mirror of
https://github.com/CTCaer/hekate
synced 2024-11-20 10:59:26 +00:00
380 lines
10 KiB
C
380 lines
10 KiB
C
/*
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* Copyright (c) 2018 naehrwert
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* Copyright (c) 2018-2021 CTCaer
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* Copyright (c) 2018 Reisyukaku
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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 <string.h>
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#include <stdlib.h>
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#include "fe_tools.h"
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#include "../config.h"
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#include <gfx_utils.h>
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#include "../gfx/tui.h"
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#include "../hos/hos.h"
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#include "../hos/pkg1.h"
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#include "../hos/pkg2.h"
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#include <libs/fatfs/ff.h>
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#include <mem/heap.h>
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#include <power/max7762x.h>
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#include <sec/se.h>
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#include <sec/se_t210.h>
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#include "../storage/nx_emmc.h"
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#include <storage/nx_sd.h>
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#include <storage/sdmmc.h>
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#include <soc/fuse.h>
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#include <utils/btn.h>
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#include <utils/util.h>
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extern boot_cfg_t b_cfg;
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extern hekate_config h_cfg;
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extern void emmcsn_path_impl(char *path, char *sub_dir, char *filename, sdmmc_storage_t *storage);
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#pragma GCC push_options
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#pragma GCC optimize ("Os")
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void dump_packages12()
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{
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if (!sd_mount())
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return;
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char path[64];
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u8 *pkg1 = (u8 *)calloc(1, SZ_256K);
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u8 *warmboot = (u8 *)calloc(1, SZ_256K);
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u8 *secmon = (u8 *)calloc(1, SZ_256K);
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u8 *loader = (u8 *)calloc(1, SZ_256K);
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u8 *pkg2 = NULL;
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u8 kb = 0;
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tsec_ctxt_t tsec_ctxt;
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gfx_clear_partial_grey(0x1B, 0, 1256);
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gfx_con_setpos(0, 0);
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if (!sdmmc_storage_init_mmc(&emmc_storage, &emmc_sdmmc, SDMMC_BUS_WIDTH_8, SDHCI_TIMING_MMC_HS400))
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{
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EPRINTF("Failed to init eMMC.");
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goto out_free;
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}
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sdmmc_storage_set_mmc_partition(&emmc_storage, EMMC_BOOT0);
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// Read package1.
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sdmmc_storage_read(&emmc_storage, 0x100000 / NX_EMMC_BLOCKSIZE, SZ_256K / NX_EMMC_BLOCKSIZE, pkg1);
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const pkg1_id_t *pkg1_id = pkg1_identify(pkg1);
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if (!pkg1_id)
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{
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EPRINTF("Unknown pkg1 version for reading\nTSEC firmware.");
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// Dump package1.
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emmcsn_path_impl(path, "/pkg1", "pkg1_enc.bin", &emmc_storage);
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if (sd_save_to_file(pkg1, SZ_256K, path))
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goto out_free;
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gfx_puts("\nEnc pkg1 dumped to pkg1_enc.bin\n");
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goto out_free;
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}
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kb = pkg1_id->kb;
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tsec_ctxt.fw = (void *)pkg1 + pkg1_id->tsec_off;
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tsec_ctxt.pkg1 = (void *)pkg1;
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tsec_ctxt.pkg11_off = pkg1_id->pkg11_off;
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tsec_ctxt.secmon_base = pkg1_id->secmon_base;
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// Read keyblob.
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u8 *keyblob = (u8 *)calloc(NX_EMMC_BLOCKSIZE, 1);
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sdmmc_storage_read(&emmc_storage, 0x180000 / NX_EMMC_BLOCKSIZE + kb, 1, keyblob);
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// Decrypt.
