mirror of
https://github.com/Atmosphere-NX/Atmosphere.git
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385 lines
16 KiB
C
385 lines
16 KiB
C
/*
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* Copyright (c) 2018-2020 Atmosphère-NX
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <vapours/ams_version.h>
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#include "utils.h"
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#include "masterkey.h"
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#include "stratosphere.h"
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#include "package2.h"
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#include "kernel_patches.h"
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#include "kip.h"
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#include "se.h"
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#include "fs_utils.h"
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#define u8 uint8_t
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#define u32 uint32_t
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#include "thermosphere_bin.h"
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#include "../../../fusee/common/log.h"
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#undef u8
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#undef u32
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static void package2_decrypt(package2_header_t *package2);
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static size_t package2_get_src_section(void **section, package2_header_t *package2, unsigned int id);
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static size_t package2_get_thermosphere(void **thermosphere);
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static ini1_header_t *package2_rebuild_ini1(ini1_header_t *ini1, uint32_t target_firmware, void *emummc, size_t emummc_size);
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static void package2_append_section(unsigned int id, package2_header_t *package2, void *data, size_t size);
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static void package2_fixup_header_and_section_hashes(package2_header_t *package2, size_t size);
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static inline size_t align_to_4(size_t s) {
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return ((s + 3) >> 2) << 2;
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}
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void package2_rebuild_and_copy(package2_header_t *package2, uint32_t target_firmware, void *mesosphere, size_t mesosphere_size, void *emummc, size_t emummc_size) {
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package2_header_t *rebuilt_package2;
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size_t rebuilt_package2_size;
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void *kernel;
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size_t kernel_size;
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bool is_sd_kernel = false;
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void *thermosphere;
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size_t thermosphere_size;
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ini1_header_t *orig_ini1, *rebuilt_ini1;
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/* First things first: Decrypt Package2 in place. */
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package2_decrypt(package2);
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print(SCREEN_LOG_LEVEL_DEBUG, "Decrypted package2!\n");
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kernel_size = package2_get_src_section(&kernel, package2, PACKAGE2_SECTION_KERNEL);
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/* Modify Package2 to add an additional thermosphere section. */
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thermosphere_size = package2_get_thermosphere(&thermosphere);
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if (thermosphere_size != 0 && package2->metadata.section_sizes[PACKAGE2_SECTION_UNUSED] != 0) {
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fatal_error(u8"Error: Package2 has no unused section for Thermosphère!\n");
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}
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/* Load Kernel from SD, if possible. */
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{
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size_t sd_kernel_size = get_file_size("atmosphere/kernel.bin");
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if (sd_kernel_size != 0) {
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if (sd_kernel_size > PACKAGE2_SIZE_MAX) {
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fatal_error("Error: atmosphere/kernel.bin is too large!\n");
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}
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kernel = malloc(sd_kernel_size);
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if (kernel == NULL) {
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fatal_error("Error: failed to allocate kernel!\n");
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}
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if (read_from_file(kernel, sd_kernel_size, "atmosphere/kernel.bin") != sd_kernel_size) {
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fatal_error("Error: failed to read atmosphere/kernel.bin!\n");
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}
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kernel_size = sd_kernel_size;
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is_sd_kernel = true;
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}
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}
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/* Perform any patches we want to the NX kernel. */
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package2_patch_kernel(kernel, &kernel_size, is_sd_kernel, (void *)&orig_ini1, target_firmware);
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/* Ensure we know where embedded INI is if present, and we don't if not. */
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if ((target_firmware < ATMOSPHERE_TARGET_FIRMWARE_8_0_0 && orig_ini1 != NULL) ||
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(target_firmware >= ATMOSPHERE_TARGET_FIRMWARE_8_0_0 && orig_ini1 == NULL)) {
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fatal_error("Error: inappropriate kernel embedded ini context");
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}
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/* Use mesosphere instead of Nintendo's kernel when present. */
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const bool is_mesosphere = mesosphere != NULL && mesosphere_size != 0;
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if (is_mesosphere) {
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kernel = mesosphere;
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kernel_size = mesosphere_size;
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/* Patch mesosphere to use our rebuilt ini. */
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*(volatile uint64_t *)((uintptr_t)mesosphere + 8) = (uint64_t)mesosphere_size;
