/* * main.c * * Copyright (c) 2020-2023, DarkMatterCore . * * This file is part of nxdumptool (https://github.com/DarkMatterCore/nxdumptool). * * nxdumptool is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * nxdumptool is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "nxdt_utils.h" #include "gamecard.h" #include "title.h" #include "cnmt.h" #include "program_info.h" #include "nacp.h" #include "legal_info.h" #include "cert.h" #include "usb.h" #define BLOCK_SIZE USB_TRANSFER_BUFFER_SIZE #define WAIT_TIME_LIMIT 30 #define OUTDIR "nxdt_rw_poc" /* Type definitions. */ typedef struct _Menu Menu; typedef u32 (*MenuElementOptionGetterFunction)(void); typedef void (*MenuElementOptionSetterFunction)(u32 idx); typedef bool (*MenuElementFunction)(void *userdata); typedef struct { u32 selected; ///< Used to keep track of the selected option. MenuElementOptionGetterFunction getter_func; ///< Pointer to a function to be called the first time an option value is loaded. Should be set to NULL if not used. MenuElementOptionSetterFunction setter_func; ///< Pointer to a function to be called each time a new option value is selected. Should be set to NULL if not used. char **options; ///< Pointer to multiple char pointers with strings representing options. Last element must be set to NULL. } MenuElementOption; typedef struct { char *str; ///< Pointer to a string to be printed for this menu element. Menu *child_menu; ///< Pointer to a child Menu element. Must be set to NULL if task_func != NULL. MenuElementFunction task_func; ///< Pointer to a function to be called by this element. Must be set to NULL if child_menu != NULL. MenuElementOption *element_options; ///< Options for this menu element. Should be set to NULL if not used. void *userdata; ///< Optional userdata pointer associated with this element. This is always passed to task_func as its only argument. ///< This may or may be not used by the menu handler. Should be set to NULL if not used. } MenuElement; struct _Menu { u32 id; ///< Identifier. struct _Menu *parent; ///< Set to NULL in the root menu element. u32 selected, scroll; ///< Used to keep track of the selected element and scroll values. MenuElement **elements; ///< Element info from this menu. Last element must be set to NULL. }; typedef enum { MenuId_Root = 0, MenuId_GameCard = 1, MenuId_XCI = 2, MenuId_HFS = 3, MenuId_UserTitles = 4, MenuId_UserTitlesSubMenu = 5, MenuId_NSPTitleTypes = 6, MenuId_NSP = 7, MenuId_TicketTitleTypes = 8, MenuId_Ticket = 9, MenuId_NCATitleTypes = 10, MenuId_NCA = 11, MenuId_NCAFsSection = 12, MenuId_Count = 13 } MenuId; typedef struct { FILE *fp; void *data; size_t data_size; size_t data_written; size_t total_size; bool read_error; bool write_error; bool transfer_cancelled; } SharedThreadData; typedef struct { SharedThreadData shared_thread_data; u32 xci_crc, full_xci_crc; } XciThreadData; typedef struct { SharedThreadData shared_thread_data; HashFileSystemContext *hfs_ctx; } HfsThreadData; typedef struct { void *data; size_t data_written; size_t total_size; bool error; bool transfer_cancelled; } NspThreadData; typedef struct { TitleInfo *title_info; u32 content_idx; } NcaUserData; typedef struct { SharedThreadData shared_thread_data; NcaContext *nca_ctx; } NcaThreadData; /* Function prototypes. */ static void utilsScanPads(void); static u64 utilsGetButtonsDown(void); static u64 utilsGetButtonsHeld(void); static void utilsWaitForButtonPress(u64 flag); static void consolePrint(const char *text, ...); static void consoleRefresh(void); static u32 menuGetElementCount(const Menu *menu); void freeStorageList(void); void updateStorageList(void); void freeTitleList(void); void updateTitleList(void); void freeNcaList(void); void updateNcaList(TitleInfo *title_info); NX_INLINE bool useUsbHost(void); static bool waitForGameCard(void); static bool waitForUsb(void); static char *generateOutputGameCardFileName(const char *subdir, const char *extension, bool use_nacp_name); static char *generateOutputTitleFileName(TitleInfo *title_info, const char *subdir, const char *extension); static bool dumpGameCardSecurityInformation(GameCardSecurityInformation *out); static bool saveGameCardImage(void *userdata); static bool saveGameCardHeader(void *userdata); static bool saveGameCardCardInfo(void *userdata); static bool saveGameCardCertificate(void *userdata); static bool saveGameCardInitialData(void *userdata); static bool saveGameCardSpecificData(void *userdata); static bool saveGameCardIdSet(void *userdata); static bool saveGameCardHfsPartition(void *userdata); static bool saveGameCardRawHfsPartition(HashFileSystemContext *hfs_ctx); static bool saveGameCardExtractedHfsPartition(HashFileSystemContext *hfs_ctx); static bool saveConsoleLafwBlob(void *userdata); static bool saveNintendoSubmissionPackage(void *userdata); static bool saveTicket(void *userdata); static bool saveNintendoContentArchive(void *userdata); static void xciReadThreadFunc(void *arg); static void rawHfsReadThreadFunc(void *arg); static void extractedHfsReadThreadFunc(void *arg); static void ncaReadThreadFunc(void *arg); static void genericWriteThreadFunc(void *arg); static bool spanDumpThreads(ThreadFunc read_func, ThreadFunc write_func, void *arg); static void nspThreadFunc(void *arg); static u32 getOutputStorageOption(void); static void setOutputStorageOption(u32 idx); static u32 getGameCardPrependKeyAreaOption(void); static void setGameCardPrependKeyAreaOption(u32 idx); static u32 getGameCardKeepCertificateOption(void); static void setGameCardKeepCertificateOption(u32 idx); static u32 getGameCardTrimDumpOption(void); static void setGameCardTrimDumpOption(u32 idx); static u32 getGameCardCalculateChecksumOption(void); static void setGameCardCalculateChecksumOption(u32 idx); static u32 getGameCardWriteRawHfsPartitionOption(void); static void setGameCardWriteRawHfsPartitionOption(u32 idx); static u32 getNspSetDownloadDistributionOption(void); static void setNspSetDownloadDistributionOption(u32 idx); static u32 getNspRemoveConsoleDataOption(void); static void setNspRemoveConsoleDataOption(u32 idx); static u32 getNspRemoveTitlekeyCryptoOption(void); static void setNspRemoveTitlekeyCryptoOption(u32 idx); static u32 getNspDisableLinkedAccountRequirementOption(void); static void setNspDisableLinkedAccountRequirementOption(u32 idx); static u32 getNspEnableScreenshotsOption(void); static void setNspEnableScreenshotsOption(u32 idx); static u32 getNspEnableVideoCaptureOption(void); static void setNspEnableVideoCaptureOption(u32 idx); static u32 getNspDisableHdcpOption(void); static void setNspDisableHdcpOption(u32 idx); static u32 getNspAppendAuthoringToolDataOption(void); static void setNspAppendAuthoringToolDataOption(u32 idx); static u32 getTicketRemoveConsoleDataOption(void); static void setTicketRemoveConsoleDataOption(u32 idx); /* Global variables. */ bool g_borealisInitialized = false; static PadState g_padState = {0}; static char *g_noYesStrings[] = { "no", "yes", NULL }; static bool g_appletStatus = true; static UsbHsFsDevice *g_umsDevices = NULL; static u32 g_umsDeviceCount = 0; static char **g_storageOptions = NULL; static MenuElementOption g_storageMenuElementOption = { .selected = 0, .getter_func = &getOutputStorageOption, .setter_func = &setOutputStorageOption, .options = NULL }; static MenuElement *g_xciMenuElements[] = { &(MenuElement){ .str = "start xci dump", .child_menu = NULL, .task_func = &saveGameCardImage, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "prepend key area", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 0, .getter_func = &getGameCardPrependKeyAreaOption, .setter_func = &setGameCardPrependKeyAreaOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "keep certificate", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 0, .getter_func = &getGameCardKeepCertificateOption, .setter_func = &setGameCardKeepCertificateOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "trim dump", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 0, .getter_func = &getGameCardTrimDumpOption, .setter_func = &setGameCardTrimDumpOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "calculate checksum", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 1, .getter_func = &getGameCardCalculateChecksumOption, .setter_func = &setGameCardCalculateChecksumOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "output storage", .child_menu = NULL, .task_func = NULL, .element_options = &g_storageMenuElementOption, .userdata = NULL }, NULL }; static u32 g_hfsRootPartition = HashFileSystemPartitionType_Root; static u32 g_hfsUpdatePartition = HashFileSystemPartitionType_Update; static u32 g_hfsLogoPartition = HashFileSystemPartitionType_Logo; static u32 g_hfsNormalPartition = HashFileSystemPartitionType_Normal; static u32 g_hfsSecurePartition = HashFileSystemPartitionType_Secure; static MenuElement *g_gameCardHfsMenuElements[] = { &(MenuElement){ .str = "dump root hfs partition", .child_menu = NULL, .task_func = &saveGameCardHfsPartition, .element_options = NULL, .userdata = &g_hfsRootPartition }, &(MenuElement){ .str = "dump update hfs partition", .child_menu = NULL, .task_func = &saveGameCardHfsPartition, .element_options = NULL, .userdata = &g_hfsUpdatePartition }, &(MenuElement){ .str = "dump logo hfs partition", .child_menu = NULL, .task_func = &saveGameCardHfsPartition, .element_options = NULL, .userdata = &g_hfsLogoPartition }, &(MenuElement){ .str = "dump normal hfs partition", .child_menu = NULL, .task_func = &saveGameCardHfsPartition, .element_options = NULL, .userdata = &g_hfsNormalPartition }, &(MenuElement){ .str = "dump secure hfs partition", .child_menu = NULL, .task_func = &saveGameCardHfsPartition, .element_options = NULL, .userdata = &g_hfsSecurePartition }, &(MenuElement){ .str = "write raw hfs partition", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 0, .getter_func = &getGameCardWriteRawHfsPartitionOption, .setter_func = &setGameCardWriteRawHfsPartitionOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "output storage", .child_menu = NULL, .task_func = NULL, .element_options = &g_storageMenuElementOption, .userdata = NULL }, NULL }; static MenuElement *g_gameCardMenuElements[] = { &(MenuElement){ .str = "dump gamecard image (xci)", .child_menu = &(Menu){ .id = MenuId_XCI, .parent = NULL, .selected = 0, .scroll = 0, .elements = g_xciMenuElements }, .task_func = NULL, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "dump gamecard header", .child_menu = NULL, .task_func = &saveGameCardHeader, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "dump gamecard cardinfo", .child_menu = NULL, .task_func = &saveGameCardCardInfo, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "dump gamecard certificate", .child_menu = NULL, .task_func = &saveGameCardCertificate, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "dump gamecard initial data", .child_menu = NULL, .task_func = &saveGameCardInitialData, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "dump gamecard specific data", .child_menu = NULL, .task_func = &saveGameCardSpecificData, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "dump gamecard id set", .child_menu = NULL, .task_func = &saveGameCardIdSet, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "dump hfs partitions", .child_menu = &(Menu){ .id = MenuId_HFS, .parent = NULL, .selected = 0, .scroll = 0, .elements = g_gameCardHfsMenuElements }, .task_func = NULL, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "dump console lafw blob", .child_menu = NULL, .task_func = &saveConsoleLafwBlob, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "output storage", .child_menu = NULL, .task_func = NULL, .element_options = &g_storageMenuElementOption, .userdata = NULL }, NULL }; static MenuElement *g_nspMenuElements[] = { &(MenuElement){ .str = "start nsp dump", .child_menu = NULL, .task_func = &saveNintendoSubmissionPackage, .element_options = NULL, .userdata = NULL // Dynamically set to the TitleInfo object from the title to dump }, &(MenuElement){ .str = "nca: set content distribution type to \"download\"", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 0, .getter_func = &getNspSetDownloadDistributionOption, .setter_func = &setNspSetDownloadDistributionOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "tik: remove console specific data", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 