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hos_keygen(keyblob, kb, &tsec_ctxt, false, false);
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free(keyblob);
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if (kb <= KB_FIRMWARE_VERSION_600)
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pkg1_decrypt(pkg1_id, pkg1);
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if (kb <= KB_FIRMWARE_VERSION_620)
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{
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const u8 *sec_map = pkg1_unpack(warmboot, NULL, secmon, loader, pkg1_id, pkg1);
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pk11_hdr_t *hdr_pk11 = (pk11_hdr_t *)(pkg1 + pkg1_id->pkg11_off + 0x20);
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// Use correct sizes.
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u32 sec_size[3] = { hdr_pk11->wb_size, hdr_pk11->ldr_size, hdr_pk11->sm_size };
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for (u32 i = 0; i < 3; i++)
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{
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if (sec_map[i] == PK11_SECTION_WB)
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hdr_pk11->wb_size = sec_size[i];
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else if (sec_map[i] == PK11_SECTION_LD)
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hdr_pk11->ldr_size = sec_size[i];
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else if (sec_map[i] == PK11_SECTION_SM)
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hdr_pk11->sm_size = sec_size[i];
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}
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// Display info.
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gfx_printf("%kNX Bootloader size: %k0x%05X\n\n", 0xFFC7EA46, 0xFFCCCCCC, hdr_pk11->ldr_size);
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gfx_printf("%kSecure monitor addr: %k0x%05X\n", 0xFFC7EA46, 0xFFCCCCCC, pkg1_id->secmon_base);
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gfx_printf("%kSecure monitor size: %k0x%05X\n\n", 0xFFC7EA46, 0xFFCCCCCC, hdr_pk11->sm_size);
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gfx_printf("%kWarmboot addr: %k0x%05X\n", 0xFFC7EA46, 0xFFCCCCCC, pkg1_id->warmboot_base);
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gfx_printf("%kWarmboot size: %k0x%05X\n\n", 0xFFC7EA46, 0xFFCCCCCC, hdr_pk11->wb_size);
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// Dump package1.1.
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emmcsn_path_impl(path, "/pkg1", "pkg1_decr.bin", &emmc_storage);
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if (sd_save_to_file(pkg1, SZ_256K, path))
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goto out_free;
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gfx_puts("\npkg1 dumped to pkg1_decr.bin\n");
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// Dump nxbootloader.
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emmcsn_path_impl(path, "/pkg1", "nxloader.bin", &emmc_storage);
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if (sd_save_to_file(loader, hdr_pk11->ldr_size, path))
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goto out_free;
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gfx_puts("NX Bootloader dumped to nxloader.bin\n");
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// Dump secmon.
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emmcsn_path_impl(path, "/pkg1", "secmon.bin", &emmc_storage);
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if (sd_save_to_file(secmon, hdr_pk11->sm_size, path))
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goto out_free;
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gfx_puts("Secure Monitor dumped to secmon.bin\n");
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// Dump warmboot.
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emmcsn_path_impl(path, "/pkg1", "warmboot.bin", &emmc_storage);
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if (sd_save_to_file(warmboot, hdr_pk11->wb_size, path))
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goto out_free;
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gfx_puts("Warmboot dumped to warmboot.bin\n\n\n");
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}
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// Dump package2.1.
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sdmmc_storage_set_mmc_partition(&emmc_storage, EMMC_GPP);
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// Parse eMMC GPT.
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LIST_INIT(gpt);
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nx_emmc_gpt_parse(&gpt, &emmc_storage);
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// Find package2 partition.
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emmc_part_t *pkg2_part = nx_emmc_part_find(&gpt, "BCPKG2-1-Normal-Main");
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if (!pkg2_part)
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goto out;
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// Read in package2 header and get package2 real size.
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u8 *tmp = (u8 *)malloc(NX_EMMC_BLOCKSIZE);
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nx_emmc_part_read(&emmc_storage, pkg2_part, 0x4000 / NX_EMMC_BLOCKSIZE, 1, tmp);
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u32 *hdr_pkg2_raw = (u32 *)(tmp + 0x100);
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u32 pkg2_size = hdr_pkg2_raw[0] ^ hdr_pkg2_raw[2] ^ hdr_pkg2_raw[3];
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free(tmp);
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// Read in package2.