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/* Place the kernel section at the correct location. */
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package2->metadata.section_offsets[PACKAGE2_SECTION_KERNEL] = 0x60000;
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package2->metadata.entrypoint = 0x60000;
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print(SCREEN_LOG_LEVEL_DEBUG, "Using Mesosphere...\n");
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}
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print(SCREEN_LOG_LEVEL_DEBUG, "Rebuilding the INI1 section...\n");
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if (target_firmware < ATMOSPHERE_TARGET_FIRMWARE_8_0_0) {
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package2_get_src_section((void *)&orig_ini1, package2, PACKAGE2_SECTION_INI1);
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}
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if (target_firmware >= ATMOSPHERE_TARGET_FIRMWARE_8_0_0 || is_mesosphere) {
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/* On 8.0.0, place INI1 right after kernelldr for our sanity. */
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package2->metadata.section_offsets[PACKAGE2_SECTION_INI1] = package2->metadata.section_offsets[PACKAGE2_SECTION_KERNEL] + kernel_size;
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}
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/* Perform any patches to the INI1, rebuilding it (This is where our built-in sysmodules will be added.) */
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rebuilt_ini1 = package2_rebuild_ini1(orig_ini1, target_firmware, emummc, emummc_size);
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print(SCREEN_LOG_LEVEL_DEBUG, "Rebuilt INI1...\n");
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/* Allocate the rebuilt package2. */
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rebuilt_package2_size = sizeof(package2_header_t) + kernel_size + align_to_4(thermosphere_size) + align_to_4(rebuilt_ini1->size);
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if (rebuilt_package2_size > PACKAGE2_SIZE_MAX) {
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fatal_error("rebuilt package2 is too big!\n");
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}
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rebuilt_package2 = (package2_header_t *)malloc(rebuilt_package2_size);
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if (rebuilt_package2 == NULL) {
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fatal_error("package2_rebuild: out of memory!\n");
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}
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/* Rebuild package2. */
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memcpy(rebuilt_package2, package2, sizeof(package2_header_t));
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package2_append_section(PACKAGE2_SECTION_KERNEL, rebuilt_package2, kernel, kernel_size);
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package2_append_section(PACKAGE2_SECTION_INI1, rebuilt_package2, rebuilt_ini1, rebuilt_ini1->size);
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package2_append_section(PACKAGE2_SECTION_UNUSED, rebuilt_package2, thermosphere, thermosphere_size);
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/* Fix all necessary data in the header to accomodate for the new patches. */
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package2_fixup_header_and_section_hashes(rebuilt_package2, rebuilt_package2_size);
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/* Relocate Package2. */
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memcpy(NX_BOOTLOADER_PACKAGE2_LOAD_ADDRESS, rebuilt_package2, rebuilt_package2_size);
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/* We're done. */
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free(rebuilt_ini1);
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free(rebuilt_package2);
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}
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static void package2_crypt_ctr(unsigned int master_key_rev, void *dst, size_t dst_size, const void *src, size_t src_size, const void *ctr, size_t ctr_size) {
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/* Derive package2 key. */
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const uint8_t __attribute__((aligned(16))) package2_key_source[0x10] = {
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0xFB, 0x8B, 0x6A, 0x9C, 0x79, 0x00, 0xC8, 0x49, 0xEF, 0xD2, 0x4D, 0x85, 0x4D, 0x30, 0xA0, 0xC7
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};
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unsigned int keyslot = mkey_get_keyslot(master_key_rev);
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decrypt_data_into_keyslot(KEYSLOT_SWITCH_PACKAGE2KEY, keyslot, package2_key_source, 0x10);
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/* Perform Encryption. */
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se_aes_ctr_crypt(KEYSLOT_SWITCH_PACKAGE2KEY, dst, dst_size, src, src_size, ctr, ctr_size);
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}
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static bool package2_validate_metadata(package2_meta_t *metadata, uint8_t data[]) {
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if (metadata->magic != MAGIC_PK21) {
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return false;
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}
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/* Package2 size, version number is stored XORed in header CTR. */
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/* Nintendo, what the fuck? */
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uint32_t package_size = package2_meta_get_size(metadata);
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uint8_t header_version = package2_meta_get_header_version(metadata);
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/* Ensure package isn't too big or too small. */
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if (package_size <= sizeof(package2_header_t) || package_size > PACKAGE2_SIZE_MAX) {
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return false;
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}
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/* Validate that we're working with a header we know how to handle. */
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if (header_version > MASTERKEY_REVISION_MAX) {
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return false;
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}
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/* Require aligned entrypoint. */
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if (metadata->entrypoint & 3) {
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return false;
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}
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/* Validate section size sanity. */
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if (metadata->section_sizes[0] + metadata->section_sizes[1] + metadata->section_sizes[2] + sizeof(package2_header_t) != package_size) {
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return false;
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}
