#include "stdafx.h" #include "aes.h" #include "sha1.h" #include "key_vault.h" #include "util/logs.hpp" #include "Utilities/StrUtil.h" #include "Emu/System.h" #include "Emu/system_utils.hpp" #include "Emu/VFS.h" #include "unpkg.h" #include "Loader/PSF.h" LOG_CHANNEL(pkg_log, "PKG"); package_reader::package_reader(const std::string& path) : m_path(path) { if (!m_file.open(path)) { pkg_log.error("PKG file not found!"); return; } m_is_valid = read_header(); if (!m_is_valid) { return; } m_is_valid = read_metadata(); if (!m_is_valid) { return; } const bool param_sfo_found = read_param_sfo(); if (!param_sfo_found) { pkg_log.notice("PKG does not contain a PARAM.SFO"); } } package_reader::~package_reader() { } bool package_reader::read_header() { if (m_path.empty() || !m_file) { pkg_log.error("Reading PKG header: no file to read!"); return false; } if (archive_read(&m_header, sizeof(m_header)) != sizeof(m_header)) { pkg_log.error("Reading PKG header: file is too short!"); return false; } pkg_log.notice("Header: pkg_magic = 0x%x = \"%s\"", +m_header.pkg_magic, std::string(reinterpret_cast(&m_header.pkg_magic), 4)); pkg_log.notice("Header: pkg_type = 0x%x = %d", m_header.pkg_type, m_header.pkg_type); pkg_log.notice("Header: pkg_platform = 0x%x = %d", m_header.pkg_platform, m_header.pkg_platform); pkg_log.notice("Header: meta_offset = 0x%x = %d", m_header.meta_offset, m_header.meta_offset); pkg_log.notice("Header: meta_count = 0x%x = %d", m_header.meta_count, m_header.meta_count); pkg_log.notice("Header: meta_size = 0x%x = %d", m_header.meta_size, m_header.meta_size); pkg_log.notice("Header: file_count = 0x%x = %d", m_header.file_count, m_header.file_count); pkg_log.notice("Header: pkg_size = 0x%x = %d", m_header.pkg_size, m_header.pkg_size); pkg_log.notice("Header: data_offset = 0x%x = %d", m_header.data_offset, m_header.data_offset); pkg_log.notice("Header: data_size = 0x%x = %d", m_header.data_size, m_header.data_size); pkg_log.notice("Header: title_id = %s", m_header.title_id); pkg_log.notice("Header: qa_digest = 0x%x 0x%x", m_header.qa_digest[0], m_header.qa_digest[1]); pkg_log.notice("Header: klicensee = %s", m_header.klicensee.value()); // Get extended PKG information for PSP or PSVita if (m_header.pkg_platform == PKG_PLATFORM_TYPE_PSP_PSVITA) { PKGExtHeader ext_header; archive_seek(PKG_HEADER_SIZE); if (archive_read(&ext_header, sizeof(ext_header)) != sizeof(ext_header)) { pkg_log.error("Reading extended PKG header: file is too short!"); return false; } pkg_log.notice("Extended header: magic = 0x%x = \"%s\"", +ext_header.magic, std::string(reinterpret_cast(&ext_header.magic), 4)); pkg_log.notice("Extended header: unknown_1 = 0x%x = %d", ext_header.unknown_1, ext_header.unknown_1); pkg_log.notice("Extended header: ext_hdr_size = 0x%x = %d", ext_header.ext_hdr_size, ext_header.ext_hdr_size); pkg_log.notice("Extended header: ext_data_size = 0x%x = %d", ext_header.ext_data_size, ext_header.ext_data_size); pkg_log.notice("Extended header: main_and_ext_headers_hmac_offset = 0x%x = %d", ext_header.main_and_ext_headers_hmac_offset, ext_header.main_and_ext_headers_hmac_offset); pkg_log.notice("Extended header: metadata_header_hmac_offset = 0x%x = %d", ext_header.metadata_header_hmac_offset, ext_header.metadata_header_hmac_offset); pkg_log.notice("Extended header: tail_offset = 0x%x = %d", ext_header.tail_offset, ext_header.tail_offset); //pkg_log.notice("Extended header: padding1 = 0x%x = %d", ext_header.padding1, ext_header.padding1); pkg_log.notice("Extended