mirror of
https://github.com/Atmosphere-NX/Atmosphere.git
synced 2024-12-02 16:52:25 +00:00
446 lines
16 KiB
C
446 lines
16 KiB
C
/*
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* Copyright (c) 2018 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 <malloc.h>
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#include <errno.h>
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#include <string.h>
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#include "nxfs.h"
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#include "mc.h"
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#include "gpt.h"
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#include "se.h"
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#include "utils.h"
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#include "sdmmc/sdmmc.h"
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static bool g_ahb_redirect_enabled = false;
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static bool g_sd_device_initialized = false;
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static bool g_emmc_device_initialized = false;
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static sdmmc_t g_sd_sdmmc = {0};
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static sdmmc_t g_emmc_sdmmc = {0};
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static sdmmc_device_t g_sd_device = {0};
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static sdmmc_device_t g_emmc_device = {0};
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typedef struct mmc_partition_info_t {
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sdmmc_device_t *device;
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SdmmcControllerNum controller;
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SdmmcPartitionNum partition;
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} mmc_partition_info_t;
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static mmc_partition_info_t g_sd_mmcpart = {&g_sd_device, SDMMC_1, SDMMC_PARTITION_USER};
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static mmc_partition_info_t g_emmc_boot0_mmcpart = {&g_emmc_device, SDMMC_4, SDMMC_PARTITION_BOOT0};
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static mmc_partition_info_t g_emmc_boot1_mmcpart = {&g_emmc_device, SDMMC_4, SDMMC_PARTITION_BOOT1};
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static mmc_partition_info_t g_emmc_user_mmcpart = {&g_emmc_device, SDMMC_4, SDMMC_PARTITION_USER};
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SdmmcPartitionNum g_current_emmc_partition = SDMMC_PARTITION_INVALID;
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static int mmc_partition_initialize(device_partition_t *devpart) {
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mmc_partition_info_t *mmcpart = (mmc_partition_info_t *)devpart->device_struct;
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if (devpart->read_cipher != NULL || devpart->write_cipher != NULL) {
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devpart->crypto_work_buffer = memalign(16, devpart->sector_size * 16);
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if (devpart->crypto_work_buffer == NULL) {
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return ENOMEM;
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} else {
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devpart->crypto_work_buffer_num_sectors = devpart->sector_size * 16;
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}
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} else {
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devpart->crypto_work_buffer = NULL;
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devpart->crypto_work_buffer_num_sectors = 0;
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}
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/* Enable AHB redirection if necessary. */
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if (!g_ahb_redirect_enabled) {
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mc_enable_ahb_redirect();
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g_ahb_redirect_enabled = true;
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}
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if (mmcpart->device == &g_sd_device) {
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if (!g_sd_device_initialized) {
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int rc = sdmmc_device_sd_init(mmcpart->device, &g_sd_sdmmc, SDMMC_BUS_WIDTH_4BIT, SDMMC_SPEED_SDR104) ? 0 : EIO;
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if (rc)
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return rc;
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g_sd_device_initialized = true;
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}
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devpart->initialized = true;
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return 0;
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} else if (mmcpart->device == &g_emmc_device) {
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if (!g_emmc_device_initialized) {
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int rc = sdmmc_device_mmc_init(mmcpart->device, &g_emmc_sdmmc, SDMMC_BUS_WIDTH_8BIT, SDMMC_SPEED_HS400) ? 0 : EIO;
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if (rc)
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return rc;
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g_emmc_device_initialized = true;
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}
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devpart->initialized = true;
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return 0;
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}
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return 0;
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}
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static void mmc_partition_finalize(device_partition_t *devpart) {
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free(devpart->crypto_work_buffer);
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/* Disable AHB redirection if necessary. */
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if (g_ahb_redirect_enabled) {
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mc_disable_ahb_redirect();
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g_ahb_redirect_enabled = false;
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}
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}
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static int mmc_partition_read(device_partition_t *devpart, void *dst, uint64_t sector, uint64_t num_sectors) {
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mmc_partition_info_t *mmcpart = (mmc_partition_info_t *)devpart->device_struct;
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if ((mmcpart->device == &g_emmc_device) && (g_current_emmc_partition != mmcpart->partition)) {
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if (!sdmmc_mmc_select_partition(mmcpart->device, mmcpart->partition))
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return EIO;
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g_current_emmc_partition = mmcpart->partition;
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}
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return sdmmc_device_read(mmcpart->device, (uint32_t)(devpart->start_sector + sector), (uint32_t)num_sectors, dst) ? 0 : EIO;
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}
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static int mmc_partition_write(device_partition_t *devpart, const void *src, uint64_t sector, uint64_t num_sectors) {
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mmc_partition_info_t *mmcpart = (mmc_partition_info_t *)devpart->device_struct;