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bool entrypoint_found = false;
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/* Header has space for 4 sections, but only 3 are validated/potentially loaded on hardware. */
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size_t cur_section_offset = 0;
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for (unsigned int section = 0; section < PACKAGE2_SECTION_MAX; section++) {
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/* Validate section size alignment. */
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if (metadata->section_sizes[section] & 3) {
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return false;
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}
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/* Validate section does not overflow. */
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if (check_32bit_additive_overflow(metadata->section_offsets[section], metadata->section_sizes[section])) {
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return false;
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}
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/* Check for entrypoint presence. */
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uint32_t section_end = metadata->section_offsets[section] + metadata->section_sizes[section];
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if (metadata->section_offsets[section] <= metadata->entrypoint && metadata->entrypoint < section_end) {
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entrypoint_found = true;
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}
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/* Ensure no overlap with later sections. */
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if (metadata->section_sizes[section] != 0) {
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for (unsigned int later_section = section + 1; later_section < PACKAGE2_SECTION_MAX; later_section++) {
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if (metadata->section_sizes[later_section] == 0) {
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continue;
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}
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uint32_t later_section_end = metadata->section_offsets[later_section] + metadata->section_sizes[later_section];
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if (overlaps(metadata->section_offsets[section], section_end, metadata->section_offsets[later_section], later_section_end)) {
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return false;
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}
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}
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}
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/* Validate section hashes. */
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if (metadata->section_sizes[section]) {
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void *section_data = data + cur_section_offset;
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uint8_t calculated_hash[0x20];
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se_calculate_sha256(calculated_hash, section_data, metadata->section_sizes[section]);
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if (memcmp(calculated_hash, metadata->section_hashes[section], sizeof(metadata->section_hashes[section])) != 0) {
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return false;
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}
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cur_section_offset += metadata->section_sizes[section];
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}
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}
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/* Ensure that entrypoint is present in one of our sections. */
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if (!entrypoint_found) {
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return false;
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}
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/* Perform version checks. */
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/* We will be compatible with all package2s released before current, but not newer ones. */
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if (metadata->version_max >= PACKAGE2_MINVER_THEORETICAL && metadata->version_min < PACKAGE2_MAXVER_1100_CURRENT) {
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return true;
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}
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return false;
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}
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static uint32_t package2_decrypt_and_validate_header(package2_header_t *header, bool is_plaintext) {
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package2_meta_t metadata;
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/* TODO: Also accept plaintext package2 based on bootconfig. */
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if (!is_plaintext) {
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uint32_t mkey_rev;
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/* Try to decrypt for all possible master keys. */
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for (mkey_rev = 0; mkey_rev <= mkey_get_revision(); mkey_rev++) {
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package2_crypt_ctr(mkey_rev, &metadata, sizeof(package2_meta_t), &header->metadata, sizeof(package2_meta_t), header->metadata.ctr, sizeof(header->metadata.ctr));
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/* Copy the ctr (which stores information) into the decrypted metadata. */
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memcpy(metadata.ctr, header->metadata.ctr, sizeof(header->metadata.ctr));
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/* See if this is the correct key. */
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if (package2_validate_metadata(&metadata, header->data)) {
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header->metadata = metadata;
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return mkey_rev;
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}
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}
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/* Ensure we successfully decrypted the header. */
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if (mkey_rev > mkey_get_revision()) {
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fatal_error("Failed to decrypt the Package2 header (master key revision %u)!\n", mkey_get_revision());
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}
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} else if (!package2_validate_metadata(&header->metadata, header->data)) {
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fatal_error("Failed to validate the Package2 header!\n");
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}
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return 0;
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}
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static void package2_decrypt(package2_header_t *package2) {
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bool is_package2_plaintext = package2->signature[0];