0, .getter_func = &getNspRemoveConsoleDataOption, .setter_func = &setNspRemoveConsoleDataOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "nca/tik: remove titlekey crypto (overrides previous option)", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 0, .getter_func = &getNspRemoveTitlekeyCryptoOption, .setter_func = &setNspRemoveTitlekeyCryptoOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "nacp: disable linked account requirement", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 1, .getter_func = &getNspDisableLinkedAccountRequirementOption, .setter_func = &setNspDisableLinkedAccountRequirementOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "nacp: enable screenshots", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 1, .getter_func = &getNspEnableScreenshotsOption, .setter_func = &setNspEnableScreenshotsOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "nacp: enable video capture", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 1, .getter_func = &getNspEnableVideoCaptureOption, .setter_func = &setNspEnableVideoCaptureOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "nacp: disable hdcp", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 1, .getter_func = &getNspDisableHdcpOption, .setter_func = &setNspDisableHdcpOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "nsp: append authoringtool data", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 1, .getter_func = &getNspAppendAuthoringToolDataOption, .setter_func = &setNspAppendAuthoringToolDataOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "output storage", .child_menu = NULL, .task_func = NULL, .element_options = &g_storageMenuElementOption, .userdata = NULL }, NULL }; static Menu g_nspMenu = { .id = MenuId_NSP, .parent = NULL, .selected = 0, .scroll = 0, .elements = g_nspMenuElements }; static MenuElement *g_ticketMenuElements[] = { &(MenuElement){ .str = "start ticket dump", .child_menu = NULL, .task_func = &saveTicket, .element_options = NULL, .userdata = NULL // Dynamically set to the TitleInfo object from the title to dump }, &(MenuElement){ .str = "remove console specific data", .child_menu = NULL, .task_func = NULL, .element_options = &(MenuElementOption){ .selected = 0, .getter_func = &getTicketRemoveConsoleDataOption, .setter_func = &setTicketRemoveConsoleDataOption, .options = g_noYesStrings }, .userdata = NULL }, &(MenuElement){ .str = "output storage", .child_menu = NULL, .task_func = NULL, .element_options = &g_storageMenuElementOption, .userdata = NULL }, NULL }; static Menu g_ticketMenu = { .id = MenuId_Ticket, .parent = NULL, .selected = 0, .scroll = 0, .elements = g_ticketMenuElements }; static MenuElement **g_ncaMenuElements = NULL; // Dynamically populated using g_ncaMenuElements. static Menu g_ncaMenu = { .id = MenuId_NCA, .parent = NULL, .selected = 0, .scroll = 0, .elements = NULL }; static u32 g_metaTypeApplication = NcmContentMetaType_Application; static u32 g_metaTypePatch = NcmContentMetaType_Patch; static u32 g_metaTypeAOC = NcmContentMetaType_AddOnContent; static u32 g_metaTypeAOCPatch = NcmContentMetaType_DataPatch; static MenuElement *g_titleTypesMenuElements[] = { &(MenuElement){ .str = "dump base application", .child_menu = NULL, // Dynamically set .task_func = NULL, .element_options = NULL, .userdata = &g_metaTypeApplication }, &(MenuElement){ .str = "dump update", .child_menu = NULL, // Dynamically set .task_func = NULL, .element_options = NULL, .userdata = &g_metaTypePatch }, &(MenuElement){ .str = "dump dlc", .child_menu = NULL, // Dynamically set .task_func = NULL, .element_options = NULL, .userdata = &g_metaTypeAOC }, &(MenuElement){ .str = "dump dlc update", .child_menu = NULL, // Dynamically set .task_func = NULL, .element_options = NULL, .userdata = &g_metaTypeAOCPatch }, NULL }; static MenuElement *g_userTitlesSubMenuElements[] = { &(MenuElement){ .str = "nsp dump options", .child_menu = &(Menu){ .id = MenuId_NSPTitleTypes, .parent = NULL, .selected = 0, .scroll = 0, .elements = g_titleTypesMenuElements }, .task_func = NULL, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "ticket