header: pkg_key_id = 0x%x = %d", ext_header.pkg_key_id, ext_header.pkg_key_id); pkg_log.notice("Extended header: full_header_hmac_offset = 0x%x = %d", ext_header.full_header_hmac_offset, ext_header.full_header_hmac_offset); //pkg_log.notice("Extended header: padding2 = 0x%x = %d", ext_header.padding2, ext_header.padding2); } if (m_header.pkg_magic != std::bit_cast>("\x7FPKG"_u32)) { pkg_log.error("Not a PKG file!"); return false; } switch (const u16 type = m_header.pkg_type) { case PKG_RELEASE_TYPE_DEBUG: break; case PKG_RELEASE_TYPE_RELEASE: break; default: { pkg_log.error("Unknown PKG type (0x%x)", type); return false; } } switch (const u16 platform = m_header.pkg_platform) { case PKG_PLATFORM_TYPE_PS3: break; case PKG_PLATFORM_TYPE_PSP_PSVITA: break; default: { pkg_log.error("Unknown PKG platform (0x%x)", platform); return false; } } if (m_header.pkg_size > m_file.size()) { // Check if multi-files pkg if (!m_path.ends_with("_00.pkg")) { pkg_log.error("PKG file size mismatch (pkg_size=0x%llx)", m_header.pkg_size); return false; } std::vector filelist; filelist.emplace_back(std::move(m_file)); const std::string name_wo_number = m_path.substr(0, m_path.size() - 7); u64 cursize = filelist[0].size(); while (cursize < m_header.pkg_size) { const std::string archive_filename = fmt::format("%s_%02d.pkg", name_wo_number, filelist.size()); fs::file archive_file(archive_filename); if (!archive_file) { pkg_log.error("Missing part of the multi-files pkg: %s", archive_filename); return false; } const usz add_size = archive_file.size(); if (!add_size) { pkg_log.error("%s is empty, cannot read PKG", archive_filename); return false; } cursize += add_size; filelist.emplace_back(std::move(archive_file)); } // Gather files m_file = fs::make_gather(std::move(filelist)); } if (m_header.data_size + m_header.data_offset > m_header.pkg_size) { pkg_log.error("PKG data size mismatch (data_size=0x%llx, data_offset=0x%llx, file_size=0x%llx)", m_header.data_size, m_header.data_offset, m_header.pkg_size); return false; } return true; } bool package_reader::read_metadata() { if (!decrypt_data()) { return false; } // Read title ID and use it as an installation directory m_install_dir.resize(9); archive_seek(55); archive_read(&m_install_dir.front(), m_install_dir.size()); // Read package metadata archive_seek(m_header.meta_offset); for (u32 i = 0; i < m_header.meta_count; i++) { struct packet_T { be_t id; be_t size; } packet; archive_read(&packet, sizeof(packet)); // TODO switch (+packet.id) { case 0x1: { if (packet.size == sizeof(m_metadata.drm_type)) { archive_read(&m_metadata.drm_type, sizeof(m_metadata.drm_type)); pkg_log.notice("Metadata: DRM Type = 0x%x = %d", m_metadata.drm_type, m_metadata.drm_type); continue; } else { pkg_log.error("Metadata: DRM Type size mismatch (0x%x)", packet.size); } break; } case 0x2: { if (packet.size == sizeof(m_metadata.content_type)) { archive_read(&m_metadata.content_type, sizeof(m_metadata.content_type)); pkg_log.notice("Metadata: Content Type = 0x%x = %d", m_metadata.content_type, m_metadata.content_type); continue; } else { pkg_log.error("Metadata: Content Type size mismatch (0x%x)", packet.size); } break; } case 0x3: { if (packet.size == sizeof(m_metadata.package_type)) { archive_read(&m_metadata.package_type, sizeof(m_metadata.package_type)); pkg_log.notice("Metadata: Package Type = 0x%x = %d", m_metadata.package_type, m_metadata.package_type); continue; } else { pkg_log.error("Metadata: Package Type size mismatch (0x%x)", packet.size); } break; } case 0x4: { if (packet.size == sizeof(m_metadata.package_size)) { archive_read(&m_metadata.package_size, sizeof(m_metadata.package_size)); pkg_log.notice("Metadata: Package Size = 0x%x = %d", m_metadata.package_size, m_metadata.package_size); continue; } else { pkg_log.error("Metadata: Package Size size mismatch (0x%x)", packet.size); } break; } case 0x5: { if (packet.size == sizeof(m_metadata.package_revision.data)) { archive_read(&m_metadata.package_revision.data, sizeof(m_metadata.package_revision.data)); m_metadata.package_revision.interpret_data(); pkg_log.notice("Metadata: Package Revision = %s", m_metadata.package_revision.to_string()); continue; } else { pkg_log.error("Metadata: Package Revision size mismatch (0x%x)", packet.size); } break; } case 0x6: { m_metadata.title_id.resize(12); if (packet.size == m_metadata.title_id.size()) { archive_read(&m_metadata.title_id, m_metadata.title_id.size()); m_metadata.title_id = fmt::trim(m_metadata.title_id); pkg_log.notice("Metadata: Title ID = %s", m_metadata.title_id); continue; } else { pkg_log.error("Metadata: Title ID size mismatch (0x%x)", packet.size); } break; } case 0x7: { if (packet.size == sizeof(m_metadata.qa_digest)) { archive_read(&m_metadata.qa_digest, sizeof(m_metadata.qa_digest)); pkg_log.notice("Metadata: QA Digest = 0x%x", m_metadata.qa_digest); continue; } else { pkg_log.error("Metadata: QA Digest size mismatch (0x%x)", packet.size); } break; } case 0x8: { if (packet.size == sizeof(m_metadata.software_revision.data)) { archive_read(&m_metadata.software_revision.data, sizeof(m_metadata.software_revision.data)); m_metadata.software_revision.interpret_data(); pkg_log.notice("Metadata: Software Revision = %s", m_metadata.software_revision.to_string()); continue; } else { pkg_log.error("Metadata: Software Revision size mismatch (0x%x)", packet.size); } break; } case 0x9: { if (packet.size == sizeof(m_metadata.unk_0x9)) { archive_read(&m_metadata.unk_0x9, sizeof(m_metadata.unk_0x9)); pkg_log.notice("Metadata: unk_0x9 = 0x%x = %d", m_metadata.unk_0x9, m_metadata.unk_0x9); continue; } else { pkg_log.error("Metadata: unk_0x9 size mismatch (0x%x)", packet.size); } break; } case 0xA: { if (packet.size > 8) { // Read an actual installation directory (DLC) m_install_dir.resize(packet.size); archive_read(&m_install_dir.front(), packet.size); m_install_dir = m_install_dir.c_str() + 8; m_metadata.install_dir = m_install_dir; pkg_log.notice("Metadata: Install Dir = %s", m_metadata.install_dir); continue; } else { pkg_log.error("Metadata: Install Dir size mismatch (0x%x)", packet.size); } break; } case 0xB: { if (packet.size == sizeof(m_metadata.unk_0xB)) { archive_read(&m_metadata.unk_0xB, sizeof(m_metadata.unk_0xB)); pkg_log.notice("Metadata: unk_0xB = 0x%x = %d", m_metadata.unk_0xB, m_metadata.unk_0xB); continue; } else { pkg_log.error("Metadata: unk_0xB size mismatch (0x%x)", packet.size); } break; } case 0xC: { // Unknown break; } case 0xD: // PSVita stuff { if (packet.size == sizeof(m_metadata.item_info)) { archive_read(&m_metadata.item_info, sizeof(m_metadata.item_info)); pkg_log.notice("Metadata: PSVita item info = %s", m_metadata.item_info.to_string()); continue; } else { pkg_log.error("Metadata: Item info size mismatch (0x%x)", packet.size); } break; } case 0xE: // PSVita stuff { if (packet.size == sizeof(m_metadata.sfo_info)) { archive_read(&m_metadata.sfo_info, sizeof(m_metadata.sfo_info)); pkg_log.notice("Metadata: