno = MPQLIB_ERROR_NOT_COMPRESSED;
return NULL;
}
if (!(r = (struct mpq_file_t *) malloc(sizeof(struct mpq_file_t)))) {
__mpqlib_errno = MPQLIB_ERROR_MEMORY;
return NULL;
}
r->sector_size = mpqlib_ioctl(mpq_a, MPQLIB_IOCTL_GET_SECTOR_SIZE);
/* Allocating and filling up the mpq_file_t structure. */
if (!(r->buffer = malloc(r->sector_size))) {
free(r);
__mpqlib_errno = MPQLIB_ERROR_MEMORY;
return NULL;
}
r->entry = entry;
r->mpq_a = mpq_a;
r->file_size = mpqlib_ioctl(mpq_a, MPQLIB_IOCTL_GET_FILE_SIZE, entry);
r->offset = mpqlib_ioctl(mpq_a, MPQLIB_IOCTL_GET_BLOCK_OFFSET, entry);
r->number_of_sectors = r->file_size / r->sector_size;
if ((r->remaining_bytes = (r->file_size % r->sector_size))) {
r->number_of_sectors++;
} else {
r->remaining_bytes = r->sector_size;
}
r->current_sector = -1;
r->cursor = 0;
if (!(r->offsets = (uint64_t *) malloc((r->number_of_sectors + 1) * sizeof(uint64_t)))) {
free(r->buffer);
free(r);
__mpqlib_errno = MPQLIB_ERROR_MEMORY;
return NULL;
}
if (!(r->sizes = (uint32_t *) malloc(r->number_of_sectors * sizeof(uint32_t)))) {
free(r->offsets);
free(r->buffer);
free(r);
__mpqlib_errno = MPQLIB_ERROR_MEMORY;
return NULL;
}
/* Reading the offset table and building the size table */
mpqlib_ioctl(mpq_a, MPQLIB_IOCTL_SEEK, r->offset);
for (i = 0; i <= r->number_of_sectors; i++) {
mpqlib_ioctl(mpq_a, MPQLIB_IOCTL_READ, &o, 4);
r->offsets[i] = r->offset + o;
}
for (i = 0; i < r->number_of_sectors; i++) {
r->sizes[i] = r->offsets[i + 1] - r->offsets[i];
}
return r;
}
struct mpq_file_t * mpqlib_open_filename(struct mpq_archive_t * mpq_a, const char * fname) {
int e;
__mpqlib_errno = MPQLIB_ERROR_NO_ERROR;
if ((e = mpqlib_find_hash_entry_by_name(mpq_a, fname, 0, 0)) < 0) {
__mpqlib_errno = MPQLIB_ERROR_FILE_NOT_FOUND;
return NULL;
}
return mpqlib_open_file(mpq_a, e);
}
void mpqlib_close(struct mpq_file_t * mpq_f) {
free(mpq_f->buffer);
free(mpq_f->offsets);
free(mpq_f->sizes);
free(mpq_f);
}
static int cache_sector(struct mpq_file_t * mpq_f, int sector) {
static char in_buf[MPQ_BUFSIZ];
int r = 1;
/* current_sector should be initialized to -1 */
if (mpq_f->current_sector != sector) {
int il, ol;
mpqlib_ioctl(mpq_f->mpq_a, MPQLIB_IOCTL_SEEK, mpq_f->offsets[sector]);
mpqlib_ioctl(mpq_f->mpq_a, MPQLIB_IOCTL_READ, in_buf, mpq_f->sizes[sector]);
mpq_f->current_sector = sector;
il = ol = sector == (mpq_f->number_of_sectors - 1) ? mpq_f->remaining_bytes : mpq_f->sector_size;
if (ol == mpq_f->sizes[sector]) {
memcpy(mpq_f->buffer, in_buf, ol);
} else {
char * cursor = in_buf;
r = 0;
if ((*cursor++) == 2) {
z_stream z;
z.next_in = (Bytef *) cursor;
z.avail_in = mpq_f->sizes[sector];
z.total_in = mpq_f->sizes[sector];
z.next_out = (Bytef *) mpq_f->buffer;
z.avail_out = ol;
z.total_out = 0;
z.zalloc = NULL;
z.zfree = NULL;
if (inflateInit(&z) == 0) {
r = inflate(&z, Z_FINISH) >= 0 ? 1 : 0;
ol = z.total_out;
inflateEnd(&z);
}
}
}
if (il != ol)
r = 0;
}
return r;
}
/*
* The read function will iterate several times, in order to split the calls across the sectors.
*/
uint32_t mpqlib_read(struct mpq_file_t * mpq_f, void * _buffer, uint32_t size) {
int return_size = 0;
while (1) {
char * buffer = (char *) _buffer;
int sector_begin, sector_end;
uint32_t cl_size;
uint32_t offset_begin, offset_end;
uint32_t first_sector_begins;
uint32_t last_sector_ends;
__mpqlib_errno = MPQLIB_ERROR_NO_ERROR;
/* Computing various cursors and stuff. */
if ((size + mpq_f->cursor) >= mpq_f->file_size)
size = mpq_f->file_size - mpq_f->cursor;
offset_begin = mpq_f->cursor;
sector_begin = offset_begin / mpq_f->sector_size;
first_sector_begins = offset_begin % mpq_f->sector_size;
offset_end = size + mpq_f->cursor;
sector_end = offset_end / mpq_f->sector_size;
last_sector_ends = offset_end % mpq_f->sector_size;
if (!(offset_end % mpq_f->sector_size)) {
sector_end--;
last_sector_ends = mpq_f->sector_size;
}
/* Let's ask for the first sector */
if (!cache_sector(mpq_f, sector_begin)) {
__mpqlib_errno = MPQLIB_ERROR_COMPRESSION;
return 0;
}
/* If we've hit the end sector, let's just copy that over and exit. */
if (sector_begin == sector_end) {
memcpy(buffer, mpq_f->buffer + first_sector_begins, size);
mpq_f->cursor += size;
return_size += size;
break;
}
/* Else, let's compute the cluster size, copy that chunk, and reiterate. */
cl_size = mpq_f->sector_size - first_sector_begins;
memcpy(buffer, mpq_f->buffer + first_sector_begins, cl_size);
mpq_f->cursor += cl_size;
return_size += cl_size;
_buffer = buffer + cl_size;
size = size - cl_size;
}
return return_size;
}
uint32_t mpqlib_seek(struct mpq_file_t * mpq_f, signed long int offset, enum mpqlib_file_seek_t wheel) {
switch (wheel) {
case MPQLIB_SEEK_SET:
if (offset < 0)
offset = 0;
mpq_f->cursor = offset;
break;
case MPQLIB_SEEK_CUR:
if ((mpq_f->cursor + offset) < 0)
offset = -mpq_f->cursor;
mpq_f->cursor += offset;
break;
case MPQLIB_SEEK_END:
if (offset > 0)
offset = 0;
if ((mpq_f->file_size + offset) < 0)
offset = -mpq_f->cursor;
mpq_f->cursor = mpq_f->file_size + offset;
break;
default:
__mpqlib_errno = MPQLIB_ERROR_UNKNOWN;
return 0xffffffff;
}
if (mpq_f->cursor >= mpq_f->file_size)
mpq_f->cursor = mpq_f->file_size;
return mpq_f->cursor;
}
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