#include #include #include #include #include #include "types.h" #include "utils.h" #include "settings.h" #include "pki.h" #include "nca.h" #include "xci.h" #include "nax0.h" #include "extkeys.h" #include "packages.h" #include "nso.h" #include "save.h" static const char *prog_name = "hactool"; /* Print usage. Taken largely from ctrtool. */ static void usage(void) { fprintf(stderr, "hactool (c) SciresM.\n" "Built: %s %s\n" "\n" "Usage: %s [options...] \n" "Options:\n" "-i, --info Show file info.\n" " This is the default action.\n" "-x, --extract Extract data from file.\n" " This is also the default action.\n" " -r, --raw Keep raw data, don't unpack.\n" " -y, --verify Verify hashes and signatures.\n" " -d, --dev Decrypt with development keys instead of retail.\n" " -k, --keyset Load keys from an external file.\n" " -t, --intype=type Specify input file type [nca, xci, pfs0, romfs, hfs0, npdm, pk11, pk21, ini1, kip1, nax0, keygen]\n" " --titlekey=key Set title key for Rights ID crypto titles.\n" " --contentkey=key Set raw key for NCA body decryption.\n" " --disablekeywarns Disables warning output when loading external keys.\n" "NCA options:\n" " --plaintext=file Specify file path for saving a decrypted copy of the NCA.\n" " --header=file Specify Header file path.\n" " --section0=file Specify Section 0 file path.\n" " --section1=file Specify Section 1 file path.\n" " --section2=file Specify Section 2 file path.\n" " --section3=file Specify Section 3 file path.\n" " --section0dir=dir Specify Section 0 directory path.\n" " --section1dir=dir Specify Section 1 directory path.\n" " --section2dir=dir Specify Section 2 directory path.\n" " --section3dir=dir Specify Section 3 directory path.\n" " --exefs=file Specify ExeFS file path. Overrides appropriate section file path.\n" " --exefsdir=dir Specify ExeFS directory path. Overrides appropriate section directory path.\n" " --romfs=file Specify RomFS file path. Overrides appropriate section file path.\n" " --romfsdir=dir Specify RomFS directory path. Overrides appropriate section directory path.\n" " --listromfs List files in RomFS.\n" " --baseromfs Set Base RomFS to use with update partitions.\n" " --basenca Set Base NCA to use with update partitions.\n" " --basefake Use a fake Base RomFS with update partitions (all reads will return 0xCC).\n" " --onlyupdated Ignore non-updated files in update partitions.\n" "NPDM options:\n" " --json=file Specify file path for saving JSON representation of program permissions to.\n" "KIP1 options:\n" " --json=file Specify file path for saving JSON representation of program permissions to.\n" " --uncompressed=f Specify file path for saving uncompressed KIP1.\n" "NSO0 options:\n" " --uncompressed=f Specify file path for saving uncompressed NSO0.\n" "PFS0 options:\n" " --pfs0dir=dir Specify PFS0 directory path.\n" " --outdir=dir Specify PFS0 directory path. Overrides previous path, if present.\n" " --exefsdir=dir Specify PFS0 directory path. Overrides previous paths, if present for ExeFS PFS0.\n" "RomFS options:\n" " --romfsdir=dir Specify RomFS directory path.\n" " --outdir=dir Specify RomFS directory path. Overrides previous path, if present.