#include #include #include #include #include "keys.h" #include "util.h" #include "ui.h" #include "rsa.h" #include "nso.h" /* Extern variables */ extern int breaks; extern int font_height; extern exefs_ctx_t exeFsContext; extern romfs_ctx_t romFsContext; extern bktr_ctx_t bktrContext; extern nca_keyset_t nca_keyset; extern u8 *ncaCtrBuf; bool encryptNcaHeader(nca_header_t *input, u8 *outBuf, u64 outBufSize) { if (!input || !outBuf || !outBufSize || outBufSize < NCA_FULL_HEADER_LENGTH || (__builtin_bswap32(input->magic) != NCA3_MAGIC && __builtin_bswap32(input->magic) != NCA2_MAGIC)) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid NCA header encryption parameters.", __func__); return false; } if (!loadNcaKeyset()) return false; u32 i; size_t crypt_res; Aes128XtsContext hdr_aes_ctx; u8 header_key_0[16]; u8 header_key_1[16]; memcpy(header_key_0, nca_keyset.header_key, 16); memcpy(header_key_1, nca_keyset.header_key + 16, 16); aes128XtsContextCreate(&hdr_aes_ctx, header_key_0, header_key_1, true); if (__builtin_bswap32(input->magic) == NCA3_MAGIC) { crypt_res = aes128XtsNintendoCrypt(&hdr_aes_ctx, outBuf, input, NCA_FULL_HEADER_LENGTH, 0, true); if (crypt_res != NCA_FULL_HEADER_LENGTH) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid output length for encrypted NCA header! (%u != %lu)", __func__, NCA_FULL_HEADER_LENGTH, crypt_res); return false; } } else if (__builtin_bswap32(input->magic) == NCA2_MAGIC) { crypt_res = aes128XtsNintendoCrypt(&hdr_aes_ctx, outBuf, input, NCA_HEADER_LENGTH, 0, true); if (crypt_res != NCA_HEADER_LENGTH) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid output length for encrypted NCA header! (%u != %lu)", __func__, NCA_HEADER_LENGTH, crypt_res); return false; } for(i = 0; i < NCA_SECTION_HEADER_CNT; i++) { crypt_res = aes128XtsNintendoCrypt(&hdr_aes_ctx, outBuf + NCA_HEADER_LENGTH + (i * NCA_SECTION_HEADER_LENGTH), &(input->fs_headers[i]), NCA_SECTION_HEADER_LENGTH, 0, true); if (crypt_res != NCA_SECTION_HEADER_LENGTH) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid output length for encrypted NCA header section #%u! (%u != %lu)", __func__, i, NCA_SECTION_HEADER_LENGTH, crypt_res); return false; } } } else { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid decrypted NCA magic word! (0x%08X)", __func__, __builtin_bswap32(input->magic)); return false; } return true; } bool decryptNcaHeader(const u8 *ncaBuf, u64 ncaBufSize, nca_header_t *out, title_rights_ctx *rights_info, u8 *decrypted_nca_keys, bool retrieveTitleKeyData) { if (!ncaBuf || !ncaBufSize || ncaBufSize < NCA_FULL_HEADER_LENGTH || !out || !decrypted_nca_keys) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid NCA header decryption parameters!", __func__); return false; } if (!loadNcaKeyset()) return false; int ret; u32 i; size_t crypt_res; Aes128XtsContext hdr_aes_ctx; u8 header_key_0[16]; u8 header_key_1[16]; bool has_rights_id = false; memcpy(header_key_0, nca_keyset.header_key, 16); memcpy(header_key_1, nca_keyset.header_key + 16, 16); aes128XtsContextCreate(&hdr_aes_ctx, header_key_0, header_key_1, false); crypt_res = aes128XtsNintendoCrypt(&hdr_aes_ctx, out, ncaBuf, NCA_HEADER_LENGTH, 0, false); if (crypt_res != NCA_HEADER_LENGTH) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid output length for decrypted NCA header! (%u != %lu)", __func__, NCA_HEADER_LENGTH, crypt_res); return false; } if (__builtin_bswap32(out->magic) == NCA3_MAGIC) { crypt_res = aes128XtsNintendoCrypt(&hdr_aes_ctx, out, ncaBuf, NCA_FULL_HEADER_LENGTH, 0, false); if (crypt_res != NCA_FULL_HEADER_LENGTH) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid output length for decrypted NCA header! (%u != %lu)", __func__, NCA_FULL_HEADER_LENGTH, crypt_res); return false; } } else if (__builtin_bswap32(out->magic) == NCA2_MAGIC) { for(i = 0; i < NCA_SECTION_HEADER_CNT; i++) { if (out->fs_headers[i]._0x148[0] != 0 || memcmp(out->fs_headers[i]._0x148, out->fs_headers[i]._0x148 + 1, 0xB7)) { crypt_res = aes128XtsNintendoCrypt(&hdr_aes_ctx, &(out->fs_headers[i]), ncaBuf + NCA_HEADER_LENGTH + (i * NCA_SECTION_HEADER_LENGTH), NCA_SECTION_HEADER_LENGTH, 0, false); if (crypt_res != NCA_SECTION_HEADER_LENGTH) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid output length for decrypted NCA header section #%u! (%u != %lu)", __func__, i, NCA_SECTION_HEADER_LENGTH, crypt_res); return false; } } else { memset(&(out->fs_headers[i]), 0, sizeof(nca_fs_header_t)); } } } else { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid NCA magic word! Wrong header key? (0x%08X)\nTry running Lockpick_RCM to generate the keys file from scratch.", __func__, __builtin_bswap32(out->magic)); return false; } for(i = 0; i < 0x10; i++) { if (out->rights_id[i] != 0) { has_rights_id = true; break; } } if (has_rights_id) { if (rights_info != NULL) { // If we're dealing with a rights info context, retrieve the ticket for the current title if (!rights_info->has_rights_id) { rights_info->has_rights_id = true; memcpy(rights_info->rights_id, out->rights_id, 16); convertDataToHexString(out->rights_id, 16, rights_info->rights_id_str, 33); sprintf(rights_info->tik_filename, "%s.tik", rights_info->rights_id_str); sprintf(rights_info->cert_filename, "%s.cert", rights_info->rights_id_str); if (retrieveTitleKeyData) { ret = retrieveNcaTikTitleKey(out, (u8*)(&(rights_info->tik_data)), rights_info->enc_titlekey, rights_info->dec_titlekey); if (ret >= 0) { memset(decrypted_nca_keys, 0, NCA_KEY_AREA_SIZE); memcpy(decrypted_nca_keys + (NCA_KEY_AREA_KEY_SIZE * 2), rights_info->dec_titlekey, 0x10); rights_info->retrieved_tik = true; } else { if (ret == -2) { // We are probably dealing