dump options", .child_menu = &(Menu){ .id = MenuId_TicketTitleTypes, .parent = NULL, .selected = 0, .scroll = 0, .elements = g_titleTypesMenuElements }, .task_func = NULL, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "nca dump options", .child_menu = &(Menu){ .id = MenuId_NCATitleTypes, .parent = NULL, .selected = 0, .scroll = 0, .elements = g_titleTypesMenuElements }, .task_func = NULL, .element_options = NULL, .userdata = NULL }, NULL }; // Dynamically set as child_menu for all g_userTitlesMenuElements entries. static Menu g_userTitlesSubMenu = { .id = MenuId_UserTitlesSubMenu, .parent = NULL, .selected = 0, .scroll = 0, .elements = g_userTitlesSubMenuElements }; static MenuElement **g_userTitlesMenuElements = NULL; // Dynamically populated using g_userTitlesMenuElements. static Menu g_userTitlesMenu = { .id = MenuId_UserTitles, .parent = NULL, .selected = 0, .scroll = 0, .elements = NULL }; static MenuElement *g_rootMenuElements[] = { &(MenuElement){ .str = "gamecard menu", .child_menu = &(Menu){ .id = MenuId_GameCard, .parent = NULL, .selected = 0, .scroll = 0, .elements = g_gameCardMenuElements }, .task_func = NULL, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "user titles menu", .child_menu = &g_userTitlesMenu, .task_func = NULL, .element_options = NULL, .userdata = NULL }, &(MenuElement){ .str = "system titles menu", .child_menu = NULL, .task_func = NULL, .element_options = NULL, .userdata = NULL }, NULL }; static Menu g_rootMenu = { .id = MenuId_Root, .parent = NULL, .selected = 0, .scroll = 0, .elements = g_rootMenuElements }; static Mutex g_conMutex = 0, g_fileMutex = 0; static CondVar g_readCondvar = 0, g_writeCondvar = 0; static char path[FS_MAX_PATH] = {0}; int main(int argc, char *argv[]) { int ret = 0; if (!utilsInitializeResources(argc, (const char**)argv)) { ret = -1; goto end; } /* Configure input. */ /* Up to 8 different, full controller inputs. */ /* Individual Joy-Cons not supported. */ padConfigureInput(8, HidNpadStyleSet_NpadFullCtrl); padInitializeWithMask(&g_padState, 0x1000000FFUL); consoleInit(NULL); updateStorageList(); updateTitleList(); Menu *cur_menu = &g_rootMenu; u32 element_count = menuGetElementCount(cur_menu), page_size = 30; TitleApplicationMetadata *app_metadata = NULL; TitleUserApplicationData user_app_data = {0}; TitleInfo *title_info = NULL; u32 title_info_idx = 0, title_info_count = 0; while(appletMainLoop()) { MenuElement *selected_element = cur_menu->elements[cur_menu->selected]; MenuElementOption *selected_element_options = selected_element->element_options; if (cur_menu->id == MenuId_UserTitlesSubMenu && selected_element->child_menu) { /* Set title types child menu pointer if we're currently at the user titles submenu. */ u32 child_id = selected_element->child_menu->id; g_titleTypesMenuElements[0]->child_menu = g_titleTypesMenuElements[1]->child_menu = \ g_titleTypesMenuElements[2]->child_menu = g_titleTypesMenuElements[3]->child_menu = (child_id == MenuId_NSPTitleTypes ? &g_nspMenu : \ (child_id == MenuId_TicketTitleTypes ? &g_ticketMenu : \ (child_id == MenuId_NCATitleTypes ? &g_ncaMenu : NULL))); } consoleClear(); consolePrint("______________________________\n\n"); consolePrint("press b to %s.\n", cur_menu->parent ? "go back" : "exit"); if (g_umsDeviceCount) consolePrint("press x to safely remove all ums devices\n"); consolePrint("______________________________\n\n"); if (cur_menu->id == MenuId_UserTitles) { app_metadata = (TitleApplicationMetadata*)selected_element->userdata; consolePrint("title: %u / %u\n", cur_menu->selected + 1, element_count); consolePrint("selected title: %016lX - %s\n", app_metadata->title_id, selected_element->str); consolePrint("______________________________\n\n"); } else if (cur_menu->id >= MenuId_UserTitlesSubMenu && cur_menu->id < MenuId_Count) { consolePrint("title info:\n\n"); consolePrint("name: %s\n", app_metadata->lang_entry.name); consolePrint("publisher: %s\n", app_metadata->lang_entry.author); consolePrint("title id: %016lX\n", app_metadata->title_id); consolePrint("______________________________\n\n"); if (cur_menu->id == MenuId_NSP || cur_menu->id == MenuId_Ticket || cur_menu->id == MenuId_NCA) { if (title_info->previous || title_info->next) { consolePrint("press l/zl and/or r/zr to change the selected title\n"); consolePrint("title: %u / %u\n", title_info_idx, title_info_count); consolePrint("______________________________\n\n"); } consolePrint("selected title info:\n\n"); consolePrint("title id: %016lX\n", title_info->meta_key.id); consolePrint("type: %s\n", titleGetNcmContentMetaTypeName(title_info->meta_key.type)); consolePrint("source storage: %s\n", titleGetNcmStorageIdName(title_info->storage_id)); consolePrint("version: %u (%u.