\n" " --listromfs List files in RomFS.\n" "HFS0 options:\n" " --hfs0dir=dir Specify HFS0 directory path.\n" " --outdir=dir Specify HFS0 directory path. Overrides previous path, if present.\n" " --exefsdir=dir Specify HFS0 directory path. Overrides previous paths, if present.\n" "XCI options:\n" " --rootdir=dir Specify XCI root HFS0 directory path.\n" " --updatedir=dir Specify XCI update HFS0 directory path.\n" " --normaldir=dir Specify XCI normal HFS0 directory path.\n" " --securedir=dir Specify XCI secure HFS0 directory path.\n" " --logodir=dir Specify XCI logo HFS0 directory path.\n" " --outdir=dir Specify XCI directory path. Overrides previous paths, if present.\n" "Package1 options:\n" " --package1dir=dir Specify Package1 directory path.\n" " --outdir=dir Specify Package1 directory path. Overrides previous path, if present.\n" "Package2 options:\n" " --package2dir=dir Specify Package2 directory path.\n" " --outdir=dir Specify Package2 directory path. Overrides previous path, if present.\n" " --extractini1 Enable INI1 extraction to default directory (redundant with --ini1dir set).\n" " --ini1dir=dir Specify INI1 directory path. Overrides default path, if present.\n" "INI1 options:\n" " --ini1dir=dir Specify INI1 directory path.\n" " --outdir=dir Specify INI1 directory path. Overrides previous path, if present.\n" " --saveini1json Enable generation of JSON descriptors for all INI1 members.\n" "NAX0 options:\n" " --sdseed=seed Set console unique seed for SD card NAX0 encryption.\n" " --sdpath=path Set relative path for NAX0 key derivation (ex: /registered/000000FF/cafebabecafebabecafebabecafebabe.nca).\n" "Save data options:\n" " --outdir=dir Specify save directory path.\n" " --listfiles List files in save file.\n" "Key Derivation options:\n" " --sbk=key Set console unique Secure Boot Key for key derivation.\n" " --tseckey=key Set console unique TSEC Key for key derivation.\n" "\n", __TIME__, __DATE__, prog_name); exit(EXIT_FAILURE); } int main(int argc, char **argv) { hactool_ctx_t tool_ctx; hactool_ctx_t base_ctx; /* Context for base NCA, if used. */ nca_ctx_t nca_ctx; char input_name[0x200]; filepath_t keypath; prog_name = (argc < 1) ? "hactool" : argv[0]; nca_init(&nca_ctx); memset(&tool_ctx, 0, sizeof(tool_ctx)); memset(&base_ctx, 0, sizeof(base_ctx)); memset(input_name, 0, sizeof(input_name)); filepath_init(&keypath); nca_ctx.tool_ctx = &tool_ctx; nca_ctx.is_cli_target = true; nca_ctx.tool_ctx->file_type = FILETYPE_NCA; base_ctx.file_type = FILETYPE_NCA; nca_ctx.tool_ctx->action = ACTION_INFO | ACTION_EXTRACT; pki_initialize_keyset(&tool_ctx.settings.keyset, KEYSET_RETAIL); while (1) { int option_index; int c; static struct option long_options[] = { {"extract", 0, NULL, 'x'}, {"info", 0, NULL, 'i'}, {"dev", 0, NULL, 'd'}, {"verify", 0, NULL, 'y'}, {"raw", 0, NULL, 'r'}, {"intype", 1, NULL, 't'}, {"keyset", 1, NULL, 'k'}, {"section0", 1, NULL, 0}, {"section1", 1, NULL, 1}, {"section2", 1, NULL, 2}, {"section3", 1, NULL, 3}, {"section0dir", 1, NULL, 4}, {"section1dir", 1, NULL, 5}, {"section2dir", 1, NULL, 6}, {"section3dir", 1, NULL, 7}, {"exefs", 1, NULL, 