#include "bdri.h" #include "vff.h" #define FAT_ENTRY_SIZE 2 * sizeof(u32) #define getfatflag(uv) (((uv) & 0x80000000UL) != 0) #define getfatindex(uv) ((uv) & 0x7FFFFFFFUL) #define buildfatuv(index, flag) ((index) | ((flag) ? 0x80000000UL : 0)) static FIL* bdrifp; static FRESULT BDRIRead(UINT ofs, UINT btr, void* buf) { if (bdrifp) { FRESULT res; UINT br; if ((fvx_tell(bdrifp) != ofs) && (fvx_lseek(bdrifp, ofs) != FR_OK)) return FR_DENIED; res = fvx_read(bdrifp, buf, btr, &br); if ((res == FR_OK) && (br != btr)) res = FR_DENIED; return res; } else return FR_DENIED; } static FRESULT BDRIWrite(UINT ofs, UINT btw, const void* buf) { if (bdrifp) { FRESULT res; UINT bw; if ((fvx_tell(bdrifp) != ofs) && (fvx_lseek(bdrifp, ofs) != FR_OK)) return FR_DENIED; res = fvx_write(bdrifp, buf, btw, &bw); if ((res == FR_OK) && (bw != btw)) res = FR_DENIED; return res; } else return FR_DENIED; } bool CheckDBMagic(const u8* pre_header, bool tickdb) { const TitleDBPreHeader* title = (TitleDBPreHeader*) pre_header; const TickDBPreHeader* tick = (TickDBPreHeader*) pre_header; return (tickdb ? ((strncmp(tick->magic, "TICK", 4) == 0) && (tick->unknown1 == 1)) : ((strcmp(title->magic, "NANDIDB") == 0) || (strcmp(title->magic, "NANDTDB") == 0) || (strcmp(title->magic, "TEMPIDB") == 0) || (strcmp(title->magic, "TEMPTDB") == 0))) && (strcmp((tickdb ? tick->fs_header : title->fs_header).magic, "BDRI") == 0) && ((tickdb ? tick->fs_header : title->fs_header).version == 0x30000); } // This function was taken, with slight modification, from https://3dbrew.org/wiki/Inner_FAT static u32 GetHashBucket(const u8* tid, u32 parent_dir_index, u32 bucket_count) { u32 hash = parent_dir_index ^ 0x091A2B3C; for (u8 i = 0; i < 2; ++i) { hash = (hash >> 1) | (hash << 31); hash ^= (u32)tid[i * 4]; hash ^= (u32)tid[i * 4 + 1] << 8; hash ^= (u32)tid[i * 4 + 2] << 16; hash ^= (u32)tid[i * 4 + 3] << 24; } return hash % bucket_count; } static u32 GetBDRIEntrySize(const BDRIFsHeader* fs_header, const u32 fs_header_offset, const u8* title_id, u32* size) { if ((fs_header->info_offset != 0x20) || (fs_header->fat_entry_count != fs_header->data_block_count)) // Could be more thorough return 1; const u32 data_offset = fs_header_offset + fs_header->data_offset; const u32 det_offset = data_offset + fs_header->det_start_block * fs_header->data_block_size; const u32 fet_offset = data_offset + fs_header->fet_start_block * fs_header->data_block_size; u32 index = 0; TdbFileEntry file_entry; u64 tid_be = getbe64(title_id); u8* title_id_be = (u8*) &tid_be; // Read the index of the first file entry from the directory entry table if (BDRIRead(det_offset + 0x2C, sizeof(u32), &(file_entry.next_sibling_index)) != FR_OK) return 1; // Find the file entry for the tid specified, fail if it doesn't exist do { if (file_entry.next_sibling_index == 0) return 1; index = file_entry.next_sibling_index; if (BDRIRead(fet_offset + index * sizeof(TdbFileEntry), sizeof(TdbFileEntry), &file_entry) != FR_OK) return 1; } while (memcmp(title_id_be, file_entry.title_id, 8) != 0); *size = file_entry.size; return 0; } static u32 ReadBDRIEntry(const BDRIFsHeader* fs_header, const u32 fs_header_offset, const u8* title_id, u8* entry, const u32 expected_size) { if ((fs_header->info_offset != 0x20) || (fs_header->fat_entry_count != fs_header->data_block_count)) // Could be more thorough return 1; const u32 data_offset = fs_header_offset + fs_header->data_offset; const u32 det_offset = data_offset + fs_header->det_start_block * fs_header->data_block_size; const u32 fet_offset = data_offset + fs_header->fet_start_block * fs_header->data_block_size; const u32 fht_offset = fs_header_offset + fs_header->fht_offset; const u32 fat_offset = fs_header_offset + fs_header->fat_offset; u32 index = 0; TdbFileEntry file_entry; u64 tid_be = getbe64(title_id); u8* title_id_be = (u8*) &tid_be; // Read the index of the first file entry from the directory entry table if (BDRIRead(det_offset + 0x2C, sizeof(u32), &(file_entry.next_sibling_index)) != FR_OK) return 1; // Find the file entry for the tid specified, fail if it doesn't exist do { if (file_entry.next_sibling_index == 0) return 1; index = file_entry.next_sibling_index; if (BDRIRead(fet_offset + index * sizeof(TdbFileEntry), sizeof(TdbFileEntry), &file_entry) != FR_OK) return 1; } while (memcmp(title_id_be, file_entry.title_id, 8) != 0); if (expected_size && (file_entry.size != expected_size)) return 1; const u32 hash_bucket = GetHashBucket(file_entry.title_id, file_entry.parent_index, fs_header->fht_bucket_count); u32 index_hash = 0; if (BDRIRead(fht_offset + hash_bucket * sizeof(u32), sizeof(u32), &index_hash) != FR_OK) return 1; if (index != index_hash) return 1; index = file_entry.start_block_index + 1; // FAT entry index u32 bytes_read = 0; u32 fat_entry[2]; while (bytes_read < file_entry.size) { // Read the full entry, walking the FAT node chain u32 read_start = index - 1; // Data region block index u32 read_count = 0; if (BDRIRead(fat_offset + index * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; if ((bytes_read == 0) && !getfatflag(fat_entry[0])) return 1; u32 next_index = getfatindex(fat_entry[1]); if (getfatflag(fat_entry[1])) { // Multi-entry node if (BDRIRead(fat_offset + (index + 1) * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; if (!getfatflag(fat_entry[0]) || getfatflag(fat_entry[1]) || (getfatindex(fat_entry[0]) != index) || (getfatindex(fat_entry[0]) >= getfatindex(fat_entry[1]))) return 1; read_count = getfatindex(fat_entry[1]) + 1 - index; } else { // Single-entry node read_count = 1; } index = next_index; u32 btr = min(file_entry.size - bytes_read, read_count * fs_header->data_block_size); if (entry && (BDRIRead(data_offset + read_start * fs_header->data_block_size, btr, entry + bytes_read) != FR_OK)) return 1; bytes_read += btr; } return 0; } static u32 RemoveBDRIEntry(const BDRIFsHeader* fs_header, const u32 fs_header_offset, const u8* title_id) { if ((fs_header->info_offset != 0x20) || (fs_header->fat_entry_count != fs_header->data_block_count)) // Could be more thorough return 1; const u32 data_offset = fs_header_offset + fs_header->data_offset; const u32 det_offset = data_offset + fs_header->det_start_block * fs_header->data_block_size; const u32 fet_offset = data_offset + fs_header->fet_start_block * fs_header->data_block_size; const u32 fht_offset = fs_header_offset + fs_header->fht_offset; const u32 fat_offset = fs_header_offset + fs_header->fat_offset; u32 index = 0, previous_index = 0; TdbFileEntry file_entry; u64 tid_be = getbe64(title_id); u8* title_id_be = (u8*) &tid_be; // Read the index of the first file entry from the directory entry table if (BDRIRead(det_offset + 0x2C, sizeof(u32), &(file_entry.next_sibling_index)) != FR_OK) return 1; // Find the file entry for the tid specified, fail if it doesn't exist do { previous_index = index; index = file_entry.next_sibling_index; if (index == 0) return 1; if (BDRIRead(fet_offset + index * sizeof(TdbFileEntry), sizeof(TdbFileEntry), &file_entry) != FR_OK) return 1; } while (memcmp(title_id_be, file_entry.title_id, 8) != 0); DummyFileEntry dummy_entry; // Read the 0th entry in the FET, which is always a dummy entry if (BDRIRead(fet_offset, sizeof(DummyFileEntry), &dummy_entry) != FR_OK) return 1; if (dummy_entry.max_entry_count != fs_header->max_file_count + 1) return 1; if ((BDRIWrite(fet_offset + index * sizeof(TdbFileEntry), sizeof(TdbFileEntry), &dummy_entry) != FR_OK) || (BDRIWrite(fet_offset + 0x28, sizeof(u32), &index) != FR_OK) || (BDRIWrite((previous_index == 0) ? det_offset + 0x2C : fet_offset + previous_index * sizeof(TdbFileEntry) + 0xC, sizeof(u32), &(file_entry.next_sibling_index)) != FR_OK)) return 1; const u32 hash_bucket = GetHashBucket(file_entry.title_id, file_entry.parent_index, fs_header->fht_bucket_count); u32 index_hash = 0; if (BDRIRead(fht_offset + hash_bucket * sizeof(u32), sizeof(u32), &index_hash) != FR_OK) return 1; if (index_hash == index) { if (BDRIWrite(fht_offset + hash_bucket * sizeof(u32), sizeof(u32), &(file_entry.hash_bucket_next_index)) != FR_OK) return 1; } else { do { if (index_hash == 0) // This shouldn't happen if the entry was properly added break; if (BDRIRead(fet_offset + index_hash * sizeof(TdbFileEntry) + 0x28, sizeof(u32), &index_hash) != FR_OK) return 1; } while (index_hash != index); if ((index_hash != 0) && BDRIWrite(fet_offset + index_hash * sizeof(TdbFileEntry) + 0x28, sizeof(u32), &(file_entry.hash_bucket_next_index)) != FR_OK) return 1; } u32 fat_entry[2]; if (BDRIRead(fat_offset, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; if (getfatflag(fat_entry[1]) || (fat_entry[0] != 0)) return 1; u32 next_free_index = getfatindex(fat_entry[1]), fat_index = file_entry.start_block_index + 1; if (BDRIWrite(fat_offset + sizeof(u32), sizeof(u32), &fat_index) != FR_OK) return 1; fat_entry[1] = fat_index; do { fat_index = getfatindex(fat_entry[1]); if (BDRIRead(fat_offset + FAT_ENTRY_SIZE * fat_index, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; } while (getfatindex(fat_entry[1]) != 0); fat_entry[1] |= next_free_index; if ((BDRIWrite(fat_offset + fat_index * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) || (BDRIRead(fat_offset + next_free_index * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK)) return 1; fat_entry[0] = buildfatuv(fat_index, false); if (BDRIWrite(fat_offset + next_free_index * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; return 0; } static u32 AddBDRIEntry(const BDRIFsHeader* fs_header, const u32 fs_header_offset, const u8* title_id, const u8* entry, const u32 size, bool replace) { if ((fs_header->info_offset != 0x20) || (fs_header->fat_entry_count != fs_header->data_block_count)) // Could be more thorough return 1; if (!entry || !size) return 1; const u32 data_offset = fs_header_offset + fs_header->data_offset; const u32 det_offset = data_offset + fs_header->det_start_block * fs_header->data_block_size; const u32 fet_offset = data_offset + fs_header->fet_start_block * fs_header->data_block_size; const u32 fht_offset = fs_header_offset + fs_header->fht_offset; const u32 fat_offset = fs_header_offset + fs_header->fat_offset; const u32 size_blocks = (size / fs_header->data_block_size) + (((size % fs_header->data_block_size) == 0) ? 0 : 1); u32 index = 0, max_index = 0; TdbFileEntry file_entry; u64 tid_be = getbe64(title_id); u8* title_id_be = (u8*) &tid_be; bool do_replace = false; // Read the index of the first file entry from the directory entry table if (BDRIRead(det_offset + 0x2C, sizeof(u32), &(file_entry.next_sibling_index)) != FR_OK) return 1; // Try to find the file entry for the tid specified while (file_entry.next_sibling_index != 0) { index = file_entry.next_sibling_index; max_index = max(index, max_index); if (BDRIRead(fet_offset + index * sizeof(TdbFileEntry), sizeof(TdbFileEntry), &file_entry) != FR_OK) return 1; // If an entry for the tid already existed that is already the specified size and replace was specified, just replace the existing entry if (memcmp(title_id_be, file_entry.title_id, 8) == 0) { if (!replace || (file_entry.size != size)) return 1; else { do_replace = true; break; } } } u32 fat_entry[2]; u32 fat_index = 0; if (!do_replace) { if (BDRIRead(fat_offset, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; if (getfatflag(fat_entry[1]) || (fat_entry[0] != 0)) return 1; u32 next_fat_index = getfatindex(fat_entry[1]), node_size = 0; // Find contiguous free space in the FAT for the entry. Technically there could be a case of enough space existing, but not in a contiguous fasion, but this would never realistically happen do { if (next_fat_index == 0) return 1; // Reached the end of the free node chain without finding enough contiguous free space - this should never realistically happen fat_index = next_fat_index; if (BDRIRead(fat_offset + fat_index * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; next_fat_index = getfatindex(fat_entry[1]); if (getfatflag(fat_entry[1])) { // Multi-entry node if (BDRIRead(fat_offset + (fat_index + 1) * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; if (!getfatflag(fat_entry[0]) || getfatflag(fat_entry[1]) || (getfatindex(fat_entry[0]) != fat_index) || (getfatindex(fat_entry[0]) >= getfatindex(fat_entry[1]))) return 1; node_size = getfatindex(fat_entry[1]) + 1 - fat_index; } else { // Single-entry node node_size = 1; } } while (node_size < size_blocks); const bool shrink_free_node = node_size > size_blocks; if (shrink_free_node) { if (BDRIRead(fat_offset + fat_index * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; if (node_size - size_blocks == 1) fat_entry[1] = buildfatuv(getfatindex(fat_entry[1]), false); if (BDRIWrite(fat_offset + (fat_index + size_blocks) * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; if (node_size - size_blocks > 1) { if (BDRIRead(fat_offset + (fat_index + node_size - 1) * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; fat_entry[0] = buildfatuv(fat_index + size_blocks, true); if ((BDRIWrite(fat_offset + (fat_index + node_size - 1) * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) || (BDRIWrite(fat_offset + (fat_index + size_blocks + 1) * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK)) return 1; } } if (BDRIRead(fat_offset + fat_index * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; const u32 previous_free_index = getfatindex(fat_entry[0]), next_free_index = getfatindex(fat_entry[1]); fat_entry[0] = buildfatuv(0, true); fat_entry[1] = buildfatuv(0, size_blocks > 1); if (BDRIWrite(fat_offset + fat_index * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; if (size_blocks > 1) { fat_entry[0] = buildfatuv(fat_index, true); fat_entry[1] = buildfatuv(fat_index + size_blocks - 1, false); if ((BDRIWrite(fat_offset + (fat_index + size_blocks - 1) * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) || (BDRIWrite(fat_offset + (fat_index + 1) * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK)) return 1; } if (next_free_index != 0) { if (BDRIRead(fat_offset + next_free_index * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; fat_entry[0] = buildfatuv(shrink_free_node ? fat_index + size_blocks : previous_free_index, (!shrink_free_node && (previous_free_index == 0))); if (BDRIWrite(fat_offset + next_free_index * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; } if (BDRIRead(fat_offset + previous_free_index * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; fat_entry[1] = buildfatuv(shrink_free_node ? fat_index + size_blocks : next_free_index, getfatflag(fat_entry[1])); if (BDRIWrite(fat_offset + previous_free_index * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; } else fat_index = file_entry.start_block_index + 1; u32 bytes_written = 0, fat_index_write = fat_index; while (bytes_written < file_entry.size) { // Write the full entry, walking the FAT node chain // Can't assume contiguity here, because we might be replacing an existing entry u32 write_start = fat_index_write - 1; // Data region block index u32 write_count = 0; if (BDRIRead(fat_offset + fat_index_write * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; if ((bytes_written == 0) && !getfatflag(fat_entry[0])) return 1; u32 next_index = getfatindex(fat_entry[1]); if (getfatflag(fat_entry[1])) { // Multi-entry node if (BDRIRead(fat_offset + (fat_index_write + 1) * FAT_ENTRY_SIZE, FAT_ENTRY_SIZE, fat_entry) != FR_OK) return 1; if (!getfatflag(fat_entry[0]) || getfatflag(fat_entry[1]) || (getfatindex(fat_entry[0]) != fat_index_write) || (getfatindex(fat_entry[0]) >= getfatindex(fat_entry[1]))) return 1; write_count = getfatindex(fat_entry[1]) + 1 - fat_index_write; } else { // Single-entry node write_count = 1; } fat_index_write = next_index; u32 btw = min(file_entry.size - bytes_written, write_count * fs_header->data_block_size); if (BDRIWrite(data_offset + write_start * fs_header->data_block_size, btw, entry + bytes_written) != FR_OK) return 1; bytes_written += btw; } if (!do_replace) { DummyFileEntry dummy_entry; // Read the 0th entry in the FET, which is always a dummy entry if (BDRIRead(fet_offset, sizeof(DummyFileEntry), &dummy_entry) != FR_OK) return 1; if (dummy_entry.max_entry_count != fs_header->max_file_count + 1) return 1; if (dummy_entry.next_dummy_index == 0) { // If the 0th entry is the only dummy entry, make a new entry file_entry.next_sibling_index = max_index + 1; dummy_entry.total_entry_count++; if (BDRIWrite(fet_offset, sizeof(u32), &(dummy_entry.total_entry_count)) != FR_OK) return 1; } else { // If there's at least one extraneous dummy entry, replace it file_entry.next_sibling_index = dummy_entry.next_dummy_index; if ((BDRIRead(fet_offset + dummy_entry.next_dummy_index * sizeof(DummyFileEntry), sizeof(DummyFileEntry), &dummy_entry) != FR_OK) || (BDRIWrite(fet_offset, sizeof(DummyFileEntry), &dummy_entry) != FR_OK)) return 1; } if (BDRIWrite((index == 0) ? det_offset + 0x2C : fet_offset + index * sizeof(TdbFileEntry) + 0xC, sizeof(u32), &(file_entry.next_sibling_index)) != FR_OK) return 1; index = file_entry.next_sibling_index; const u32 hash_bucket = GetHashBucket(title_id_be, 1, fs_header->fht_bucket_count); u32 index_hash = 0; if ((BDRIRead(fht_offset + hash_bucket * sizeof(u32), sizeof(u32), &index_hash) != FR_OK) || (BDRIWrite(fht_offset + hash_bucket * sizeof(u32), sizeof(u32), &index) != FR_OK)) return 1; memset(&file_entry, 0, sizeof(TdbFileEntry)); file_entry.parent_index = 1; memcpy(file_entry.title_id, title_id_be, 8); file_entry.start_block_index = fat_index - 1; file_entry.size = (u64) size; file_entry.hash_bucket_next_index = index_hash; if (BDRIWrite(fet_offset + index * sizeof(TdbFileEntry), sizeof(TdbFileEntry), &file_entry) != FR_OK) return 1; } return 0; } static u32 GetNumBDRIEntries(const BDRIFsHeader* fs_header, const u32 fs_header_offset) { if ((fs_header->info_offset != 0x20) || (fs_header->fat_entry_count != fs_header->data_block_count)) // Could be more thorough return 0; const u32 data_offset = fs_header_offset + fs_header->data_offset; const u32 det_offset = data_offset + fs_header->det_start_block * fs_header->data_block_size; const u32 fet_offset = data_offset + fs_header->fet_start_block * fs_header->data_block_size; u32 num_entries = 0; TdbFileEntry file_entry; // Read the index of the first file entry from the directory entry table if (BDRIRead(det_offset + 0x2C, sizeof(u32), &(file_entry.next_sibling_index)) != FR_OK) return 0; while (file_entry.next_sibling_index != 0) { num_entries++; if (BDRIRead(fet_offset + file_entry.next_sibling_index * sizeof(TdbFileEntry), sizeof(TdbFileEntry), &file_entry) != FR_OK) return 0; } return num_entries; } static u32 ListBDRIEntryTitleIDs(const BDRIFsHeader* fs_header, const u32 fs_header_offset, u8* title_ids, u32 max_title_ids) { if ((fs_header->info_offset != 0x20) || (fs_header->fat_entry_count != fs_header->data_block_count)) return 0; const u32 data_offset = fs_header_offset + fs_header->data_offset; const u32 det_offset = data_offset + fs_header->det_start_block * fs_header->data_block_size; const u32 fet_offset = data_offset + fs_header->fet_start_block * fs_header->data_block_size; u32 num_entries = 0; TdbFileEntry file_entry; for (u32 i = 0; i < max_title_ids; i++) memset(title_ids, 0, max_title_ids * 8); // Read the index of the first file entry from the directory entry table if (BDRIRead(det_offset + 0x2C, sizeof(u32), &(file_entry.next_sibling_index)) != FR_OK) return 1; while ((file_entry.next_sibling_index != 0) && (num_entries < max_title_ids)) { if (BDRIRead(fet_offset + file_entry.next_sibling_index * sizeof(TdbFileEntry), sizeof(TdbFileEntry), &file_entry) != FR_OK) return 1; memcpy(title_ids + num_entries * 8, file_entry.title_id, 8); num_entries++; } return 0; } u32 GetNumTitleInfoEntries(const char* path) { FIL file; TitleDBPreHeader pre_header; if (fvx_open(&file, path, FA_READ | FA_OPEN_EXISTING) != FR_OK) return 0; bdrifp = &file; if ((BDRIRead(0, sizeof(TitleDBPreHeader), &pre_header) != FR_OK) || !CheckDBMagic((u8*) &pre_header, false)) { fvx_close(bdrifp); bdrifp = NULL; return 0; } u32 num = GetNumBDRIEntries(&(pre_header.fs_header), sizeof(TitleDBPreHeader) - sizeof(BDRIFsHeader)); fvx_close(bdrifp); bdrifp = NULL; return num; } u32 GetNumTickets(const char* path) { FIL file; TickDBPreHeader pre_header; if (fvx_open(&file, path, FA_READ | FA_OPEN_EXISTING) != FR_OK) return 0; bdrifp = &file; if ((BDRIRead(0, sizeof(TickDBPreHeader), &pre_header) != FR_OK) || !CheckDBMagic((u8*) &pre_header, true)) { fvx_close(bdrifp); bdrifp = NULL; return 0; } u32 num = GetNumBDRIEntries(&(pre_header.fs_header), sizeof(TickDBPreHeader) - sizeof(BDRIFsHeader)); fvx_close(bdrifp); bdrifp = NULL; return num; } u32 ListTitleInfoEntryTitleIDs(const char* path, u8* title_ids, u32 max_title_ids) { FIL file; TitleDBPreHeader pre_header; if (fvx_open(&file, path, FA_READ | FA_OPEN_EXISTING) != FR_OK) return 1; bdrifp = &file; if ((BDRIRead(0, sizeof(TitleDBPreHeader), &pre_header) != FR_OK) || !CheckDBMagic((u8*) &pre_header, false) || (ListBDRIEntryTitleIDs(&(pre_header.fs_header), sizeof(TitleDBPreHeader) - sizeof(BDRIFsHeader), title_ids, max_title_ids) != 0)) { fvx_close(bdrifp); bdrifp = NULL; return 1; } fvx_close(bdrifp); bdrifp = NULL; return 0; } u32 ListTicketTitleIDs(const char* path, u8* title_ids, u32 max_title_ids) { FIL file; TickDBPreHeader pre_header; if (fvx_open(&file, path, FA_READ | FA_OPEN_EXISTING) != FR_OK) return 1; bdrifp = &file; if ((BDRIRead(0, sizeof(TickDBPreHeader), &pre_header) != FR_OK) || !CheckDBMagic((u8*) &pre_header, true) || (ListBDRIEntryTitleIDs(&(pre_header.fs_header), sizeof(TickDBPreHeader) - sizeof(BDRIFsHeader), title_ids, max_title_ids) != 0)) { fvx_close(bdrifp); bdrifp = NULL; return 1; } fvx_close(bdrifp); bdrifp = NULL; return 0; } u32 ReadTitleInfoEntryFromDB(const char* path, const u8* title_id, TitleInfoEntry* tie) { FIL file; TitleDBPreHeader pre_header; if (fvx_open(&file, path, FA_READ | FA_OPEN_EXISTING) != FR_OK) return 1; bdrifp = &file; if ((BDRIRead(0, sizeof(TitleDBPreHeader), &pre_header) != FR_OK) || !CheckDBMagic((u8*) &pre_header, false) || (ReadBDRIEntry(&(pre_header.fs_header), sizeof(TitleDBPreHeader) - sizeof(BDRIFsHeader), title_id, (u8*) tie, sizeof(TitleInfoEntry)) != 0)) { fvx_close(bdrifp); bdrifp = NULL; return 1; } fvx_close(bdrifp); bdrifp = NULL; return 0; } u32 ReadTicketFromDB(const char* path, const u8* title_id, Ticket** ticket) { FIL file; TickDBPreHeader pre_header; TicketEntry* te = NULL; u32 entry_size; if (fvx_open(&file, path, FA_READ | FA_OPEN_EXISTING) != FR_OK) return 1; bdrifp = &file; if ((BDRIRead(0, sizeof(TickDBPreHeader), &pre_header) != FR_OK) || !CheckDBMagic((u8*) &pre_header, true) || (GetBDRIEntrySize(&(pre_header.fs_header), sizeof(TickDBPreHeader) - sizeof(BDRIFsHeader), title_id, &entry_size) != 