with a pre-installed title // Let's enable our missing ticket flag - we'll use it to display a prompt asking the user if they want to proceed anyway rights_info->missing_tik = true; } else { return false; } } } } else { // Copy what we already have if (retrieveTitleKeyData && rights_info->retrieved_tik) { memset(decrypted_nca_keys, 0, NCA_KEY_AREA_SIZE); memcpy(decrypted_nca_keys + (NCA_KEY_AREA_KEY_SIZE * 2), rights_info->dec_titlekey, 0x10); } } } else { // Otherwise, only retrieve the decrypted titlekey. This is used with ExeFS/RomFS section parsing for SD/eMMC titles if (retrieveTitleKeyData) { u8 tmp_dec_titlekey[0x10]; if (retrieveNcaTikTitleKey(out, NULL, NULL, tmp_dec_titlekey) < 0) return false; memset(decrypted_nca_keys, 0, NCA_KEY_AREA_SIZE); memcpy(decrypted_nca_keys + (NCA_KEY_AREA_KEY_SIZE * 2), tmp_dec_titlekey, 0x10); } } } else { if (!decryptNcaKeyArea(out, decrypted_nca_keys)) return false; } return true; } bool retrieveTitleKeyFromGameCardTicket(title_rights_ctx *rights_info, u8 *decrypted_nca_keys) { if (!rights_info || !rights_info->has_rights_id || !strlen(rights_info->tik_filename) || !decrypted_nca_keys) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid parameters to retrieve titlekey from gamecard ticket!", __func__); return false; } // Check if the ticket has already been retrieved from the HFS0 partition in the gamecard if (rights_info->retrieved_tik) { // Save the decrypted NCA key area keys memset(decrypted_nca_keys, 0, NCA_KEY_AREA_SIZE); memcpy(decrypted_nca_keys + (NCA_KEY_AREA_KEY_SIZE * 2), rights_info->dec_titlekey, 0x10); return true; } // Load external keys if (!loadExternalKeys()) return false; // Retrieve ticket if (!readFileFromSecureHfs0PartitionByName(rights_info->tik_filename, 0, &(rights_info->tik_data), ETICKET_TIK_FILE_SIZE)) return false; // Save encrypted titlekey memcpy(rights_info->enc_titlekey, rights_info->tik_data.titlekey_block, 0x10); // Decrypt titlekey u8 crypto_type = rights_info->rights_id[0x0F]; if (crypto_type) crypto_type--; if (crypto_type >= 0x20) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid NCA keyblob index.", __func__); return false; } Aes128Context titlekey_aes_ctx; aes128ContextCreate(&titlekey_aes_ctx, nca_keyset.titlekeks[crypto_type], false); aes128DecryptBlock(&titlekey_aes_ctx, rights_info->dec_titlekey, rights_info->enc_titlekey); // Update retrieved ticket flag rights_info->retrieved_tik = true; // Save the decrypted NCA key area keys memset(decrypted_nca_keys, 0, NCA_KEY_AREA_SIZE); memcpy(decrypted_nca_keys + (NCA_KEY_AREA_KEY_SIZE * 2), rights_info->dec_titlekey, 0x10); return true; } bool processProgramNca(NcmContentStorage *ncmStorage, const NcmContentId *ncaId, nca_header_t *dec_nca_header, cnmt_xml_content_info *xml_content_info, nca_program_mod_data **output, u32 *cur_mod_cnt, u32 idx) { if (!ncmStorage || !ncaId || !dec_nca_header || !xml_content_info || !output || !cur_mod_cnt) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid parameters to process Program NCA!", __func__); return false; } if (dec_nca_header->fs_headers[0].partition_type != NCA_FS_HEADER_PARTITION_PFS0 || dec_nca_header->fs_headers[0].fs_type != NCA_FS_HEADER_FSTYPE_PFS0) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: Program NCA section #0 doesn't hold a PFS0 partition!", __func__); return false; } if (!dec_nca_header->fs_headers[0].pfs0_superblock.pfs0_size) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid size for PFS0 partition in Program NCA section #0!", __func__); return false; } if (dec_nca_header->fs_headers[0].crypt_type != NCA_FS_HEADER_CRYPT_CTR) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid AES crypt type for Program NCA section #0! (0x%02X)", __func__, dec_nca_header->fs_headers[0].crypt_type); return false; } u32 i; u64 section_offset; u64 hash_table_offset; u64 nca_pfs0_offset; pfs0_header nca_pfs0_header; pfs0_file_entry *nca_pfs0_entries = NULL; u64 nca_pfs0_data_offset; npdm_t npdm_header; bool found_meta = false; u64 meta_offset; u64 acid_pubkey_offset; u64 block_hash_table_offset; u64 block_hash_table_end_offset; u64 block_start_offset[2] = { 0, 0 }; u64 block_size[2] = { 0, 0 }; u8 block_hash[2][SHA256_HASH_SIZE]; u8 *block_data[2] = { NULL, NULL }; u64 sig_write_size[2] = { 0, 0 }; u8 *hash_table = NULL; Aes128CtrContext aes_ctx; section_offset = ((u64)dec_nca_header->section_entries[0].media_start_offset * (u64)MEDIA_UNIT_SIZE); hash_table_offset = (section_offset + dec_nca_header->fs_headers[0].pfs0_superblock.hash_table_offset); nca_pfs0_offset = (section_offset + dec_nca_header->fs_headers[0].pfs0_superblock.pfs0_offset); if (!section_offset || section_offset < NCA_FULL_HEADER_LENGTH || !hash_table_offset || hash_table_offset < section_offset || !nca_pfs0_offset || nca_pfs0_offset <= hash_table_offset) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid offsets for Program NCA section #0!", __func__); return false; } // Generate initial CTR unsigned char ctr[0x10]; u64 ofs = (section_offset >> 4); for(i = 0; i < 0x8; i++) { ctr[i] = dec_nca_header->fs_headers[0].section_ctr[0x08 - i - 1]; ctr[0x10 - i - 1] = (unsigned char)(ofs & 0xFF); ofs >>= 8; } u8 ctr_key[NCA_KEY_AREA_KEY_SIZE]; memcpy(ctr_key, xml_content_info->decrypted_nca_keys + (NCA_KEY_AREA_KEY_SIZE * 2), NCA_KEY_AREA_KEY_SIZE); aes128CtrContextCreate(&aes_ctx, ctr_key, ctr); if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, nca_pfs0_offset, &nca_pfs0_header, sizeof(pfs0_header), false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read Program NCA section #0 PFS0 partition header!", __func__); return false; } if (__builtin_bswap32(nca_pfs0_header.magic) != PFS0_MAGIC) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid magic word for Program NCA section #0 PFS0 partition! Wrong KAEK? (0x%08X)\nTry running Lockpick_RCM to generate the keys file from scratch.", __func__, __builtin_bswap32(nca_pfs0_header.magic)); return false; } if (!nca_pfs0_header.file_cnt || !nca_pfs0_header.str_table_size) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: Program NCA section #0 PFS0 partition is empty! Wrong KAEK?