PSVita sfo info = %s", m_metadata.sfo_info.to_string()); continue; } else { pkg_log.error("Metadata: SFO info size mismatch (0x%x)", packet.size); } break; } case 0xF: // PSVita stuff { if (packet.size == sizeof(m_metadata.unknown_data_info)) { archive_read(&m_metadata.unknown_data_info, sizeof(m_metadata.unknown_data_info)); pkg_log.notice("Metadata: PSVita unknown data info = %s", m_metadata.unknown_data_info.to_string()); continue; } else { pkg_log.error("Metadata: unknown data info size mismatch (0x%x)", packet.size); } break; } case 0x10: // PSVita stuff { if (packet.size == sizeof(m_metadata.entirety_info)) { archive_read(&m_metadata.entirety_info, sizeof(m_metadata.entirety_info)); pkg_log.notice("Metadata: PSVita entirety info = %s", m_metadata.entirety_info.to_string()); continue; } else { pkg_log.error("Metadata: Entirety info size mismatch (0x%x)", packet.size); } break; } case 0x11: // PSVita stuff { if (packet.size == sizeof(m_metadata.version_info)) { archive_read(&m_metadata.version_info, sizeof(m_metadata.version_info)); pkg_log.notice("Metadata: PSVita version info = %s", m_metadata.version_info.to_string()); continue; } else { pkg_log.error("Metadata: Version info size mismatch (0x%x)", packet.size); } break; } case 0x12: // PSVita stuff { if (packet.size == sizeof(m_metadata.self_info)) { archive_read(&m_metadata.self_info, sizeof(m_metadata.self_info)); pkg_log.notice("Metadata: PSVita self info = %s", m_metadata.self_info.to_string()); continue; } else { pkg_log.error("Metadata: Self info size mismatch (0x%x)", packet.size); } break; } default: { pkg_log.error("Unknown packet id %d", packet.id); break; } } archive_seek(packet.size, fs::seek_cur); } return true; } bool package_reader::decrypt_data() { if (!m_is_valid) { return false; } if (m_header.pkg_platform == PKG_PLATFORM_TYPE_PSP_PSVITA && m_metadata.content_type >= 0x15 && m_metadata.content_type <= 0x17) { // PSVita // TODO: Not all the keys seem to match the content types. I was only able to install a dlc (0x16) with PKG_AES_KEY_VITA_1 aes_context ctx; aes_setkey_enc(&ctx, m_metadata.content_type == 0x15u ? PKG_AES_KEY_VITA_1 : m_metadata.content_type == 0x16u ? PKG_AES_KEY_VITA_2 : PKG_AES_KEY_VITA_3, 128); aes_crypt_ecb(&ctx, AES_ENCRYPT, reinterpret_cast(&m_header.klicensee), m_dec_key.data()); decrypt(0, m_header.file_count * sizeof(PKGEntry), m_dec_key.data()); } else { std::memcpy(m_dec_key.data(), PKG_AES_KEY, m_dec_key.size()); decrypt(0, m_header.file_count * sizeof(PKGEntry), m_header.pkg_platform == PKG_PLATFORM_TYPE_PSP_PSVITA ? PKG_AES_KEY2 : m_dec_key.data()); } return true; } bool package_reader::read_param_sfo() { if (!decrypt_data()) { return false; } std::vector entries(m_header.file_count); std::memcpy(entries.data(), m_buf.get(), entries.size() * sizeof(PKGEntry)); for (const auto& entry : entries) { if (entry.name_size > 256) { pkg_log.error("PKG name size is too big (0x%x)", entry.name_size); continue; } const bool is_psp = (entry.type & PKG_FILE_ENTRY_PSP) != 0u; decrypt(entry.name_offset, entry.name_size, is_psp ? PKG_AES_KEY2 : m_dec_key.data()); const std::string_view name{reinterpret_cast(m_buf.get()), entry.name_size}; // We're looking for the PARAM.SFO file, if there is any if (usz ndelim = name.find_first_not_of('/'); ndelim == umax || name.substr(ndelim) != "PARAM.SFO") { continue; } // Read the package's PARAM.SFO if (fs::file tmp = fs::make_stream>()) { for (u64 pos = 0; pos < entry.file_size; pos += BUF_SIZE) { const u64 block_size = std::min(BUF_SIZE, entry.file_size - pos); if (decrypt(entry.file_offset + pos, block_size, is_psp ? PKG_AES_KEY2 : m_dec_key.data()) != block_size) { pkg_log.error("Failed to decrypt PARAM.SFO file"); return false; } if (tmp.write(m_buf.get(), block_size) != block_size) { pkg_log.error("Failed to write to temporary PARAM.SFO file"); return false; } } tmp.seek(0); m_psf = psf::load_object(tmp); if (m_psf.empty()) { // Invalid continue; } return true; } else { pkg_log.error("Failed to create temporary PARAM.SFO file"); return false; } } return false; } // TODO: maybe also check if VERSION matches package_error package_reader::check_target_app_version() const { if (!m_is_valid) { return package_error::other; } const auto category = psf::get_string(m_psf, "CATEGORY", ""); const auto title_id = psf::get_string(m_psf, "TITLE_ID", ""); const auto app_ver = psf::get_string(m_psf, "APP_VER", ""); const auto target_app_ver = psf::get_string(m_psf, "TARGET_APP_VER", ""); if (category != "GD") { // We allow anything that isn't an update for now return package_error::no_error; } if (title_id.empty()) { // Let's allow packages without ID for now return package_error::no_error; } if (app_ver.empty()) { if (!target_app_ver.empty()) { // Let's see if this case exists pkg_log.fatal("Trying to install an unversioned patch with a target app version (%s). Please contact a developer!", target_app_ver); } // This is probably not a version dependant patch, so we may install the package return package_error::no_error; } const fs::file installed_sfo_file(rpcs3::utils::get_hdd0_dir() + "game/" + std::string(title_id) + "/PARAM.SFO"); if (!installed_sfo_file) { if (!target_app_ver.empty()) { // We are unable to compare anything with the target app version pkg_log.error("A target app version is required (%s), but no PARAM.SFO was found for %s", target_app_ver, title_id); return package_error::app_version; } // There is nothing we need to compare, so we may install the package return package_error::no_error; } const auto installed_psf = psf::load_object(installed_sfo_file); const auto installed_title_id = psf::get_string(installed_psf, "TITLE_ID", ""); const auto installed_app_ver = psf::get_string(installed_psf, "APP_VER", ""); if (title_id != installed_title_id || installed_app_ver.empty()) { // Let's allow this package for now return package_error::no_error; } std::add_pointer_t ev0, ev1; const double old_version = std::strtod(installed_app_ver.data(), &ev0); if (installed_app_ver.data() + installed_app_ver.size() != ev0) { pkg_log.error("Failed to convert the installed app version to double (%s)", installed_app_ver); return package_error::other; } if (target_app_ver.empty()) { // This is most likely the first patch. Let's make sure its version is high enough for the installed game. const double new_version = std::strtod(app_ver.data(), &ev1); if (app_ver.data() + app_ver.size() != ev1) { pkg_log.error("Failed to convert the package's app version to double (%s)", app_ver); return package_error::other; } if (new_version >= old_version) { // Yay! The patch has a higher or equal version than the installed game. return package_error::no_error; } pkg_log.error("The new app version (%s) is smaller than the installed app version (%s)", app_ver, installed_app_ver); return package_error::app_version; } // Check if the installed app version matches the target