#include #include #include #include #include #include "ntfs.h" #include "ntfsfile_frag.h" #include "wbfs.h" #include "wbfs_ext.h" #include "frag.h" #include "utils.h" #include "sys.h" #include "wdvd.h" #include "ext2_frag.h" #include "fatfile_frag.h" #include "devicemounter/usbstorage.h" #include "gecko/gecko.h" #include "libwbfs/libwbfs.h" FragList *frag_list = NULL; void frag_init(FragList *ff, int maxnum) { memset(ff, 0, sizeof(Fragment) * (maxnum+1)); ff->maxnum = maxnum; } void frag_dump(FragList *ff) { u32 i; gprintf("frag list: %d %d 0x%x\n", ff->num, ff->size, ff->size); for (i = 0; i < ff->num; i++) { if (i > 10) { gprintf("...\n"); break; } gprintf(" %d : %8x %8x %8x\n", i, ff->frag[i].offset, ff->frag[i].count, ff->frag[i].sector); } } int frag_append(FragList *ff, u32 offset, u32 sector, u32 count) { int n; if (count) { n = ff->num - 1; if (ff->num > 0 && ff->frag[n].offset + ff->frag[n].count == offset && ff->frag[n].sector + ff->frag[n].count == sector) ff->frag[n].count += count; else { if (ff->num >= ff->maxnum) return -500; // too many fragments n = ff->num; ff->frag[n].offset = offset; ff->frag[n].sector = sector; ff->frag[n].count = count; ff->num++; } } ff->size = offset + count; return 0; } int _frag_append(void *ff, u32 offset, u32 sector, u32 count) { return frag_append(ff, offset, sector, count); } int frag_concat(FragList *ff, FragList *src) { int ret; u32 i; u32 size = ff->size; for (i=0; inum; i++) { ret = frag_append(ff, size + src->frag[i].offset, src->frag[i].sector, src->frag[i].count); if (ret) return ret; } ff->size = size + src->size; return 0; } // in case a sparse block is requested, // the returned poffset might not be equal to requested offset // the difference should be filled with 0 int frag_get(FragList *ff, u32 offset, u32 count, u32 *poffset, u32 *psector, u32 *pcount) { u32 i; u32 delta; for (i=0; inum; i++) { if (ff->frag[i].offset <= offset && ff->frag[i].offset + ff->frag[i].count > offset) { delta = offset - ff->frag[i].offset; *poffset = offset; *psector = ff->frag[i].sector + delta; *pcount = ff->frag[i].count - delta; if (*pcount > count) *pcount = count; goto out; } if (ff->frag[i].offset > offset && ff->frag[i].offset < offset + count) { delta = ff->frag[i].offset - offset; *poffset = ff->frag[i].offset; *psector = ff->frag[i].sector; *pcount = ff->frag[i].count; count -= delta; if (*pcount > count) *pcount = count; goto out; } } // not found if (offset + count > ff->size) return -1; // error: out of range! // if inside range, then it must be just sparse, zero filled // return empty block at the end of requested *poffset = offset + count; *psector = 0; *pcount = 0; out: return 0; } int frag_remap(FragList *ff, FragList *log, FragList *phy) { u32 i; u32 offset; u32 sector; for (i=0; inum; i++) { u32 delta = 0; u32 count = 0; do { int ret = frag_get(phy, log->frag[i].sector + delta + count, log->frag[i].count - delta - count, &offset, §or, &count); if (ret) return ret; // error delta = offset - log->frag[i].sector; ret = frag_append(ff, log->frag[i].offset + delta, sector, count); if (ret) return ret; // error } while (count + delta < log->frag[i].count); } return 0; } int get_frag_list(u8 *id, char *path, const u32 hdd_sector_size) { char fname[1024]; bzero(fname, 1024); u32 length = strlen(path); strcpy(fname, path); int ret, ret_val = -1; u32 i, j; if(fname[length-1] > '0' && fname[length-1] < '9') return 0; bool isWBFS = wbfs_part_fs != PART_FS_WBFS && strcasestr(strrchr(fname,'.'), ".wbfs") != 0; struct stat st; FragList *fs = MEM1_lo_alloc(sizeof(FragList)); FragList *fa = MEM1_lo_alloc(sizeof(FragList)); FragList *fw = MEM1_lo_alloc(sizeof(FragList)); if(fs == NULL || fa == NULL || fw == NULL) goto out; frag_init(fa, MAX_FRAG); for (i = 0; i < 10; i++) // .wbfs1 - .wbfsA, 10 possible splits? lol overkill? { frag_init(fs, MAX_FRAG); if (i > 0) { fname[length-1] = '0' + i; if (stat(fname, &st) == -1) break; } if (wbfs_part_fs == PART_FS_FAT) { ret = _FAT_get_fragments(fname, &_frag_append, fs); if (ret) { ret_val = 0; goto out; } } else if (wbfs_part_fs == PART_FS_NTFS) { ret = _NTFS_get_fragments(fname, &_frag_append, fs); if (ret) { ret_val = ret; goto out; } } else if (wbfs_part_fs == PART_FS_EXT) { ret = _EXT2_get_fragments(fname, &_frag_append, fs); if (ret) { ret_val = ret; goto out; } } else if (wbfs_part_fs == PART_FS_WBFS) { // if wbfs file format, remap. wbfs_disc_t *d = WBFS_OpenDisc(id, path); if (!d) { ret_val = -4; WBFS_CloseDisc(d); goto out; } ret = wbfs_get_fragments(d, &_frag_append, fs, hdd_sector_size); WBFS_CloseDisc(d); if (ret) { ret_val = -5; goto out; } } if (wbfs_part_fs == PART_FS_NTFS || wbfs_part_fs == PART_FS_EXT) { gprintf("Shifting all frags by sector: %d\n", wbfs_part_lba); // offset to start of partition for (j = 0; j < fs->num; j++) fs->frag[j].sector += wbfs_part_lba; } frag_concat(fa, fs); } frag_list = MEM1_lo_alloc(sizeof(FragList)); if(frag_list == NULL) goto out; frag_init(frag_list, MAX_FRAG); if (isWBFS) // If this is a .wbfs file format, remap. { wbfs_disc_t *disc = WBFS_OpenDisc(id, path); if (!disc) { ret_val = -4; goto out; } frag_init(fw, MAX_FRAG); ret = wbfs_get_fragments(disc, &_frag_append, fw, hdd_sector_size); if (ret) { ret_val = -5; goto out; } WBFS_CloseDisc(disc); // Close before jumping on fail. if(frag_remap(frag_list, fw, fa)) { ret_val = -6; goto out; } } else memcpy(frag_list, fa, sizeof(FragList)); // .iso files do not need a remap, just copy DCFlushRange(frag_list, sizeof(FragList)); ret_val = 0; out: if(ret_val && frag_list != NULL) { MEM1_lo_free(frag_list); frag_list = NULL; } if(fs != NULL) { MEM1_lo_free(fs); fs = NULL; } if(fa != NULL) { MEM1_lo_free(fa); fa = NULL; } if(fw != NULL) { MEM1_lo_free(fw); fw = NULL; } return ret_val; }