%u.%u-%u.%u)\n", title_info->version.value, title_info->version.system_version.major, title_info->version.system_version.minor, \ title_info->version.system_version.micro, title_info->version.system_version.major_relstep, title_info->version.system_version.minor_relstep); consolePrint("content count: %u\n", title_info->content_count); consolePrint("size: %s\n", title_info->size_str); consolePrint("______________________________\n\n"); if (cur_menu->id == MenuId_NSP) g_nspMenuElements[0]->userdata = title_info; if (cur_menu->id == MenuId_Ticket) g_ticketMenuElements[0]->userdata = title_info; } } for(u32 i = cur_menu->scroll; i < element_count; i++) { if (i >= (cur_menu->scroll + page_size)) break; MenuElement *cur_element = cur_menu->elements[i]; MenuElementOption *cur_options = cur_element->element_options; TitleApplicationMetadata *cur_app_metadata = (cur_menu->id == MenuId_UserTitles ? (TitleApplicationMetadata*)cur_element->userdata : NULL); consolePrint("%s", i == cur_menu->selected ? " -> " : " "); if (cur_app_metadata) consolePrint("%016lX - ", cur_app_metadata->title_id); consolePrint("%s", cur_element->str); if (cur_options) { if (cur_options->getter_func) { cur_options->selected = cur_options->getter_func(); cur_options->getter_func = NULL; } consolePrint(": "); if (cur_options->selected > 0) consolePrint("< "); consolePrint("%s", cur_options->options[cur_options->selected]); if (cur_options->options[cur_options->selected + 1]) consolePrint(" >"); } consolePrint("\n"); } if (!element_count) consolePrint("no elements available! press b to go back"); consolePrint("\n"); consoleRefresh(); bool data_update = false; u64 btn_down = 0, btn_held = 0; while((g_appletStatus = appletMainLoop())) { utilsScanPads(); btn_down = utilsGetButtonsDown(); btn_held = utilsGetButtonsHeld(); if (btn_down || btn_held) break; if (umsIsDeviceInfoUpdated()) { updateStorageList(); data_update = true; break; } if (titleIsGameCardInfoUpdated()) { updateTitleList(); data_update = true; break; } } if (!g_appletStatus) break; if (data_update) continue; if (btn_down & HidNpadButton_A) { Menu *child_menu = selected_element->child_menu; if (child_menu) { bool error = false; /* Only change menus if a valid ID was set. */ if (child_menu->id == MenuId_Root || child_menu->id >= MenuId_Count || child_menu->id == cur_menu->id) continue; /* Retrieve extra data based on the current menu ID. */ if (child_menu->id == MenuId_UserTitlesSubMenu) { error = !titleGetUserApplicationData(app_metadata->title_id, &user_app_data); if (error) consolePrint("\nfailed to get user application data for %016lX!\n", app_metadata->title_id); } else if (child_menu->id == MenuId_NSP || child_menu->id == MenuId_Ticket || child_menu->id == MenuId_NCA) { u32 title_type = *((u32*)selected_element->userdata); switch(title_type) { case NcmContentMetaType_Application: title_info = user_app_data.app_info; break; case NcmContentMetaType_Patch: title_info = user_app_data.patch_info; break; case NcmContentMetaType_AddOnContent: title_info = user_app_data.aoc_info; break; case NcmContentMetaType_DataPatch: title_info = user_app_data.aoc_patch_info; break; default: title_info = NULL; break; } if (title_info) { if (child_menu->id == MenuId_NCA) { updateNcaList(title_info); if (!g_ncaMenuElements || !g_ncaMenuElements[0]) { consolePrint("failed to generate nca list\n"); error = true; } } if (!error) { title_info_count = titleGetCountFromInfoBlock(title_info); title_info_idx = 1; } } else { consolePrint("\nthe selected title