app version const double target_version = std::strtod(target_app_ver.data(), &ev1); if (target_app_ver.data() + target_app_ver.size() != ev1) { pkg_log.error("Failed to convert the package's target app version to double (%s)", target_app_ver); return package_error::other; } if (target_version == old_version) { // Yay! This patch is for the installed game version. return package_error::no_error; } pkg_log.error("The installed app version (%s) does not match the target app version (%s)", installed_app_ver, target_app_ver); return package_error::app_version; } fs::file DecryptEDAT(const fs::file& input, const std::string& input_file_name, int mode, u8 *custom_klic, bool verbose = false); bool package_reader::extract_data(atomic_t& sync) { if (!m_is_valid) { return false; } // Get full path and create the directory std::string dir = rpcs3::utils::get_hdd0_dir(); // Based on https://www.psdevwiki.com/ps3/PKG_files#ContentType switch (m_metadata.content_type) { case PKG_CONTENT_TYPE_THEME: dir += "theme/"; break; case PKG_CONTENT_TYPE_WIDGET: dir += "widget/"; break; case PKG_CONTENT_TYPE_LICENSE: dir += "home/" + Emu.GetUsr() + "/exdata/"; break; case PKG_CONTENT_TYPE_VSH_MODULE: dir += "vsh/modules/"; break; case PKG_CONTENT_TYPE_PSN_AVATAR: dir += "home/" + Emu.GetUsr() + "/psn_avatar/"; break; case PKG_CONTENT_TYPE_VMC: dir += "tmp/vmc/"; break; // TODO: Find out if other content types are installed elsewhere default: dir += "game/"; break; } // TODO: Verify whether other content types require appending title ID if (m_metadata.content_type != PKG_CONTENT_TYPE_LICENSE) dir += m_install_dir + '/'; // If false, an existing directory is being overwritten: cannot cancel the operation const bool was_null = !fs::is_dir(dir); if (!fs::create_path(dir)) { pkg_log.error("Could not create the installation directory %s", dir); return false; } if (!decrypt_data()) { return false; } usz num_failures = 0; std::vector entries(m_header.file_count); std::memcpy(entries.data(), m_buf.get(), entries.size() * sizeof(PKGEntry)); for (const auto& entry : entries) { if (entry.name_size > 256) { num_failures++; pkg_log.error("PKG name size is too big (0x%x)", entry.name_size); continue; } const bool is_psp = (entry.type & PKG_FILE_ENTRY_PSP) != 0u; decrypt(entry.name_offset, entry.name_size, is_psp ? PKG_AES_KEY2 : m_dec_key.data()); const std::string name{reinterpret_cast(m_buf.get()), entry.name_size}; const std::string path = dir + vfs::escape(name); const bool log_error = entry.pad || (entry.type & ~PKG_FILE_ENTRY_KNOWN_BITS); (log_error ? pkg_log.error : pkg_log.notice)("Entry 0x%08x: %s (pad=0x%x)", entry.type, name, entry.pad); switch (const u8 entry_type = entry.type & 0xff) { case PKG_FILE_ENTRY_NPDRM: case PKG_FILE_ENTRY_NPDRMEDAT: case PKG_FILE_ENTRY_SDAT: case PKG_FILE_ENTRY_REGULAR: case PKG_FILE_ENTRY_UNK0: case PKG_FILE_ENTRY_UNK1: case 0xe: case 0x10: case 0x11: case 0x13: case 0x14: case 0x15: case 0x16: case 0x18: case 0x19: { const bool did_overwrite = fs::is_file(path); if (did_overwrite && !