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if ((mmcpart->device == &g_emmc_device) && (g_current_emmc_partition != mmcpart->partition)) {
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if (!sdmmc_mmc_select_partition(mmcpart->device, mmcpart->partition))
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return EIO;
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g_current_emmc_partition = mmcpart->partition;
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}
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return sdmmc_device_write(mmcpart->device, (uint32_t)(devpart->start_sector + sector), (uint32_t)num_sectors, (void *)src) ? 0 : EIO;
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}
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static int nxfs_bis_crypto_decrypt(device_partition_t *devpart, uint64_t sector, uint64_t num_sectors) {
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unsigned int keyslot_a = 4; /* These keyslots are never used by exosphere, and should be safe. */
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unsigned int keyslot_b = 5;
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size_t size = num_sectors * devpart->sector_size;
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switch (devpart->crypto_mode) {
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case DevicePartitionCryptoMode_Ctr:
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set_aes_keyslot(keyslot_a, devpart->keys[0], 0x10);
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se_aes_ctr_crypt(keyslot_a, devpart->crypto_work_buffer, size, devpart->crypto_work_buffer, size, devpart->iv, 0x10);
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return 0;
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case DevicePartitionCryptoMode_Xts:
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set_aes_keyslot(keyslot_a, devpart->keys[0], 0x10);
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set_aes_keyslot(keyslot_b, devpart->keys[1], 0x10);
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se_aes_128_xts_nintendo_decrypt(keyslot_a, keyslot_b, sector, devpart->crypto_work_buffer, devpart->crypto_work_buffer, size, devpart->sector_size);
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return 0;
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case DevicePartitionCryptoMode_None:
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default:
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return 0;
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}
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}
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static int nxfs_bis_crypto_encrypt(device_partition_t *devpart, uint64_t sector, uint64_t num_sectors) {
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unsigned int keyslot_a = 4; /* These keyslots are never used by exosphere, and should be safe. */
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unsigned int keyslot_b = 5;
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size_t size = num_sectors * devpart->sector_size;
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switch (devpart->crypto_mode) {
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case DevicePartitionCryptoMode_Ctr:
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set_aes_keyslot(keyslot_a, devpart->keys[0], 0x10);
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se_aes_ctr_crypt(keyslot_a, devpart->crypto_work_buffer, size, devpart->crypto_work_buffer, size, devpart->iv, 0x10);
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return 0;
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case DevicePartitionCryptoMode_Xts:
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set_aes_keyslot(keyslot_a, devpart->keys[0], 0x10);
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set_aes_keyslot(keyslot_b, devpart->keys[1], 0x10);
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se_aes_128_xts_nintendo_encrypt(keyslot_a, keyslot_b, sector, devpart->crypto_work_buffer, devpart->crypto_work_buffer, size, devpart->sector_size);
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return 0;
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case DevicePartitionCryptoMode_None:
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default:
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return 0;
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}
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}
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static const device_partition_t g_mmc_devpart_template = {
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.sector_size = 512,
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.initializer = mmc_partition_initialize,
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.finalizer = mmc_partition_finalize,
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.reader = mmc_partition_read,
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.writer = mmc_partition_write,
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};
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static const device_partition_t g_emummc_devpart_template = {
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.sector_size = 512,
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.initializer = NULL,
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.finalizer = NULL,
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.reader = NULL,
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.writer = NULL,
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};
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static int nxfs_mount_partition_gpt_callback(const efi_entry_t *entry, void *param, size_t entry_offset, FILE *disk) {
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(void)entry_offset;
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(void)disk;
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device_partition_t *parent = (device_partition_t *)param;
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device_partition_t devpart = *parent;
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char name_buffer[128];
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const uint16_t *utf16name = entry->name;
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uint32_t name_len;
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int rc;
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static const struct {
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const char *partition_name;
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const char *mount_point;
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bool is_fat;
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bool is_encrypted;
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bool register_immediately;
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} known_partitions[] = {
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{"PRODINFO", "prodinfo", false, true, false},
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{"PRODINFOF", "prodinfof", true, true, false},
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{"BCPKG2-1-Normal-Main", "bcpkg21", false, false, true},
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{"BCPKG2-2-Normal-Sub", "bcpkg22", false, false, false},
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{"BCPKG2-3-SafeMode-Main", "bcpkg23", false, false, false},
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{"BCPKG2-4-SafeMode-Sub", "bcpkg24", false, false, false},
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{"BCPKG2-5-Repair-Main", "bcpkg25", false, false, false},
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{"BCPKG2-6-Repair-Sub", "bcpkg26", false, false, false},