doesn't have available %s data\n", \ title_type == NcmContentMetaType_Application ? "base application" : \ (title_type == NcmContentMetaType_Patch ? "update" : (title_type == NcmContentMetaType_AddOnContent ? "dlc" : "dlc update"))); error = true; } } if (!error) { child_menu->parent = cur_menu; child_menu->selected = child_menu->scroll = 0; cur_menu = child_menu; element_count = menuGetElementCount(cur_menu); } else { consolePrint("press any button to go back\n"); consoleRefresh(); utilsWaitForButtonPress(0); } } else if (selected_element->task_func) { consoleClear(); /* Wait for gamecard (if needed). */ if (((cur_menu->id >= MenuId_GameCard && cur_menu->id <= MenuId_HFS) || (title_info && title_info->storage_id == NcmStorageId_GameCard)) && !waitForGameCard()) { if (g_appletStatus) continue; break; } /* Wait for USB session (if needed). */ if (useUsbHost() && !waitForUsb()) { if (g_appletStatus) continue; break; } /* Run task. */ utilsSetLongRunningProcessState(true); if (selected_element->task_func(selected_element->userdata)) { if (!useUsbHost()) updateStorageList(); // update free space } utilsSetLongRunningProcessState(false); /* Display prompt. */ consolePrint("press any button to continue"); utilsWaitForButtonPress(0); } } else if (((btn_down & HidNpadButton_Down) || (btn_held & (HidNpadButton_StickLDown | HidNpadButton_StickRDown))) && element_count) { cur_menu->selected++; if (!cur_menu->elements[cur_menu->selected]) { if (btn_down & HidNpadButton_Down) { cur_menu->selected = 0; cur_menu->scroll = 0; } else { cur_menu->selected--; } } else if (cur_menu->selected >= (cur_menu->scroll + (page_size / 2)) && element_count > (cur_menu->scroll + page_size)) { cur_menu->scroll++; } } else if (((btn_down & HidNpadButton_Up) || (btn_held & (HidNpadButton_StickLUp | HidNpadButton_StickRUp))) && element_count) { cur_menu->selected--; if (cur_menu->selected == UINT32_MAX) { if (btn_down & HidNpadButton_Up) { cur_menu->selected = (element_count - 1); cur_menu->scroll = (element_count >= page_size ? (element_count - page_size) : 0); } else { cur_menu->selected = 0; } } else if (cur_menu->selected < (cur_menu->scroll + (page_size / 2)) && cur_menu->scroll > 0) { cur_menu->scroll--; } } else if ((btn_down & (HidNpadButton_Right | HidNpadButton_StickLRight | HidNpadButton_StickRRight)) && selected_element_options) { selected_element_options->selected++; if (!selected_element_options->options[selected_element_options->selected]) selected_element_options->selected--; if (selected_element_options->setter_func) selected_element_options->setter_func(selected_element_options->selected); } else if ((btn_down & (HidNpadButton_Left | HidNpadButton_StickLLeft | HidNpadButton_StickRLeft)) && selected_element_options) { selected_element_options->selected--; if (selected_element_options->selected == UINT32_MAX) selected_element_options->selected = 0; if (selected_element_options->setter_func) selected_element_options->setter_func(selected_element_options->selected); } else if (btn_down & HidNpadButton_B) { if (!cur_menu->parent) break; if (cur_menu->id == MenuId_UserTitles) { app_metadata = NULL; } else if (cur_menu->id == MenuId_UserTitlesSubMenu) { titleFreeUserApplicationData(&user_app_data); g_titleTypesMenuElements[0]->child_menu = g_titleTypesMenuElements[1]->child_menu = \ g_titleTypesMenuElements[2]->child_menu = g_titleTypesMenuElements[3]->child_menu = NULL; } else if (cur_menu->id == MenuId_NSPTitleTypes || cur_menu->id == MenuId_TicketTitleTypes || cur_menu->id == MenuId_NCATitleTypes) { title_info = NULL; title_info_idx = title_info_count = 0; } else if (cur_menu->id == MenuId_NSP) { g_nspMenuElements[0]->userdata = NULL; } else if (cur_menu->id == MenuId_Ticket) { g_ticketMenuElements[0]->userdata = NULL; } else if (cur_menu->id == MenuId_NCA) { freeNcaList(); } cur_menu->selected = 0; cur_menu->scroll = 0; cur_menu = cur_menu->parent; element_count = menuGetElementCount(cur_menu); } else if ((btn_down & HidNpadButton_X) && g_umsDeviceCount) { for(u32 i = 0; i < g_umsDeviceCount; i++) usbHsFsUnmountDevice(&(g_umsDevices[i]), false); updateStorageList(); } else