8}, {"romfs", 1, NULL, 9}, {"exefsdir", 1, NULL, 10}, {"romfsdir", 1, NULL, 11}, {"titlekey", 1, NULL, 12}, {"contentkey", 1, NULL, 13}, {"listromfs", 0, NULL, 14}, {"baseromfs", 1, NULL, 15}, {"basenca", 1, NULL, 16}, {"outdir", 1, NULL, 17}, {"plaintext", 1, NULL, 18}, {"header", 1, NULL, 19}, {"pfs0dir", 1, NULL, 20}, {"hfs0dir", 1, NULL, 21}, {"rootdir", 1, NULL, 22}, {"updatedir", 1, NULL, 23}, {"normaldir", 1, NULL, 24}, {"securedir", 1, NULL, 25}, {"logodir", 1, NULL, 26}, {"package1dir", 1, NULL, 27}, {"package2dir", 1, NULL, 28}, {"ini1dir", 1, NULL, 29}, {"extractini1", 0, NULL, 30}, {"basefake", 0, NULL, 31}, {"onlyupdated", 0, NULL, 32}, {"sdseed", 1, NULL, 33}, {"sdpath", 1, NULL, 34}, {"sbk", 1, NULL, 35}, {"tseckey", 1, NULL, 36}, {"json", 1, NULL, 37}, {"saveini1json", 0, NULL, 38}, {"uncompressed", 1, NULL, 39}, {"disablekeywarns", 0, NULL, 40}, {"listfiles", 0, NULL, 41}, {NULL, 0, NULL, 0}, }; c = getopt_long(argc, argv, "dryxt:ik:", long_options, &option_index); if (c == -1) break; switch (c) { case 'i': nca_ctx.tool_ctx->action |= ACTION_INFO; break; case 'x': nca_ctx.tool_ctx->action |= ACTION_EXTRACT; break; case 'y': nca_ctx.tool_ctx->action |= ACTION_VERIFY; break; case 'r': nca_ctx.tool_ctx->action |= ACTION_RAW; break; case 'd': pki_initialize_keyset(&tool_ctx.settings.keyset, KEYSET_DEV); nca_ctx.tool_ctx->action |= ACTION_DEV; break; case 'k': filepath_set(&keypath, optarg); break; case 't': if (!strcmp(optarg, "nca")) { nca_ctx.tool_ctx->file_type = FILETYPE_NCA; } else if (!strcmp(optarg, "pfs0") || !strcmp(optarg, "exefs")) { nca_ctx.tool_ctx->file_type = FILETYPE_PFS0; } else if (!strcmp(optarg, "romfs")) { nca_ctx.tool_ctx->file_type = FILETYPE_ROMFS; } else if (!strcmp(optarg, "nca0_romfs") || !strcmp(optarg, "nca0romfs") || !strcmp(optarg, "betaromfs") || !strcmp(optarg, "beta_romfs")) { nca_ctx.tool_ctx->file_type = FILETYPE_NCA0_ROMFS; } else if (!strcmp(optarg, "hfs0")) { nca_ctx.tool_ctx->file_type = FILETYPE_HFS0; } else if (!strcmp(optarg, "xci") || !strcmp(optarg, "gamecard") || !strcmp(optarg, "gc")) { nca_ctx.tool_ctx->file_type = FILETYPE_XCI; } else if (!strcmp(optarg, "npdm") || !strcmp(optarg, "meta")) { nca_ctx.tool_ctx->file_type = FILETYPE_NPDM; } else if (!strcmp(optarg, "package1") || !strcmp(optarg, "pk11")) { nca_ctx.tool_ctx->file_type = FILETYPE_PACKAGE1; } else if (!strcmp(optarg, "package2") || !strcmp(optarg, "pk21")) { nca_ctx.tool_ctx->file_type = FILETYPE_PACKAGE2; } else if (!strcmp(optarg, "ini1")) { nca_ctx.tool_ctx->file_type = FILETYPE_INI1; } else if (!strcmp(optarg, "kip1") || !strcmp(optarg, "kip")) { nca_ctx.tool_ctx->file_type = FILETYPE_KIP1; } else if (!strcmp(optarg, "nso0") || !strcmp(optarg, "nso")) { nca_ctx.tool_ctx->file_type = FILETYPE_NSO0; } else if (!strcmp(optarg, "nax0") || !strcmp(optarg, "nax")) { nca_ctx.tool_ctx->file_type = FILETYPE_NAX0; } else if (!strcmp(optarg, "keygen") || !strcmp(optarg, "keys") || !strcmp(optarg, "boot0") || !strcmp(optarg, "boot")) { nca_ctx.tool_ctx->file_type = FILETYPE_BOOT0; } else if (!strcmp(optarg, "save")) { nca_ctx.tool_ctx->file_type = FILETYPE_SAVE; } break; case 0: filepath_set(&nca_ctx.tool_ctx->settings.section_paths[0], optarg); break; case 1: filepath_set(&nca_ctx.tool_ctx->settings.section_paths[1], optarg); break; case 2: filepath_set(&nca_ctx.tool_ctx->settings.section_paths[2], optarg); break; case 3: filepath_set(&nca_ctx.tool_ctx->settings.section_paths[3], optarg); break; case 4: filepath_set(&nca_ctx.tool_ctx->settings.section_dir_paths[0], optarg); break; case 5: filepath_set(&nca_ctx.tool_ctx->settings.section_dir_paths[1], optarg); break; case 6: filepath_set(&nca_ctx.tool_ctx->settings.section_dir_paths[2], optarg); break; case 7: filepath_set(&nca_ctx.tool_ctx->settings.section_dir_paths[3], optarg); break; case 8: nca_ctx.tool_ctx->settings.exefs_path.enabled = 1; filepath_set(&nca_ctx.tool_ctx->settings.exefs_path.path, optarg); break; case 9: nca_ctx.tool_ctx->settings.romfs_path.enabled = 1; filepath_set(&nca_ctx.tool_ctx->settings.romfs_path.path, optarg); break; case 10: nca_ctx.tool_ctx->settings.exefs_dir_path.enabled = 1; filepath_set(&nca_ctx.tool_ctx->settings.exefs_dir_path.path, optarg); break; case 11: nca_ctx.tool_ctx->settings.romfs_dir_path.enabled = 1; filepath_set(&nca_ctx.tool_ctx->settings.romfs_dir_path.path, optarg); break; case 12: parse_hex_key(nca_ctx.tool_ctx->settings.cli_titlekey, optarg, 16); nca_ctx.tool_ctx->settings.has_cli_titlekey = 1; break; case 13: parse_hex_key(nca_ctx.tool_ctx->settings.cli_contentkey, optarg, 16); nca_ctx.tool_ctx->settings.has_cli_contentkey = 1; break; case 14: nca_ctx.tool_ctx->action |= ACTION_LISTROMFS; break; case 15: if (nca_ctx.tool_ctx->base_file != NULL) { usage(); return EXIT_FAILURE; } if ((nca_ctx.tool_ctx->base_file = fopen(optarg, "rb")) == NULL) { fprintf(stderr, "unable to open %s: %s\n", optarg, strerror(errno)); return EXIT_FAILURE; } nca_ctx.tool_ctx->base_file_type = BASEFILE_ROMFS; break; case 16: if (nca_ctx.tool_ctx->base_file != NULL) { usage(); return EXIT_FAILURE; } if ((nca_ctx.tool_ctx->base_file = fopen(optarg, "rb")) == NULL) { fprintf(stderr, "unable to open %s: %s\n", optarg, strerror(errno)); return EXIT_FAILURE; } nca_ctx.tool_ctx->base_file_type = BASEFILE_NCA; nca_ctx.tool_ctx->base_nca_ctx = malloc(sizeof(*nca_ctx.tool_ctx->base_nca_ctx)); if (nca_ctx.tool_ctx->base_nca_ctx == NULL) { fprintf(stderr, "Failed to allocate base NCA context!\n"); return EXIT_FAILURE; } nca_init(nca_ctx.tool_ctx->base_nca_ctx); base_ctx.file = nca_ctx.tool_ctx->base_file; nca_ctx.tool_ctx->base_nca_ctx->file = base_ctx.file; nca_ctx.tool_ctx->base_nca_ctx->is_cli_target = false; break; case 17: tool_ctx.settings.out_dir_path.enabled = 1; filepath_set(&tool_ctx.settings.out_dir_path.path, optarg); break; case 18: filepath_set(&nca_ctx.tool_ctx->settings.plaintext_path, optarg); break; case 19: filepath_set(&nca_ctx.tool_ctx->settings.header_path, optarg); break; case 20: filepath_set(&tool_ctx.settings.pfs0_dir_path, optarg); break; case 21: filepath_set(&tool_ctx.settings.hfs0_dir_path, optarg); break; case 22: filepath_set(&tool_ctx.settings.rootpt_dir_path, optarg); break; case 23: filepath_set(&tool_ctx.settings.update_dir_path, optarg); break; case 24: filepath_set(&tool_ctx.settings.normal_dir_path, optarg); break; case 25: filepath_set(&tool_ctx.settings.secure_dir_path, optarg); break; case 26: filepath_set(&tool_ctx.settings.logo_dir_path, optarg); break; case 27: filepath_set(&tool_ctx.settings.pk11_dir_path, optarg); break; case 28: filepath_set(&tool_ctx.settings.pk21_dir_path, optarg); break; case 29: filepath_set(&tool_ctx.settings.ini1_dir_path, optarg); break; case 30: tool_ctx.action |= ACTION_EXTRACTINI1; break; case 31: if (nca_ctx.tool_ctx->base_file != NULL) { usage(); return EXIT_FAILURE; } nca_ctx.tool_ctx->base_file_type = BASEFILE_FAKE; nca_ctx.tool_ctx->base_file++; /* Guarantees base_file != NULL. I'm so sorry. */ break; case 32: tool_ctx.action |= ACTION_ONLYUPDATEDROMFS; break; case 33: parse_hex_key(nca_ctx.tool_ctx->settings.sdseed, optarg, 16); nca_ctx.tool_ctx->settings.has_sdseed = 1; for (unsigned int key = 0; key < 2; key++) { for (unsigned int i = 0; i < 0x20; i++) { tool_ctx.settings.keyset.sd_card_key_sources[key][i] ^= tool_ctx.settings.sdseed[i & 0xF]; } } pki_derive_keys(&tool_ctx.settings.keyset); break; case 34: filepath_set(&tool_ctx.settings.nax0_sd_path, optarg); break; case 35: parse_hex_key(nca_ctx.tool_ctx->settings.keygen_sbk, optarg, 16); break; case 36: parse_hex_key(nca_ctx.tool_ctx->settings.keygen_tsec, optarg, 16); break; case 37: filepath_set(&tool_ctx.settings.npdm_json_path, optarg); break; case 38: tool_ctx.action |= ACTION_SAVEINIJSON; break; case 39: filepath_set(&nca_ctx.tool_ctx->settings.uncompressed_path, optarg); break; case 40: nca_ctx.tool_ctx->settings.skip_key_warnings = 1; break; case 41: nca_ctx.tool_ctx->action |= ACTION_LISTFILES; break; default: usage(); return EXIT_FAILURE; } } /* Try to populate default keyfile. */ FILE *keyfile = NULL; if (keypath.valid == VALIDITY_VALID) { keyfile = os_fopen(keypath.os_path, OS_MODE_READ); } FILE *homekeyfile = open_key_file((tool_ctx.action & ACTION_DEV) ? "dev" : "prod"); if (homekeyfile == NULL) { printf("[WARN] %s.keys does not exist.\n", (tool_ctx.action & ACTION_DEV) ? "dev" : "prod"); } else if (keyfile == NULL) { keyfile = homekeyfile; } else { fclose(homekeyfile); } if (keyfile != NULL) { extkeys_initialize_settings(&tool_ctx.settings, keyfile); if (tool_ctx.settings.has_sdseed) { for (unsigned int key = 0; key < 2; key++) { for (unsigned int i = 0; i < 0x20; i++) { tool_ctx.settings.keyset.sd_card_key_sources[key][i] ^= tool_ctx.settings.sdseed[i & 0xF]; } } } pki_derive_keys(&tool_ctx.settings.keyset); fclose(keyfile); } /* Try to load titlekeys. */ FILE *titlekeyfile = open_key_file("title"); if (titlekeyfile != NULL) { extkeys_parse_titlekeys(&tool_ctx.settings, titlekeyfile); } if (optind == argc - 1) { /* Copy input filename. */ strncpy(input_name, argv[optind], sizeof(input_name) - 1); } else if (tool_ctx.file_type != FILETYPE_BOOT0 && ((optind < argc) || (argc == 1))) { usage(); } /* Special case NAX0. */ if (tool_ctx.file_type == FILETYPE_NAX0) { nax0_ctx_t nax_ctx; memset(&nax_ctx, 0, sizeof(nax_ctx)); filepath_set(&nax_ctx.base_path, input_name); nax_ctx.tool_ctx = &tool_ctx; nax0_process(&nax_ctx); if (nax_ctx.aes_ctx) { free_aes_ctx(nax_ctx.aes_ctx); } if (nax_ctx.num_files) { for (unsigned int i = 0; i < nax_ctx.num_files; i++) { fclose(nax_ctx.files[i]); } } if (nax_ctx.files) { free(nax_ctx.files); } printf("Done!