(entry.type & PKG_FILE_ENTRY_OVERWRITE)) { pkg_log.notice("Didn't overwrite %s", path); break; } const bool is_buffered = entry_type == PKG_FILE_ENTRY_SDAT; if (entry_type == PKG_FILE_ENTRY_NPDRMEDAT) { pkg_log.todo("NPDRM EDAT!"); } if (fs::file out = is_buffered ? fs::make_stream>() : fs::file{ path, fs::rewrite }) { bool extract_success = true; for (u64 pos = 0; pos < entry.file_size; pos += BUF_SIZE) { const u64 block_size = std::min(BUF_SIZE, entry.file_size - pos); if (decrypt(entry.file_offset + pos, block_size, is_psp ? PKG_AES_KEY2 : m_dec_key.data()) != block_size) { extract_success = false; pkg_log.error("Failed to extract file %s", path); break; } if (out.write(m_buf.get(), block_size) != block_size) { extract_success = false; pkg_log.error("Failed to write file %s", path); break; } if (sync.fetch_add((block_size + 0.0) / m_header.data_size) < 0.) { if (was_null) { pkg_log.error("Package installation cancelled: %s", dir); out.close(); fs::remove_all(dir, true); return false; } // Cannot cancel the installation sync += 1.; } } if (is_buffered) { out = DecryptEDAT(out, name, 1, reinterpret_cast(&m_header.klicensee), true); if (!out || !fs::write_file(path, fs::rewrite, static_cast>*>(out.release().get())->obj)) { num_failures++; pkg_log.error("Failed to create file %s", path); break; } } if (extract_success) { if (did_overwrite) { pkg_log.warning("Overwritten file %s", path); } else { pkg_log.notice("Created file %s", path); } } else { num_failures++; } } else { num_failures++; pkg_log.error("Failed to create file %s", path); } break; } case PKG_FILE_ENTRY_FOLDER: case 0x12: { if (fs::create_dir(path)) { pkg_log.notice("Created directory %s", path); } else if (fs::is_dir(path)) { pkg_log.warning("Reused existing directory %s", path); } else { num_failures++; pkg_log.error("Failed to create directory %s", path); } break; } default: { num_failures++; pkg_log.error("Unknown PKG entry type (0x%x) %s", entry.type, name); } } } if (num_failures == 0) { pkg_log.success("Package successfully installed to %s", dir); } else { fs::remove_all(dir, true); pkg_log.error("Package installation failed: %s", dir); } return num_failures == 0; } void package_reader::archive_seek(const s64 new_offset, const fs::seek_mode damode) { if (m_file) m_file.seek(new_offset, damode); }; u64 package_reader::archive_read(void* data_ptr, const u64 num_bytes) { return m_file ? m_file.read(data_ptr, num_bytes) : 0; }; u64 package_reader::decrypt(u64 offset, u64 size, const uchar* key) { if (!m_is_valid) { return 0; } if (!m_buf) { // Allocate buffer with BUF_SIZE size or more if required m_buf.reset(new u128[std::max(BUF_SIZE, sizeof(PKGEntry) * m_header.file_count) / sizeof(u128)]); } archive_seek(m_header.data_offset + offset); // Read the data and set available size const u64 read = archive_read(m_buf.get(), size); // Get block count const u64 blocks = (read + 15) / 16; if (m_header.pkg_type == PKG_RELEASE_TYPE_DEBUG) { // Debug key be_t input[8] = { m_header.qa_digest[0], m_header.qa_digest[0], m_header.qa_digest[1], m_header.qa_digest[1], }; for (u64 i = 0; i < blocks; i++) { // Initialize stream cipher for current position input[7] = offset / 16 + i; union sha1_hash { u8 data[20]; u128 _v128; } hash; sha1(reinterpret_cast(input), sizeof(input), hash.data); m_buf[i] ^= hash._v128; } } else if (m_header.pkg_type == PKG_RELEASE_TYPE_RELEASE) { aes_context ctx; // Set encryption key for stream cipher aes_setkey_enc(&ctx, key, 128); // Initialize stream cipher for start position be_t input = m_header.klicensee.value() + offset / 16; // Increment stream position for every block for (u64 i = 0; i < blocks; i++, input++) { u128 key; aes_crypt_ecb(&ctx, AES_ENCRYPT, reinterpret_cast(&input), reinterpret_cast(&key)); m_buf[i] ^= key; } } else { pkg_log.error("Unknown release type (0x%x)", m_header.pkg_type); } // Return the amount of data written in buf return read; };