\nTry running Lockpick_RCM to generate the keys file from scratch.", __func__); return false; } nca_pfs0_entries = calloc(nca_pfs0_header.file_cnt, sizeof(pfs0_file_entry)); if (!nca_pfs0_entries) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to allocate memory for Program NCA section #0 PFS0 partition entries!", __func__); return false; } if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, nca_pfs0_offset + sizeof(pfs0_header), nca_pfs0_entries, (u64)nca_pfs0_header.file_cnt * sizeof(pfs0_file_entry), false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read Program NCA section #0 PFS0 partition entries!", __func__); free(nca_pfs0_entries); return false; } nca_pfs0_data_offset = (nca_pfs0_offset + sizeof(pfs0_header) + ((u64)nca_pfs0_header.file_cnt * sizeof(pfs0_file_entry)) + (u64)nca_pfs0_header.str_table_size); // Looking for META magic for(i = 0; i < nca_pfs0_header.file_cnt; i++) { u64 nca_pfs0_cur_file_offset = (nca_pfs0_data_offset + nca_pfs0_entries[i].file_offset); // Read and decrypt NPDM header if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, nca_pfs0_cur_file_offset, &npdm_header, sizeof(npdm_t), false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read Program NCA section #0 PFS0 entry #%u!", __func__, i); free(nca_pfs0_entries); return false; } if (__builtin_bswap32(npdm_header.magic) == META_MAGIC) { found_meta = true; meta_offset = nca_pfs0_cur_file_offset; acid_pubkey_offset = (meta_offset + (u64)npdm_header.acid_offset + (u64)NPDM_SIGNATURE_SIZE); break; } } free(nca_pfs0_entries); if (!found_meta) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to find NPDM entry in Program NCA section #0 PFS0 partition!", __func__); return false; } // Calculate block offsets block_hash_table_offset = (hash_table_offset + (((acid_pubkey_offset - nca_pfs0_offset) / (u64)dec_nca_header->fs_headers[0].pfs0_superblock.block_size)) * (u64)SHA256_HASH_SIZE); block_hash_table_end_offset = (hash_table_offset + (((acid_pubkey_offset + (u64)NPDM_SIGNATURE_SIZE - nca_pfs0_offset) / (u64)dec_nca_header->fs_headers[0].pfs0_superblock.block_size) * (u64)SHA256_HASH_SIZE)); block_start_offset[0] = (nca_pfs0_offset + (((acid_pubkey_offset - nca_pfs0_offset) / (u64)dec_nca_header->fs_headers[0].pfs0_superblock.block_size) * (u64)dec_nca_header->fs_headers[0].pfs0_superblock.block_size)); // Make sure our block doesn't pass PFS0 end offset if ((block_start_offset[0] - nca_pfs0_offset + dec_nca_header->fs_headers[0].pfs0_superblock.block_size) > dec_nca_header->fs_headers[0].pfs0_superblock.pfs0_size) { block_size[0] = (dec_nca_header->fs_headers[0].pfs0_superblock.pfs0_size - (block_start_offset[0] - nca_pfs0_offset)); } else { block_size[0] = (u64)dec_nca_header->fs_headers[0].pfs0_superblock.block_size; } block_data[0] = malloc(block_size[0]); if (!block_data[0]) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to allocate memory for Program NCA section #0 PFS0 NPDM block 0!", __func__); return false; } // Read and decrypt block if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, block_start_offset[0], block_data[0], block_size[0], false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read Program NCA section #0 PFS0 NPDM block 0!", __func__); free(block_data[0]); return false; } // Make sure that 1 block will cover all patched bytes, otherwise we'll have to recalculate another hash block if (block_hash_table_offset != block_hash_table_end_offset) { sig_write_size[1] = (acid_pubkey_offset - block_start_offset[0] + (u64)NPDM_SIGNATURE_SIZE - block_size[0]); sig_write_size[0] = ((u64)NPDM_SIGNATURE_SIZE - sig_write_size[1]); } else { sig_write_size[0] = (u64)NPDM_SIGNATURE_SIZE; } // Patch ACID public key changing it to a self-generated pubkey memcpy(block_data[0] + (acid_pubkey_offset - block_start_offset[0]), rsa_get_public_key(), sig_write_size[0]); // Calculate new block hash sha256CalculateHash(block_hash[0], block_data[0], block_size[0]); if (block_hash_table_offset != block_hash_table_end_offset) { block_start_offset[1] = (nca_pfs0_offset + (((acid_pubkey_offset + (u64)NPDM_SIGNATURE_SIZE - nca_pfs0_offset) / (u64)dec_nca_header->fs_headers[0].pfs0_superblock.block_size) * (u64)dec_nca_header->fs_headers[0].pfs0_superblock.block_size)); if ((block_start_offset[1] - nca_pfs0_offset + dec_nca_header->fs_headers[0].pfs0_superblock.block_size) > dec_nca_header->fs_headers[0].pfs0_superblock.pfs0_size) { block_size[1] = (dec_nca_header->fs_headers[0].pfs0_superblock.pfs0_size - (block_start_offset[1] - nca_pfs0_offset)); } else { block_size[1] = (u64)dec_nca_header->fs_headers[0].pfs0_superblock.block_size; } block_data[1] = malloc(block_size[1]); if (!block_data[1]) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to allocate memory for Program NCA section #0 PFS0 NPDM block 1!", __func__); free(block_data[0]); return false; } if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, block_start_offset[1], block_data[1], block_size[1], false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read Program NCA section #0 PFS0 NPDM block 1!", __func__); free(block_data[0]); free(block_data[1]); return