\n"); return EXIT_SUCCESS; } if ((tool_ctx.file = fopen(input_name, "rb")) == NULL && tool_ctx.file_type != FILETYPE_BOOT0) { fprintf(stderr, "unable to open %s: %s\n", input_name, strerror(errno)); return EXIT_FAILURE; } switch (tool_ctx.file_type) { case FILETYPE_NCA: { if (nca_ctx.tool_ctx->base_nca_ctx != NULL) { memcpy(&base_ctx.settings.keyset, &tool_ctx.settings.keyset, sizeof(nca_keyset_t)); base_ctx.settings.known_titlekeys = tool_ctx.settings.known_titlekeys; nca_ctx.tool_ctx->base_nca_ctx->tool_ctx = &base_ctx; nca_process(nca_ctx.tool_ctx->base_nca_ctx); int found_romfs = 0; for (unsigned int i = 0; i < 4; i++) { if (nca_ctx.tool_ctx->base_nca_ctx->section_contexts[i].is_present && nca_ctx.tool_ctx->base_nca_ctx->section_contexts[i].type == ROMFS) { found_romfs = 1; break; } } if (found_romfs == 0) { fprintf(stderr, "Unable to locate RomFS in base NCA!\n"); return EXIT_FAILURE; } } nca_ctx.file = tool_ctx.file; nca_process(&nca_ctx); nca_free_section_contexts(&nca_ctx); if (nca_ctx.tool_ctx->base_file_type == BASEFILE_FAKE) { nca_ctx.tool_ctx->base_file = NULL; } if (nca_ctx.tool_ctx->base_file != NULL) { fclose(nca_ctx.tool_ctx->base_file); if (nca_ctx.tool_ctx->base_file_type == BASEFILE_NCA) { nca_free_section_contexts(nca_ctx.tool_ctx->base_nca_ctx); free(nca_ctx.tool_ctx->base_nca_ctx); } } break; } case FILETYPE_PFS0: { pfs0_ctx_t pfs0_ctx; memset(&pfs0_ctx, 0, sizeof(pfs0_ctx)); pfs0_ctx.file = tool_ctx.file; pfs0_ctx.tool_ctx = &tool_ctx; pfs0_process(&pfs0_ctx); if (pfs0_ctx.header) { free(pfs0_ctx.header); } if (pfs0_ctx.npdm) { free(pfs0_ctx.npdm); } break; } case FILETYPE_ROMFS: { romfs_ctx_t romfs_ctx; memset(&romfs_ctx, 0, sizeof(romfs_ctx)); romfs_ctx.file = tool_ctx.file; romfs_ctx.tool_ctx = &tool_ctx; romfs_process(&romfs_ctx); if (romfs_ctx.files) { free(romfs_ctx.files); } if (romfs_ctx.directories) { free(romfs_ctx.directories); } break; } case FILETYPE_NCA0_ROMFS: { nca0_romfs_ctx_t romfs_ctx; memset(&romfs_ctx, 0, sizeof(romfs_ctx)); romfs_ctx.file = tool_ctx.file; romfs_ctx.tool_ctx = &tool_ctx; nca0_romfs_process(&romfs_ctx); if (romfs_ctx.files) { free(romfs_ctx.files); } if (romfs_ctx.directories) { free(romfs_ctx.directories); } break; } case FILETYPE_NPDM: { npdm_t raw_hdr; memset(&raw_hdr, 0, sizeof(raw_hdr)); if (fread(&raw_hdr, 1, sizeof(raw_hdr), tool_ctx.file) != sizeof(raw_hdr)) { fprintf(stderr, "Failed to read NPDM header!\n"); exit(EXIT_FAILURE); } if (raw_hdr.magic != MAGIC_META) { fprintf(stderr, "NPDM seems corrupt!\n"); exit(EXIT_FAILURE); } uint64_t npdm_size = raw_hdr.aci0_size + raw_hdr.aci0_offset; if (raw_hdr.acid_offset + raw_hdr.acid_size > npdm_size) { npdm_size = raw_hdr.acid_offset + raw_hdr.acid_size; } fseeko64(tool_ctx.file, 0, SEEK_SET); npdm_t *npdm = malloc(npdm_size); if (npdm == NULL) { fprintf(stderr, "Failed to allocate NPDM!\n"); exit(EXIT_FAILURE); } if (fread(npdm, 1, npdm_size, tool_ctx.file) != npdm_size) { fprintf(stderr, "Failed to read NPDM!