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u32 pkg2_size_aligned = ALIGN(pkg2_size, NX_EMMC_BLOCKSIZE);
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pkg2 = malloc(pkg2_size_aligned);
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nx_emmc_part_read(&emmc_storage, pkg2_part, 0x4000 / NX_EMMC_BLOCKSIZE,
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pkg2_size_aligned / NX_EMMC_BLOCKSIZE, pkg2);
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#if 0
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emmcsn_path_impl(path, "/pkg2", "pkg2_encr.bin", &emmc_storage);
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if (sd_save_to_file(pkg2, pkg2_size_aligned, path))
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goto out;
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gfx_puts("\npkg2 dumped to pkg2_encr.bin\n");
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#endif
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// Decrypt package2 and parse KIP1 blobs in INI1 section.
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pkg2_hdr_t *pkg2_hdr = pkg2_decrypt(pkg2, kb, false);
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if (!pkg2_hdr)
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{
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gfx_printf("Pkg2 decryption failed!\n");
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goto out;
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}
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// Display info.
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gfx_printf("%kKernel size: %k0x%05X\n\n", 0xFFC7EA46, 0xFFCCCCCC, pkg2_hdr->sec_size[PKG2_SEC_KERNEL]);
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gfx_printf("%kINI1 size: %k0x%05X\n\n", 0xFFC7EA46, 0xFFCCCCCC, pkg2_hdr->sec_size[PKG2_SEC_INI1]);
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// Dump pkg2.1.
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emmcsn_path_impl(path, "/pkg2", "pkg2_decr.bin", &emmc_storage);
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if (sd_save_to_file(pkg2, pkg2_hdr->sec_size[PKG2_SEC_KERNEL] + pkg2_hdr->sec_size[PKG2_SEC_INI1], path))
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goto out;
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gfx_puts("\npkg2 dumped to pkg2_decr.bin\n");
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// Dump kernel.
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emmcsn_path_impl(path, "/pkg2", "kernel.bin", &emmc_storage);
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if (sd_save_to_file(pkg2_hdr->data, pkg2_hdr->sec_size[PKG2_SEC_KERNEL], path))
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goto out;
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gfx_puts("Kernel dumped to kernel.bin\n");
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// Dump INI1.
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emmcsn_path_impl(path, "/pkg2", "ini1.bin", &emmc_storage);
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u32 ini1_off = pkg2_hdr->sec_size[PKG2_SEC_KERNEL];
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u32 ini1_size = pkg2_hdr->sec_size[PKG2_SEC_INI1];
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if (!ini1_size)
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{
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pkg2_get_newkern_info(pkg2_hdr->data);
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ini1_off = pkg2_newkern_ini1_start;
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ini1_size = pkg2_newkern_ini1_end - pkg2_newkern_ini1_start;
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}
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if (ini1_off)
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{
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if (sd_save_to_file(pkg2_hdr->data + ini1_off, ini1_size, path))
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goto out;
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gfx_puts("INI1 dumped to ini1.bin\n");
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}
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else
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{
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gfx_puts("Failed to dump INI1!\n");
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goto out;
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}
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gfx_puts("\nDone. Press any key...\n");
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out:
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nx_emmc_gpt_free(&gpt);
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out_free:
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free(pkg1);
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free(secmon);
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free(warmboot);
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free(loader);
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free(pkg2);
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sdmmc_storage_end(&emmc_storage);
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sd_end();
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if (kb >= KB_FIRMWARE_VERSION_620)
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se_aes_key_clear(8);
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btn_wait();
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}
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void _toggle_autorcm(bool enable)
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{
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gfx_clear_partial_grey(0x1B, 0, 1256);
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gfx_con_setpos(0, 0);
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if (!sdmmc_storage_init_mmc(&emmc_storage, &emmc_sdmmc, SDMMC_BUS_WIDTH_8, SDHCI_TIMING_MMC_HS400))
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{
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EPRINTF("Failed to init eMMC.");
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goto out;
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}
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u8 *tempbuf = (u8 *)malloc(0x200);
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sdmmc_storage_set_mmc_partition(&emmc_storage, EMMC_BOOT0);
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int i, sect = 0;
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u8 corr_mod0, mod1;
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// Get the correct RSA modulus byte masks.