false; } memcpy(block_data[1], rsa_get_public_key() + sig_write_size[0], sig_write_size[1]); sha256CalculateHash(block_hash[1], block_data[1], block_size[1]); } hash_table = malloc(dec_nca_header->fs_headers[0].pfs0_superblock.hash_table_size); if (!hash_table) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to allocate memory for Program NCA section #0 PFS0 hash table!", __func__); free(block_data[0]); if (block_data[1]) free(block_data[1]); return false; } if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, hash_table_offset, hash_table, dec_nca_header->fs_headers[0].pfs0_superblock.hash_table_size, false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read Program NCA section #0 PFS0 hash table!", __func__); free(block_data[0]); if (block_data[1]) free(block_data[1]); free(hash_table); return false; } // Update block hashes memcpy(hash_table + (block_hash_table_offset - hash_table_offset), block_hash[0], SHA256_HASH_SIZE); if (block_hash_table_offset != block_hash_table_end_offset) memcpy(hash_table + (block_hash_table_end_offset - hash_table_offset), block_hash[1], SHA256_HASH_SIZE); // Calculate PFS0 superblock master hash sha256CalculateHash(dec_nca_header->fs_headers[0].pfs0_superblock.master_hash, hash_table, dec_nca_header->fs_headers[0].pfs0_superblock.hash_table_size); // Calculate section hash sha256CalculateHash(dec_nca_header->section_hashes[0], &(dec_nca_header->fs_headers[0]), sizeof(nca_fs_header_t)); // Recreate NPDM signature if (!rsa_sign(&(dec_nca_header->magic), NPDM_SIGNATURE_AREA_SIZE, dec_nca_header->npdm_key_sig, NPDM_SIGNATURE_SIZE)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to recreate Program NCA NPDM signature!", __func__); free(block_data[0]); if (block_data[1]) free(block_data[1]); free(hash_table); return false; } // Reencrypt relevant data blocks if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, block_start_offset[0], block_data[0], block_size[0], true)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to encrypt Program NCA section #0 PFS0 NPDM block 0!", __func__); free(block_data[0]); if (block_data[1]) free(block_data[1]); free(hash_table); return false; } if (block_hash_table_offset != block_hash_table_end_offset) { if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, block_start_offset[1], block_data[1], block_size[1], true)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to encrypt Program NCA section #0 PFS0 NPDM block 1!", __func__); free(block_data[0]); free(block_data[1]); free(hash_table); return false; } } if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, hash_table_offset, hash_table, dec_nca_header->fs_headers[0].pfs0_superblock.hash_table_size, true)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to encrypt Program NCA section #0 PFS0 hash table!", __func__); free(block_data[0]); if (block_data[1]) free(block_data[1]); free(hash_table); return false; } // Save data to the output struct so we can write it later // The caller function must free these data pointers nca_program_mod_data *tmp_mod_data = realloc(*output, (*cur_mod_cnt + 1) * sizeof(nca_program_mod_data)); if (!tmp_mod_data) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to reallocate Program NCA mod data buffer!", __func__); free(block_data[0]); if (block_data[1]) free(block_data[1]); free(hash_table); return false; } memset(&(tmp_mod_data[*cur_mod_cnt]), 0, sizeof(nca_program_mod_data)); tmp_mod_data[*cur_mod_cnt].nca_index = idx; tmp_mod_data[*cur_mod_cnt].hash_table = hash_table; tmp_mod_data[*cur_mod_cnt].hash_table_offset = hash_table_offset; tmp_mod_data[*cur_mod_cnt].hash_table_size = dec_nca_header->fs_headers[0].pfs0_superblock.hash_table_size; tmp_mod_data[*cur_mod_cnt].block_mod_cnt = (block_hash_table_offset != block_hash_table_end_offset ? 2 : 1); tmp_mod_data[*cur_mod_cnt].block_data[0] = block_data[0]; tmp_mod_data[*cur_mod_cnt].block_offset[0] = block_start_offset[0]; tmp_mod_data[*cur_mod_cnt].block_size[0] = block_size[0]; if (block_hash_table_offset != block_hash_table_end_offset) { tmp_mod_data[*cur_mod_cnt].block_data[1] = block_data[1]; tmp_mod_data[*cur_mod_cnt].block_offset[1] = block_start_offset[1]; tmp_mod_data[*cur_mod_cnt].block_size[1] = block_size[1]; } *output = tmp_mod_data; tmp_mod_data = NULL; *cur_mod_cnt += 1; return true; } bool retrieveCnmtNcaData(NcmStorageId curStorageId, u8 *ncaBuf, cnmt_xml_program_info *xml_program_info, cnmt_xml_content_info *xml_content_info, u32 cnmtNcaIndex, nca_cnmt_mod_data *output, title_rights_ctx *rights_info) { if (!ncaBuf || !xml_program_info || !xml_content_info || !output || !rights_info) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid parameters to retrieve CNMT NCA!", __func__); return false; } nca_header_t dec_header; u32 i, j, k = 0; u64 section_offset; u64 section_size; u8 *section_data = NULL; Aes128CtrContext aes_ctx; u64 nca_pfs0_offset; u64 nca_pfs0_str_table_offset; u64 nca_pfs0_data_offset; pfs0_header nca_pfs0_header; pfs0_file_entry *nca_pfs0_entries = NULL; bool found_cnmt = false; u64 title_cnmt_offset; u64 title_cnmt_size; cnmt_header title_cnmt_header; cnmt_extended_header title_cnmt_extended_header; u64 digest_offset; // Generate filename for our required CNMT file char cnmtFileName[50] = {'\0'}; snprintf(cnmtFileName, MAX_CHARACTERS(cnmtFileName), "%s_%016lx.cnmt", getTitleType(xml_program_info->type), xml_program_info->title_id); // Decrypt the NCA header // Don't retrieve the ticket and/or titlekey if we're dealing with a Patch with titlekey crypto bundled with the inserted gamecard if (!decryptNcaHeader(ncaBuf, xml_content_info[cnmtNcaIndex].size, &dec_header, rights_info, xml_content_info[cnmtNcaIndex].decrypted_nca_keys, (curStorageId != NcmStorageId_GameCard))) return false; if (dec_header.fs_headers[0].partition_type != NCA_FS_HEADER_PARTITION_PFS0 || dec_header.fs_headers[0].fs_type != NCA_FS_HEADER_FSTYPE_PFS0) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: CNMT NCA section #0 doesn't hold a PFS0 partition!", __func__); return false; } if (!dec_header.fs_headers[0].pfs0_superblock.pfs0_size) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid size for PFS0 partition in CNMT NCA section #0!", __func__); return false; } if (dec_header.fs_headers[0].crypt_type != NCA_FS_HEADER_CRYPT_CTR) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid AES crypt type for CNMT NCA section #0! (0x%02X)", __func__, dec_header.fs_headers[0].crypt_type); return false; } bool has_rights_id = false; for(i = 0; i < 0x10; i++) { if (dec_header.rights_id[i] != 0) { has_rights_id = true; break; } } // CNMT NCAs never use titlekey crypto if (has_rights_id) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: Rights ID field in CNMT NCA header not empty!", __func__); return false; } // Modify distribution type if (curStorageId == NcmStorageId_GameCard) dec_header.distribution = 0; section_offset = ((u64)dec_header.section_entries[0].media_start_offset * (u64)MEDIA_UNIT_SIZE); section_size = (((u64)dec_header.section_entries[0].media_end_offset * (u64)MEDIA_UNIT_SIZE) - section_offset); if (!section_offset || section_offset < NCA_FULL_HEADER_LENGTH || !section_size) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid offset/size for CNMT NCA section #0!", __func__); return false; } // Generate initial CTR unsigned char ctr[0x10]; u64 ofs = (section_offset >> 4); for(i = 0; i < 0x8; i++) { ctr[i] = dec_header.fs_headers[0].section_ctr[0x08 - i - 1]; ctr[0x10 - i - 1] = (unsigned char)(ofs & 0xFF); ofs >>= 8; } u8 ctr_key[NCA_KEY_AREA_KEY_SIZE]; memcpy(ctr_key, xml_content_info[cnmtNcaIndex].decrypted_nca_keys + (NCA_KEY_AREA_KEY_SIZE * 2), NCA_KEY_AREA_KEY_SIZE); aes128CtrContextCreate(&aes_ctx, ctr_key, ctr); section_data = malloc(section_size); if (!section_data) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to allocate memory for the decrypted CNMT NCA section #0!", __func__); return false; } aes128CtrCrypt(&aes_ctx, section_data, ncaBuf + section_offset, section_size); nca_pfs0_offset = dec_header.fs_headers[0].pfs0_superblock.pfs0_offset; memcpy(&nca_pfs0_header, section_data + nca_pfs0_offset, sizeof(pfs0_header)); if (__builtin_bswap32(nca_pfs0_header.magic) != PFS0_MAGIC) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid magic word for CNMT NCA section #0 PFS0 partition! Wrong KAEK? (0x%08X)\nTry running Lockpick_RCM to generate the keys file from scratch.", __func__, __builtin_bswap32(nca_pfs0_header.magic)); free(section_data); return false; } if (!nca_pfs0_header.file_cnt || !nca_pfs0_header.str_table_size) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: CNMT NCA section #0 PFS0 partition is empty! Wrong KAEK?\nTry running Lockpick_RCM to generate the keys file from scratch.", __func__); free(section_data); return false; } nca_pfs0_entries = calloc(nca_pfs0_header.file_cnt, sizeof(pfs0_file_entry)); if (!nca_pfs0_entries) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to allocate memory for CNMT NCA section #0 PFS0 partition entries!", __func__); free(section_data); return false; } memcpy(nca_pfs0_entries, section_data + nca_pfs0_offset + sizeof(pfs0_header), (u64)nca_pfs0_header.file_cnt * sizeof(pfs0_file_entry)); nca_pfs0_str_table_offset = (nca_pfs0_offset + sizeof(pfs0_header) + ((u64)nca_pfs0_header.file_cnt * sizeof(pfs0_file_entry))); nca_pfs0_data_offset = (nca_pfs0_str_table_offset + (u64)nca_pfs0_header.str_table_size); // Look for the CNMT for(i = 0; i < nca_pfs0_header.file_cnt; i++) { u64 filename_offset = (nca_pfs0_str_table_offset + nca_pfs0_entries[i].filename_offset); if (!strncasecmp((char*)section_data + filename_offset, cnmtFileName, strlen(cnmtFileName))) { found_cnmt = true; title_cnmt_offset = (nca_pfs0_data_offset + nca_pfs0_entries[i].file_offset); title_cnmt_size = nca_pfs0_entries[i].file_size; break; } } free(nca_pfs0_entries); if (!found_cnmt) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to find file \"%s\" in PFS0 partition from CNMT NCA section #0!", __func__, cnmtFileName); free(section_data); return false; } memcpy(&title_cnmt_header, section_data + title_cnmt_offset, sizeof(cnmt_header)); memcpy(&title_cnmt_extended_header, section_data + title_cnmt_offset + sizeof(cnmt_header), sizeof(cnmt_extended_header)); // Fill information for our CNMT XML digest_offset = (title_cnmt_offset + title_cnmt_size - (u64)SHA256_HASH_SIZE); memcpy(xml_program_info->digest, section_data + digest_offset, SHA256_HASH_SIZE); convertDataToHexString(xml_program_info->digest, SHA256_HASH_SIZE, xml_program_info->digest_str, (SHA256_HASH_SIZE * 2) + 1); xml_content_info[cnmtNcaIndex].keyblob = (dec_header.crypto_type2 > dec_header.crypto_type ? dec_header.crypto_type2 : dec_header.crypto_type); xml_program_info->required_dl_sysver = title_cnmt_header.required_dl_sysver; xml_program_info->min_keyblob = (rights_info->has_rights_id ? rights_info->rights_id[15] : xml_content_info[cnmtNcaIndex].keyblob); xml_program_info->min_sysver = title_cnmt_extended_header.min_sysver; xml_program_info->patch_tid = title_cnmt_extended_header.patch_tid; xml_program_info->min_appver = title_cnmt_extended_header.min_appver; // Retrieve the ID offset and content record offset for each of our NCAs (except the CNMT NCA) // Also wipe each of the content records we're gonna replace for(i = 0; i < (xml_program_info->nca_cnt - 1); i++) // Discard CNMT NCA { for(j = 0; j < title_cnmt_header.content_cnt; j++) { cnmt_content_record cnt_record; memcpy(&cnt_record, section_data + title_cnmt_offset + sizeof(cnmt_header) + (u64)title_cnmt_header.extended_header_size + (j * sizeof(cnmt_content_record)), sizeof(cnmt_content_record)); if (memcmp(xml_content_info[i].nca_id, cnt_record.nca_id, SHA256_HASH_SIZE / 2) != 0) continue; // Save content record offset xml_content_info[i].cnt_record_offset = (j * sizeof(cnmt_content_record)); // Empty CNMT content record memset(section_data + title_cnmt_offset + sizeof(cnmt_header) + (u64)title_cnmt_header.extended_header_size + (j * sizeof(cnmt_content_record)), 0, sizeof(cnmt_content_record)); // Increase counter k++; break; } } // Verify counter if (k != (xml_program_info->nca_cnt - 1)) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid content record entries in the CNMT NCA!", __func__); free(section_data); return false; } // Replace input buffer data in-place memcpy(ncaBuf, &dec_header, NCA_FULL_HEADER_LENGTH); memcpy(ncaBuf + section_offset, section_data, section_size); free(section_data); // Update offsets nca_pfs0_offset += section_offset; title_cnmt_offset += section_offset; // Save data to output struct output->section_offset = section_offset; output->section_size = section_size; output->hash_table_offset = (section_offset + dec_header.fs_headers[0].pfs0_superblock.hash_table_offset); output->hash_block_size = dec_header.fs_headers[0].pfs0_superblock.block_size; output->hash_block_cnt = (dec_header.fs_headers[0].pfs0_superblock.hash_table_size / SHA256_HASH_SIZE); output->pfs0_offset = nca_pfs0_offset; output->pfs0_size = dec_header.fs_headers[0].pfs0_superblock.pfs0_size; output->title_cnmt_offset = title_cnmt_offset; output->title_cnmt_size = title_cnmt_size; return true; } bool patchCnmtNca(u8 *ncaBuf, u64 ncaBufSize, cnmt_xml_program_info *xml_program_info, cnmt_xml_content_info *xml_content_info, nca_cnmt_mod_data *cnmt_mod) { if (!ncaBuf || !ncaBufSize || !xml_program_info || xml_program_info->nca_cnt <= 1 || !xml_content_info || !cnmt_mod) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid parameters to patch CNMT NCA!", __func__); return false; } u32 i; u32 nca_cnt = (xml_program_info->nca_cnt - 1); // Discard CNMT NCA cnmt_header title_cnmt_header; cnmt_content_record title_cnmt_content_record; u64 title_cnmt_content_records_offset; nca_header_t dec_header; Aes128CtrContext aes_ctx; // Copy CNMT header memcpy(&title_cnmt_header, ncaBuf + cnmt_mod->title_cnmt_offset, sizeof(cnmt_header)); // Calculate the start offset for the content records title_cnmt_content_records_offset = (cnmt_mod->title_cnmt_offset + sizeof(cnmt_header) + (u64)title_cnmt_header.extended_header_size); // Write content records for(i = 0; i < nca_cnt; i++) { memset(&title_cnmt_content_record, 0, sizeof(cnmt_content_record)); memcpy(title_cnmt_content_record.hash, xml_content_info[i].hash, SHA256_HASH_SIZE); memcpy(title_cnmt_content_record.nca_id, xml_content_info[i].nca_id, SHA256_HASH_SIZE / 2); convertU64ToNcaSize(xml_content_info[i].size, title_cnmt_content_record.size); title_cnmt_content_record.type = xml_content_info[i].type; title_cnmt_content_record.id_offset = xml_content_info[i].id_offset; memcpy(ncaBuf + title_cnmt_content_records_offset + xml_content_info[i].cnt_record_offset, &title_cnmt_content_record, sizeof(cnmt_content_record)); } // Recalculate block hashes for(i = 0; i < cnmt_mod->hash_block_cnt; i++) { u64 blk_offset = ((u64)i * cnmt_mod->hash_block_size); u64 rest_size = (cnmt_mod->pfs0_size - blk_offset); u64 blk_size = (rest_size > cnmt_mod->hash_block_size ? cnmt_mod->hash_block_size : rest_size); sha256CalculateHash(ncaBuf + cnmt_mod->hash_table_offset + (i * SHA256_HASH_SIZE), ncaBuf + cnmt_mod->pfs0_offset + blk_offset, blk_size); } // Copy header to struct memcpy(&dec_header, ncaBuf, sizeof(nca_header_t)); // Calculate PFS0 superblock master hash sha256CalculateHash(dec_header.fs_headers[0].pfs0_superblock.master_hash, ncaBuf + cnmt_mod->hash_table_offset, dec_header.fs_headers[0].pfs0_superblock.hash_table_size); // Calculate section hash sha256CalculateHash(dec_header.section_hashes[0], &(dec_header.fs_headers[0]), sizeof(nca_fs_header_t)); // Generate initial CTR unsigned char ctr[0x10]; u64 ofs = (cnmt_mod->section_offset >> 4); for(i = 0; i < 0x8; i++) { ctr[i] = dec_header.fs_headers[0].section_ctr[0x08 - i - 1]; ctr[0x10 - i - 1] = (unsigned char)(ofs & 0xFF); ofs >>= 8; } u8 ctr_key[NCA_KEY_AREA_KEY_SIZE]; memcpy(ctr_key, xml_content_info[xml_program_info->nca_cnt - 1].decrypted_nca_keys + (NCA_KEY_AREA_KEY_SIZE * 2), NCA_KEY_AREA_KEY_SIZE); aes128CtrContextCreate(&aes_ctx, ctr_key, ctr); // Reencrypt CNMT NCA if (!encryptNcaHeader(&dec_header, ncaBuf, ncaBufSize)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to encrypt modified CNMT NCA header!", __func__); return false; } aes128CtrCrypt(&aes_ctx, ncaBuf + cnmt_mod->section_offset, ncaBuf + cnmt_mod->section_offset, cnmt_mod->section_size); // Calculate CNMT NCA SHA-256 checksum and fill information for our CNMT XML sha256CalculateHash(xml_content_info[xml_program_info->nca_cnt - 1].hash, ncaBuf, ncaBufSize); convertDataToHexString(xml_content_info[xml_program_info->nca_cnt - 1].hash, SHA256_HASH_SIZE, xml_content_info[xml_program_info->nca_cnt - 1].hash_str, (SHA256_HASH_SIZE * 2) + 1); memcpy(xml_content_info[xml_program_info->nca_cnt - 1].nca_id, xml_content_info[xml_program_info->nca_cnt - 1].hash, SHA256_HASH_SIZE / 2); convertDataToHexString(xml_content_info[xml_program_info->nca_cnt - 1].nca_id, SHA256_HASH_SIZE / 2, xml_content_info[xml_program_info->nca_cnt - 1].nca_id_str, SHA256_HASH_SIZE + 1); return true; } bool generateProgramInfoXml(NcmContentStorage *ncmStorage, const NcmContentId *ncaId, nca_header_t *dec_nca_header, u8 *decrypted_nca_keys, bool useCustomAcidRsaPubKey, char **outBuf, u64 *outBufSize) { if (!ncmStorage || !ncaId || !dec_nca_header || !decrypted_nca_keys || !outBuf || !outBufSize) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid parameters to generate \"programinfo.xml\"!", __func__); return false; } if (dec_nca_header->fs_headers[0].partition_type != NCA_FS_HEADER_PARTITION_PFS0 || dec_nca_header->fs_headers[0].fs_type != NCA_FS_HEADER_FSTYPE_PFS0) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: Program NCA section #0 doesn't hold a PFS0 partition!", __func__); return false; } if (!dec_nca_header->fs_headers[0].pfs0_superblock.pfs0_size) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid size for PFS0 partition in Program NCA section #0!", __func__); return false; } if (dec_nca_header->fs_headers[0].crypt_type != NCA_FS_HEADER_CRYPT_CTR) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid AES crypt type for Program NCA section #0! (0x%02X)", __func__, dec_nca_header->fs_headers[0].crypt_type); return false; } u32 i; bool proceed = true, success = false; u64 section_offset; u64 nca_pfs0_offset; pfs0_header nca_pfs0_header; pfs0_file_entry *nca_pfs0_entries = NULL; char *nca_pfs0_str_table = NULL; u64 nca_pfs0_str_table_offset; u64 nca_pfs0_data_offset; Aes128CtrContext aes_ctx; char *programInfoXml = NULL; char tmp[NAME_BUF_LEN] = {'\0'}; u32 npdmEntry = 0; npdm_t npdm_header; u8 *npdm_acid_section = NULL; u64 npdm_acid_section_b64_size = 0; char *npdm_acid_section_b64 = NULL; u32 acid_flags = 0; section_offset = ((u64)dec_nca_header->section_entries[0].media_start_offset * (u64)MEDIA_UNIT_SIZE); nca_pfs0_offset = (section_offset + dec_nca_header->fs_headers[0].pfs0_superblock.pfs0_offset); if (!section_offset || section_offset < NCA_FULL_HEADER_LENGTH || !nca_pfs0_offset) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid offsets for Program NCA section #0!", __func__); return false; } // Generate initial CTR unsigned char ctr[0x10]; u64 ofs = (section_offset >> 4); for(i = 0; i < 0x8; i++) { ctr[i] = dec_nca_header->fs_headers[0].section_ctr[0x08 - i - 1]; ctr[0x10 - i - 1] = (unsigned char)(ofs & 0xFF); ofs >>= 8; } u8 ctr_key[NCA_KEY_AREA_KEY_SIZE]; memcpy(ctr_key, decrypted_nca_keys + (NCA_KEY_AREA_KEY_SIZE * 2), NCA_KEY_AREA_KEY_SIZE); aes128CtrContextCreate(&aes_ctx, ctr_key, ctr); if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, nca_pfs0_offset, &nca_pfs0_header, sizeof(pfs0_header), false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read Program NCA section #0 PFS0 partition header!", __func__); return false; } if (__builtin_bswap32(nca_pfs0_header.magic) != PFS0_MAGIC) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid magic word for Program NCA section #0 PFS0 partition! Wrong KAEK? (0x%08X)\nTry running Lockpick_RCM to generate the keys file from scratch.", __func__, __builtin_bswap32(nca_pfs0_header.magic)); return false; } if (!nca_pfs0_header.file_cnt || !nca_pfs0_header.str_table_size) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: Program NCA section #0 PFS0 partition is empty! Wrong KAEK?\nTry running Lockpick_RCM to generate the keys file from scratch.", __func__); return false; } nca_pfs0_entries = calloc(nca_pfs0_header.file_cnt, sizeof(pfs0_file_entry)); if (!nca_pfs0_entries) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to allocate memory for Program NCA section #0 PFS0 partition entries!", __func__); return false; } if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, nca_pfs0_offset + sizeof(pfs0_header), nca_pfs0_entries, (u64)nca_pfs0_header.file_cnt * sizeof(pfs0_file_entry), false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read Program NCA section #0 PFS0 partition entries!", __func__); goto out; } nca_pfs0_str_table_offset = (nca_pfs0_offset + sizeof(pfs0_header) + ((u64)nca_pfs0_header.file_cnt * sizeof(pfs0_file_entry))); nca_pfs0_str_table = calloc((u64)nca_pfs0_header.str_table_size, sizeof(char)); if (!nca_pfs0_str_table) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to allocate memory for Program NCA section #0 PFS0 string table!", __func__); goto out; } if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, nca_pfs0_str_table_offset, nca_pfs0_str_table, (u64)nca_pfs0_header.str_table_size, false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read Program NCA section #0 PFS0 string table!", __func__); goto out; } nca_pfs0_data_offset = (nca_pfs0_str_table_offset + (u64)nca_pfs0_header.str_table_size); // Allocate memory for the programinfo.xml contents, making sure there's enough space programInfoXml = calloc(NSP_XML_BUFFER_SIZE, sizeof(char)); if (!programInfoXml) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to allocate memory for the \"programinfo.xml\" contents!", __func__); goto out; } sprintf(programInfoXml, "\n" \ "\n" \ " %u_%u_%u\n", dec_nca_header->sdk_major, dec_nca_header->sdk_minor, dec_nca_header->sdk_micro); // Retrieve the main.npdm contents bool found_npdm = false; for(i = 0; i < nca_pfs0_header.file_cnt; i++) { char *curFilename = (nca_pfs0_str_table + nca_pfs0_entries[i].filename_offset); if (strlen(curFilename) == 9 && !strncasecmp(curFilename, "main.npdm", 9) && nca_pfs0_entries[i].file_size > 0) { found_npdm = true; npdmEntry = i; break; } } if (!found_npdm) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to allocate memory for the \"programinfo.xml\" contents!", __func__); goto