\n"); exit(EXIT_FAILURE); } npdm_process(npdm, &tool_ctx); break; } case FILETYPE_HFS0: { hfs0_ctx_t hfs0_ctx; memset(&hfs0_ctx, 0, sizeof(hfs0_ctx)); hfs0_ctx.file = tool_ctx.file; hfs0_ctx.tool_ctx = &tool_ctx; hfs0_process(&hfs0_ctx); if (hfs0_ctx.header) { free(hfs0_ctx.header); } break; } case FILETYPE_PACKAGE1: { pk11_ctx_t pk11_ctx; memset(&pk11_ctx, 0, sizeof(pk11_ctx)); pk11_ctx.file = tool_ctx.file; pk11_ctx.tool_ctx = &tool_ctx; pk11_process(&pk11_ctx); if (pk11_ctx.pk11) { free(pk11_ctx.pk11); } break; } case FILETYPE_PACKAGE2: { pk21_ctx_t pk21_ctx; memset(&pk21_ctx, 0, sizeof(pk21_ctx)); pk21_ctx.file = tool_ctx.file; pk21_ctx.tool_ctx = &tool_ctx; pk21_process(&pk21_ctx); if (pk21_ctx.sections) { free(pk21_ctx.sections); } break; } case FILETYPE_INI1: { ini1_ctx_t ini1_ctx; memset(&ini1_ctx, 0, sizeof(ini1_ctx)); ini1_ctx.file = tool_ctx.file; ini1_ctx.tool_ctx = &tool_ctx; ini1_process(&ini1_ctx); if (ini1_ctx.header) { free(ini1_ctx.header); } break; } case FILETYPE_KIP1: { kip1_ctx_t kip1_ctx; memset(&kip1_ctx, 0, sizeof(kip1_ctx)); kip1_ctx.file = tool_ctx.file; kip1_ctx.tool_ctx = &tool_ctx; kip1_process(&kip1_ctx); if (kip1_ctx.header) { free(kip1_ctx.header); } break; } case FILETYPE_NSO0: { nso0_ctx_t nso0_ctx; memset(&nso0_ctx, 0, sizeof(nso0_ctx)); nso0_ctx.file = tool_ctx.file; nso0_ctx.tool_ctx = &tool_ctx; nso0_process(&nso0_ctx); if (nso0_ctx.header) { free(nso0_ctx.header); } if (nso0_ctx.uncompressed_header) { free(nso0_ctx.uncompressed_header); } break; } case FILETYPE_XCI: { xci_ctx_t xci_ctx; memset(&xci_ctx, 0, sizeof(xci_ctx)); xci_ctx.file = tool_ctx.file; xci_ctx.tool_ctx = &tool_ctx; xci_process(&xci_ctx); break; } case FILETYPE_BOOT0: { nca_keyset_t new_keyset; memcpy(&new_keyset, &tool_ctx.settings.keyset, sizeof(new_keyset)); for (unsigned int i = 0; i < 0x10; i++) { if (tool_ctx.settings.keygen_sbk[i] != 0) { memcpy(new_keyset.secure_boot_key, tool_ctx.settings.keygen_sbk, 0x10); } } for (unsigned int i = 0; i < 0x10; i++) { if (tool_ctx.settings.keygen_tsec[i] != 0) { memcpy(new_keyset.tsec_key, tool_ctx.settings.keygen_tsec, 0x10); } } for (unsigned int i = 0; tool_ctx.file != NULL && i < 0x20; i++) { fseek(tool_ctx.file, 0x180000 + 0x200 * i, SEEK_SET); if (fread(&new_keyset.encrypted_keyblobs[i], sizeof(new_keyset.encrypted_keyblobs[i]), 1, tool_ctx.file) != 1) { fprintf(stderr, "Error: Failed to read encrypted_keyblob_%02x from boot0!\n", i); return EXIT_FAILURE; } } printf("Deriving keys...\n"); pki_derive_keys(&new_keyset); printf("--\n"); printf("All derivable keys (using loaded sources):\n\n"); pki_print_keys(&new_keyset); break; } case FILETYPE_SAVE: { save_ctx_t save_ctx; memset(&save_ctx, 0, sizeof(save_ctx)); save_ctx.file = tool_ctx.file; save_ctx.tool_ctx = &tool_ctx; save_process(&save_ctx); save_free_contexts(&save_ctx); break; } default: { fprintf(stderr, "Unknown File Type!\n\n"); usage(); } } if (tool_ctx.settings.known_titlekeys.titlekeys != NULL) { free(tool_ctx.settings.known_titlekeys.titlekeys); } if (tool_ctx.file != NULL) { fclose(tool_ctx.file); } printf("Done!\n"); return EXIT_SUCCESS; }