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nx_emmc_get_autorcm_masks(&corr_mod0, &mod1);
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// Iterate BCTs.
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for (i = 0; i < 4; i++)
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{
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sect = (0x200 + (0x4000 * i)) / NX_EMMC_BLOCKSIZE;
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sdmmc_storage_read(&emmc_storage, sect, 1, tempbuf);
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// Check if 2nd byte of modulus is correct.
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if (tempbuf[0x11] != mod1)
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continue;
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if (enable)
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tempbuf[0x10] = 0;
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else
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tempbuf[0x10] = corr_mod0;
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sdmmc_storage_write(&emmc_storage, sect, 1, tempbuf);
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}
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free(tempbuf);
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sdmmc_storage_end(&emmc_storage);
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if (enable)
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gfx_printf("%kAutoRCM mode enabled!%k", 0xFFFFBA00, 0xFFCCCCCC);
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else
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gfx_printf("%kAutoRCM mode disabled!%k", 0xFF96FF00, 0xFFCCCCCC);
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gfx_printf("\n\nPress any key...\n");
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out:
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btn_wait();
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}
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void _enable_autorcm() { _toggle_autorcm(true); }
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void _disable_autorcm() { _toggle_autorcm(false); }
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void menu_autorcm()
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{
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gfx_clear_grey(0x1B);
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gfx_con_setpos(0, 0);
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if (h_cfg.rcm_patched)
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{
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WPRINTF("This device is RCM patched and the\nfunction is disabled to avoid BRICKS!\n");
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btn_wait();
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return;
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}
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// Do a simple check on the main BCT.
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bool disabled = true;
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if (!sdmmc_storage_init_mmc(&emmc_storage, &emmc_sdmmc, SDMMC_BUS_WIDTH_8, SDHCI_TIMING_MMC_HS400))
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{
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EPRINTF("Failed to init eMMC.");
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btn_wait();
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return;
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}
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u8 mod0, mod1;
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// Get the correct RSA modulus byte masks.
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nx_emmc_get_autorcm_masks(&mod0, &mod1);
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u8 *tempbuf = (u8 *)malloc(0x200);
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sdmmc_storage_set_mmc_partition(&emmc_storage, EMMC_BOOT0);
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sdmmc_storage_read(&emmc_storage, 0x200 / NX_EMMC_BLOCKSIZE, 1, tempbuf);
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// Check if 2nd byte of modulus is correct.
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if (tempbuf[0x11] == mod1)
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if (tempbuf[0x10] != mod0)
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disabled = false;
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free(tempbuf);
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sdmmc_storage_end(&emmc_storage);
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// Create AutoRCM menu.
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ment_t *ments = (ment_t *)malloc(sizeof(ment_t) * 6);
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ments[0].type = MENT_BACK;
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ments[0].caption = "Back";
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ments[1].type = MENT_CHGLINE;
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ments[2].type = MENT_CAPTION;
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ments[3].type = MENT_CHGLINE;
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if (disabled)
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{
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ments[2].caption = "Status: Disabled!";
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ments[2].color = 0xFF96FF00;
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ments[4].caption = "Enable AutoRCM";
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ments[4].handler = _enable_autorcm;
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}
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else
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{
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ments[2].caption = "Status: Enabled!";
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ments[2].color = 0xFFFFBA00;
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ments[4].caption = "Disable AutoRCM";
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ments[4].handler = _disable_autorcm;
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}
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ments[4].type = MENT_HDLR_RE;
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ments[4].data = NULL;
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memset(&ments[5], 0, sizeof(ment_t));
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menu_t menu = {ments, "This corrupts BOOT0!", 0, 0};
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tui_do_menu(&menu);
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}
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#pragma GCC pop_options
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