0) || entry_size < sizeof(TicketEntry) + 0x14 || (te = (TicketEntry*)malloc(entry_size), te == NULL) || (ReadBDRIEntry(&(pre_header.fs_header), sizeof(TickDBPreHeader) - sizeof(BDRIFsHeader), title_id, (u8*) te, sizeof(TicketEntry)) != 0)) { free(te); // if allocated fvx_close(bdrifp); bdrifp = NULL; return 1; } fvx_close(bdrifp); bdrifp = NULL; if (te->ticket_size != GetTicketSize(&te->ticket)) { free(te); return 1; } if (ticket) { u32 size = te->ticket_size; memmove(te, &te->ticket, size); // recycle this memory, instead of allocating another Ticket* tik = realloc(te, size); if(!tik) tik = (Ticket*)te; *ticket = tik; return 0; } free(te); return 0; } u32 RemoveTitleInfoEntryFromDB(const char* path, const u8* title_id) { FIL file; TitleDBPreHeader pre_header; if (fvx_open(&file, path, FA_READ | FA_WRITE | FA_OPEN_EXISTING) != FR_OK) return 1; bdrifp = &file; if ((BDRIRead(0, sizeof(TitleDBPreHeader), &pre_header) != FR_OK) || !CheckDBMagic((u8*) &pre_header, false) || (RemoveBDRIEntry(&(pre_header.fs_header), sizeof(TitleDBPreHeader) - sizeof(BDRIFsHeader), title_id) != 0)) { fvx_close(bdrifp); bdrifp = NULL; return 1; } fvx_close(bdrifp); bdrifp = NULL; return 0; } u32 RemoveTicketFromDB(const char* path, const u8* title_id) { FIL file; TickDBPreHeader pre_header; if (fvx_open(&file, path, FA_READ | FA_WRITE | FA_OPEN_EXISTING) != FR_OK) return 1; bdrifp = &file; if ((BDRIRead(0, sizeof(TickDBPreHeader), &pre_header) != FR_OK) || !CheckDBMagic((u8*) &pre_header, true) || (RemoveBDRIEntry(&(pre_header.fs_header), sizeof(TickDBPreHeader) - sizeof(BDRIFsHeader), title_id) != 0)) { fvx_close(bdrifp); bdrifp = NULL; return 1; } fvx_close(&file); bdrifp = NULL; return 0; } u32 AddTitleInfoEntryToDB(const char* path, const u8* title_id, const TitleInfoEntry* tie, bool replace) { FIL file; TitleDBPreHeader pre_header; if (fvx_open(&file, path, FA_READ | FA_WRITE | FA_OPEN_EXISTING) != FR_OK) return 1; bdrifp = &file; if ((BDRIRead(0, sizeof(TitleDBPreHeader), &pre_header) != FR_OK) || !CheckDBMagic((u8*) &pre_header, false) || (AddBDRIEntry(&(pre_header.fs_header), sizeof(TitleDBPreHeader) - sizeof(BDRIFsHeader), title_id, (const u8*) tie, sizeof(TitleInfoEntry), replace) != 0)) { fvx_close(bdrifp); bdrifp = NULL; return 1; } fvx_close(bdrifp); bdrifp = NULL; return 0; } u32 AddTicketToDB(const char* path, const u8* title_id, const Ticket* ticket, bool replace) { FIL file; TickDBPreHeader pre_header; u32 entry_size = sizeof(TicketEntry) + GetTicketContentIndexSize(ticket); TicketEntry* te = (TicketEntry*)malloc(entry_size); if (!te) { return 1; } te->unknown = 1; te->ticket_size = GetTicketSize(ticket); memcpy(&te->ticket, ticket, te->ticket_size); if (fvx_open(&file, path, FA_READ | FA_WRITE | FA_OPEN_EXISTING) != FR_OK) { free(te); return 1; } bdrifp = &file; if ((BDRIRead(0, sizeof(TickDBPreHeader), &pre_header) != FR_OK) || !CheckDBMagic((u8*) &pre_header, true) || (AddBDRIEntry(&(pre_header.fs_header), sizeof(TickDBPreHeader) - sizeof(BDRIFsHeader), title_id, (const u8*) te, entry_size, replace) != 0)) { free(te); fvx_close(bdrifp); bdrifp = NULL; return 1; } free(te); fvx_close(bdrifp); bdrifp = NULL; return 0; }