out; } // Read the META header from the NPDM if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, nca_pfs0_data_offset + nca_pfs0_entries[npdmEntry].file_offset, &npdm_header, sizeof(npdm_t), false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read NPDM entry header from Program NCA section #0 PFS0!", __func__); goto out; } if (__builtin_bswap32(npdm_header.magic) != META_MAGIC) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid NPDM META magic word! Wrong KAEK? (0x%08X)\nTry running Lockpick_RCM to generate the keys file from scratch.", __func__, __builtin_bswap32(npdm_header.magic)); goto out; } // Allocate memory for the ACID section npdm_acid_section = malloc(npdm_header.acid_size); if (!npdm_acid_section) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to allocate memory for the Program NCA NPDM ACID section contents!", __func__); goto out; } if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, nca_pfs0_data_offset + nca_pfs0_entries[npdmEntry].file_offset + (u64)npdm_header.acid_offset, npdm_acid_section, (u64)npdm_header.acid_size, false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read ACID section from Program NCA NPDM!", __func__); goto out; } // If we're dealing with a gamecard title, replace the ACID public key with the patched one if (useCustomAcidRsaPubKey) memcpy(npdm_acid_section + (u64)NPDM_SIGNATURE_SIZE, rsa_get_public_key(), (u64)NPDM_SIGNATURE_SIZE); sprintf(tmp, " %u\n", ((npdm_header.mmu_flags & 0x01) ? 64 : 32)); strcat(programInfoXml, tmp); // Default this one to Release strcat(programInfoXml, " Release\n"); // Retrieve the Base64 conversion length for the whole ACID section mbedtls_base64_encode(NULL, 0, &npdm_acid_section_b64_size, npdm_acid_section, (u64)npdm_header.acid_size); if (npdm_acid_section_b64_size <= (u64)npdm_header.acid_size) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: invalid Base64 conversion length for the ACID section from Program NCA NPDM!", __func__); goto out; } npdm_acid_section_b64 = calloc(npdm_acid_section_b64_size + 1, sizeof(char)); if (!npdm_acid_section_b64) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: unable to allocate memory for the Base64 converted ACID section from Program NCA NPDM!", __func__); goto out; } // Perform the Base64 conversion if (mbedtls_base64_encode((unsigned char*)npdm_acid_section_b64, npdm_acid_section_b64_size + 1, &npdm_acid_section_b64_size, npdm_acid_section, (u64)npdm_header.acid_size) != 0) { uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: Base64 conversion failed for the ACID section from Program NCA NPDM!", __func__); goto out; } strcat(programInfoXml, " "); strcat(programInfoXml, npdm_acid_section_b64); strcat(programInfoXml, "\n"); // TO-DO: Add more ACID flags? acid_flags = *((u32*)(&(npdm_acid_section[0x20C]))); strcat(programInfoXml, " \n"); sprintf(tmp, " %s\n", ((acid_flags & 0x01) ? "true" : "false")); strcat(programInfoXml, tmp); sprintf(tmp, " %s\n", ((acid_flags & 0x02) ? "true" : "false")); strcat(programInfoXml, tmp); strcat(programInfoXml, " \n"); // Middleware list strcat(programInfoXml, " \n"); for(i = 0; i < nca_pfs0_header.file_cnt; i++) { nso_header_t nsoHeader; char *curFilename = (nca_pfs0_str_table + nca_pfs0_entries[i].filename_offset); u64 curFileOffset = (nca_pfs0_data_offset + nca_pfs0_entries[i].file_offset); if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, curFileOffset, &nsoHeader, sizeof(nso_header_t), false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read 0x%016lX bytes from \"%s\" in Program NCA section #0 PFS0 partition!", __func__, sizeof(nso_header_t), curFilename); proceed = false; break; } // Check if we're dealing with a NSO if (__builtin_bswap32(nsoHeader.magic) != NSO_MAGIC) continue; // Retrieve middleware list from this NSO if (!retrieveMiddlewareListFromNso(ncmStorage, ncaId, &aes_ctx, curFilename, curFileOffset, &nsoHeader, programInfoXml)) { proceed = false; break; } } if (!proceed) goto out; strcat(programInfoXml, " \n"); // Leave these fields empty (for now) strcat(programInfoXml, " \n"); strcat(programInfoXml, " \n"); // Symbols list from main NSO strcat(programInfoXml, " \n"); for(i = 0; i < nca_pfs0_header.file_cnt; i++) { nso_header_t nsoHeader; char *curFilename = (nca_pfs0_str_table + nca_pfs0_entries[i].filename_offset); u64 curFileOffset = (nca_pfs0_data_offset + nca_pfs0_entries[i].file_offset); if (!processNcaCtrSectionBlock(ncmStorage, ncaId, &aes_ctx, curFileOffset, &nsoHeader, sizeof(nso_header_t), false)) { breaks++; uiDrawString(STRING_X_POS, STRING_Y_POS(breaks), FONT_COLOR_ERROR_RGB, "%s: failed to read 0x%016lX bytes from \"%s\" in Program NCA section #0 PFS0 partition!", __func__, sizeof(nso_header_t), curFilename); proceed = false; break; } // Check if we're dealing with the main NSO if (strlen(curFilename) != 4 || strncmp(curFilename, "main", 4) != 0 || __builtin_bswap32(nsoHeader.magic) != NSO_MAGIC) continue; // Retrieve symbols list from main NSO if (!retrieveSymbolsListFromNso(ncmStorage, ncaId, &aes_ctx, curFilename, curFileOffset, &nsoHeader, programInfoXml)) proceed = false; break; } if (!proceed) goto out; strcat(programInfoXml, " \n"); // Leave this field empty (for now) strcat(programInfoXml, " \n"); strcat(programInfoXml, ""); *outBuf = programInfoXml; *outBufSize = strlen(programInfoXml); success = true; out: if (npdm_acid_section_b64) free(npdm_acid_section_b64); if (npdm_acid_section) free(npdm_acid_section); if (!success && programInfoXml) free(programInfoXml); if (nca_pfs0_str_table) free(nca_pfs0_str_table); if (nca_pfs0_entries) free(nca_pfs0_entries); return success; }