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{"SAFE", "safe", true, true, false},
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{"SYSTEM", "system", true, true, false},
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{"USER", "user", true, true, false},
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};
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/* Convert the partition name to ASCII, for comparison. */
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for (name_len = 0; name_len < sizeof(entry->name) && *utf16name != 0; name_len++) {
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name_buffer[name_len] = (char)*utf16name++;
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}
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name_buffer[name_len] = '\0';
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/* Mount the partition, if we know about it. */
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for (size_t i = 0; i < sizeof(known_partitions)/sizeof(known_partitions[0]); i++) {
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if (strcmp(name_buffer, known_partitions[i].partition_name) == 0) {
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devpart.start_sector += entry->first_lba;
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devpart.num_sectors = (entry->last_lba + 1) - entry->first_lba;
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if (parent->num_sectors < devpart.num_sectors) {
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errno = EINVAL;
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return -1;
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}
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if (known_partitions[i].is_encrypted) {
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devpart.read_cipher = nxfs_bis_crypto_decrypt;
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devpart.write_cipher = nxfs_bis_crypto_encrypt;
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devpart.crypto_mode = DevicePartitionCryptoMode_Xts;
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}
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if (known_partitions[i].is_fat) {
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rc = fsdev_mount_device(known_partitions[i].mount_point, &devpart, false);
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if (rc == -1) {
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return -1;
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}
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if (known_partitions[i].register_immediately) {
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rc = fsdev_register_device(known_partitions[i].mount_point);
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if (rc == -1) {
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return -1;
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}
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}
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} else {
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rc = rawdev_mount_device(known_partitions[i].mount_point, &devpart, false);
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if (rc == -1) {
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return -1;
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}
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if (known_partitions[i].register_immediately) {
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rc = rawdev_register_device(known_partitions[i].mount_point);
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if (rc == -1) {
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return -1;
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}
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}
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}
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}
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}
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return 0;
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}
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int nxfs_mount_all(bool emunand_enabled, const char *emunand_path) {
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device_partition_t model;
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int rc;
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FILE *rawnand;
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/* Setup a template for the SD card. */
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model = g_mmc_devpart_template;
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model.device_struct = &g_sd_mmcpart;
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model.start_sector = 0;
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model.num_sectors = 1u << 30; /* arbitrary numbers of sectors. TODO: find the size of the SD in sectors. */
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/* Mount the SD card device. */
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rc = fsdev_mount_device("sdmc", &model, true);
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if (rc == -1) {
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return -1;
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}
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/* Register the SD card device. */
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rc = fsdev_register_device("sdmc");
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if (rc == -1) {
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return -1;
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}
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if (emunand_enabled) {
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/* Setup emunand paths. */
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char emu_boot0_path[0x100];
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char emu_boot1_path[0x100];
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char emu_rawnand_path[0x100];
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memset(emu_boot0_path, 0, sizeof(emu_boot0_path));
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memset(emu_boot1_path, 0, sizeof(emu_boot1_path));
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memset(emu_rawnand_path, 0, sizeof(emu_rawnand_path));
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snprintf(emu_boot0_path, sizeof(emu_boot0_path), "sdmc:/%s/%s", emunand_path, "boot0");
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snprintf(emu_boot1_path, sizeof(emu_boot1_path), "sdmc:/%s/%s", emunand_path, "boot1");
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snprintf(emu_rawnand_path, sizeof(emu_rawnand_path), "sdmc:/%s/%s", emunand_path, "rawnand");
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/* Setup an emulation template for boot0. */
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model = g_emummc_devpart_template;
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model.start_sector = 0;
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model.num_sectors = 0x184000 / model.sector_size;
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/* Mount emulated boot0 device. */
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rc = emudev_mount_device("boot0", emu_boot0_path, &model);
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if (rc == -1) {
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return -1;
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}
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/* Register emulated boot0 device. */
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rc = emudev_register_device("boot0");
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if (rc == -1) {