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is_package2_plaintext &= memcmp(package2->signature, package2->signature + 1, sizeof(package2->signature) - 1) == 0;
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is_package2_plaintext &= package2->metadata.magic == MAGIC_PK21;
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uint32_t pk21_mkey_revision = package2_decrypt_and_validate_header(package2, is_package2_plaintext);
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size_t cur_section_offset = 0;
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/* Copy each section to its appropriate location, decrypting if necessary. */
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for (unsigned int section = 0; section < PACKAGE2_SECTION_MAX; section++) {
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if (package2->metadata.section_sizes[section] == 0) {
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continue;
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}
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void *src_start = package2->data + cur_section_offset;
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void *dst_start = src_start;
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size_t size = (size_t)package2->metadata.section_sizes[section];
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if (is_package2_plaintext&& size != 0) {
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memcpy(dst_start, src_start, size);
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} else if (size != 0) {
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package2_crypt_ctr(pk21_mkey_revision, dst_start, size, src_start, size, package2->metadata.section_ctrs[section], 0x10);
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}
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cur_section_offset += size;
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}
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/* Clear the signature, to signal that this is a plaintext, unsigned package2. */
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memset(package2->signature, 0, sizeof(package2->signature));
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}
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static size_t package2_get_src_section(void **section, package2_header_t *package2, unsigned int id) {
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uint8_t *data = package2->data;
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for (unsigned int i = 0; i < id; i++) {
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data += package2->metadata.section_sizes[i];
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}
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(*section) = data;
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return package2->metadata.section_sizes[id];
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}
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static size_t package2_get_thermosphere(void **thermosphere) {
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/*extern const uint8_t thermosphere_bin[];
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extern const uint32_t thermosphere_bin_size;*/
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/* TODO: enable when tested. */
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(*thermosphere) = NULL;
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return 0;
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}
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static ini1_header_t *package2_rebuild_ini1(ini1_header_t *ini1, uint32_t target_firmware, void *emummc, size_t emummc_size) {
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/* TODO: Do we want to support loading another INI from sd:/whatever/INI1.bin? */
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ini1_header_t *inis_to_merge[STRATOSPHERE_INI1_MAX] = {0};
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ini1_header_t *merged;
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inis_to_merge[STRATOSPHERE_INI1_SDFILES] = stratosphere_get_sd_files_ini1();
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inis_to_merge[STRATOSPHERE_INI1_EMBEDDED] = stratosphere_get_ini1(target_firmware);
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inis_to_merge[STRATOSPHERE_INI1_PACKAGE2] = ini1;
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/* Merge all of the INI1s. */
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merged = stratosphere_merge_inis(inis_to_merge, STRATOSPHERE_INI1_MAX, emummc, emummc_size);
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/* Free temporary buffer. */
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stratosphere_free_ini1();
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return merged;
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}
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static void package2_append_section(unsigned int id, package2_header_t *package2, void *data, size_t size) {
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/* This function must be called in ascending order of id. */
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/* We assume that the loading address doesn't need to be changed. */
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uint8_t *dst = package2->data;
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for (unsigned int i = 0; i < id; i++) {
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dst += package2->metadata.section_sizes[i];
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}
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memcpy(dst, data, size);
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package2->metadata.section_sizes[id] = align_to_4(size);
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}
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static void package2_fixup_header_and_section_hashes(package2_header_t *package2, size_t size) {
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uint8_t *data = package2->data;
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for (unsigned int section = 0; section < PACKAGE2_SECTION_MAX; section++) {
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size_t sz = (size_t)package2->metadata.section_sizes[section];
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if (sz == 0) {
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continue;
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}
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/* Fix up the hash. */
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se_calculate_sha256(package2->metadata.section_hashes[section], data, sz);
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data += sz;
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}
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/* Fix up the size in XOR'd CTR. */
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uint32_t package_size = package2->metadata.ctr_dwords[0] ^ package2->metadata.ctr_dwords[2] ^ package2->metadata.ctr_dwords[3];
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package2->metadata.ctr_dwords[3] ^= (package_size ^ size);
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}
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