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return -1;
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}
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/* Setup an emulation template for boot1. */
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model = g_emummc_devpart_template;
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model.start_sector = 0;
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model.num_sectors = 0x80000 / model.sector_size;
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/* Mount emulated boot1 device. */
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rc = emudev_mount_device("boot1", emu_boot1_path, &model);
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if (rc == -1) {
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return -1;
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}
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/* Don't register emulated boot1 for now. */
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/* Setup a template for raw NAND. */
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model = g_emummc_devpart_template;
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model.start_sector = 0;
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model.num_sectors = (256ull << 30) / model.sector_size;
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/* Mount emulated raw NAND device. */
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rc = emudev_mount_device("rawnand", emu_rawnand_path, &model);
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if (rc == -1) {
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return -1;
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}
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/* Register emulated raw NAND device. */
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rc = emudev_register_device("rawnand");
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if (rc == -1) {
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return -1;
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}
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/* Open emulated raw NAND device. */
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rawnand = fopen("rawnand:/", "rb");
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if (rawnand == NULL) {
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return -1;
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}
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/* Iterate the GPT and mount each emulated raw NAND partition. */
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rc = gpt_iterate_through_entries(rawnand, model.sector_size, nxfs_mount_partition_gpt_callback, &model);
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/* Close emulated raw NAND device. */
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fclose(rawnand);
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} else {
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/* Setup a template for boot0. */
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model = g_mmc_devpart_template;
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model.device_struct = &g_emmc_boot0_mmcpart;
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model.start_sector = 0;
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model.num_sectors = 0x184000 / model.sector_size;
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/* Mount boot0 device. */
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rc = rawdev_mount_device("boot0", &model, true);
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if (rc == -1) {
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return -1;
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}
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/* Register boot0 device. */
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rc = rawdev_register_device("boot0");
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if (rc == -1) {
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return -1;
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}
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/* Setup a template for boot1. */
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model = g_mmc_devpart_template;
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model.device_struct = &g_emmc_boot1_mmcpart;
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model.start_sector = 0;
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model.num_sectors = 0x80000 / model.sector_size;
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/* Mount boot1 device. */
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rc = rawdev_mount_device("boot1", &model, false);
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if (rc == -1) {
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return -1;
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}
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/* Don't register boot1 for now. */
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/* Setup a template for raw NAND. */
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model = g_mmc_devpart_template;
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model.device_struct = &g_emmc_user_mmcpart;
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model.start_sector = 0;
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model.num_sectors = (256ull << 30) / model.sector_size;
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/* Mount raw NAND device. */
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rc = rawdev_mount_device("rawnand", &model, false);
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if (rc == -1) {
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return -1;
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}
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/* Register raw NAND device. */
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rc = rawdev_register_device("rawnand");
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if (rc == -1) {
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return -1;
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}
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/* Open raw NAND device. */
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rawnand = fopen("rawnand:/", "rb");
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if (rawnand == NULL) {
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return -1;
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}
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/* Iterate the GPT and mount each raw NAND partition. */
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rc = gpt_iterate_through_entries(rawnand, model.sector_size, nxfs_mount_partition_gpt_callback, &model);
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/* Close raw NAND device. */
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fclose(rawnand);
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}
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/* Set the default file system device. */
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if (rc == 0) {
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rc = fsdev_set_default_device("sdmc");
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}
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return rc;
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}
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int nxfs_unmount_all() {
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return ((fsdev_unmount_all() || rawdev_unmount_all() || emudev_unmount_all()) ? -1 : 0);
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}
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