if (((btn_down & (HidNpadButton_L)) || (btn_held & HidNpadButton_ZL)) && (cur_menu->id == MenuId_NSP || cur_menu->id == MenuId_Ticket || cur_menu->id == MenuId_NCA) && title_info->previous) { title_info = title_info->previous; title_info_idx--; if (cur_menu->id == MenuId_NCA) { updateNcaList(title_info); if (!g_ncaMenuElements || !g_ncaMenuElements[0]) { freeNcaList(); consolePrint("\nfailed to generate nca list for newly selected title\npress any button to go back\n"); consoleRefresh(); utilsWaitForButtonPress(0); cur_menu->selected = 0; cur_menu->scroll = 0; cur_menu = cur_menu->parent; element_count = menuGetElementCount(cur_menu); } } } else if (((btn_down & (HidNpadButton_R)) || (btn_held & HidNpadButton_ZR)) && (cur_menu->id == MenuId_NSP || cur_menu->id == MenuId_Ticket || cur_menu->id == MenuId_NCA) && title_info->next) { title_info = title_info->next; title_info_idx++; if (cur_menu->id == MenuId_NCA) { updateNcaList(title_info); if (!g_ncaMenuElements || !g_ncaMenuElements[0]) { freeNcaList(); consolePrint("\nfailed to generate nca list for newly selected title\npress any button to go back\n"); consoleRefresh(); utilsWaitForButtonPress(0); cur_menu->selected = 0; cur_menu->scroll = 0; cur_menu = cur_menu->parent; element_count = menuGetElementCount(cur_menu); } } } if (btn_held & (HidNpadButton_StickLDown | HidNpadButton_StickRDown | HidNpadButton_StickLUp | HidNpadButton_StickRUp | HidNpadButton_ZL | HidNpadButton_ZR)) svcSleepThread(50000000); // 50 ms } end: titleFreeUserApplicationData(&user_app_data); freeNcaList(); freeTitleList(); freeStorageList(); utilsCloseResources(); consoleExit(NULL); return ret; } static void utilsScanPads(void) { padUpdate(&g_padState); } static u64 utilsGetButtonsDown(void) { return padGetButtonsDown(&g_padState); } static u64 utilsGetButtonsHeld(void) { return padGetButtons(&g_padState); } static void utilsWaitForButtonPress(u64 flag) { /* Don't consider stick movement as button inputs. */ if (!flag) flag = ~(HidNpadButton_StickLLeft | HidNpadButton_StickLRight | HidNpadButton_StickLUp | HidNpadButton_StickLDown | HidNpadButton_StickRLeft | HidNpadButton_StickRRight | \ HidNpadButton_StickRUp | HidNpadButton_StickRDown); consoleRefresh(); while(appletMainLoop()) { utilsScanPads(); if (utilsGetButtonsDown() & flag) break; } } static void consolePrint(const char *text, ...) { mutexLock(&g_conMutex); va_list v; va_start(v, text); vfprintf(stdout, text, v); va_end(v); mutexUnlock(&g_conMutex); } static void consoleRefresh(void) { mutexLock(&g_conMutex); fflush(stdout); consoleUpdate(NULL); mutexUnlock(&g_conMutex); } static u32 menuGetElementCount(const Menu *menu) { if (!menu || !menu->elements || !menu->elements[0]) return 0; u32 cnt; for(cnt = 0; menu->elements[cnt]; cnt++); return cnt; } void freeStorageList(void) { u32 elem_count = (2 + g_umsDeviceCount); // sd card, usb host, ums devices /* Free all previously allocated data. */ if (g_storageOptions) { for(u32 i = 0; i < elem_count && g_storageOptions[i]; i++) { free(g_storageOptions[i]); g_storageOptions[i] = NULL; } free(g_storageOptions); g_storageOptions = NULL; } if (g_umsDevices) { free(g_umsDevices); g_umsDevices = NULL; } g_umsDeviceCount = 0; } void updateStorageList(void) { char **tmp = NULL; u32 elem_count = 0, idx = 0; /* Free all previously allocated data. */ freeStorageList(); /* Get UMS devices. */ g_umsDevices = umsGetDevices(&g_umsDeviceCount); elem_count = (2 + g_umsDeviceCount); // sd card, usb host, ums devices /* Reallocate buffer. */ tmp = realloc(g_storageOptions, (elem_count + 1) * sizeof(char*)); // NULL terminator g_storageOptions = tmp; tmp = NULL; memset(g_storageOptions, 0, (elem_count + 1) * sizeof(char*)); // NULL terminator /* Generate UMS device strings. */ for(u32 i = 0; i < elem_count; i++) { u64 total = 0, free = 0; char total_str[36] = {0}, free_str[32] = {0}; g_storageOptions[idx] = calloc(sizeof(char), 0x300); if (!g_storageOptions[idx]) continue; if (i == 1) { sprintf(g_storageOptions[idx], "usb host (pc)"); } else { UsbHsFsDevice *ums_device = (i >= 2 ? &(g_umsDevices[i - 2]) : NULL); sprintf(total_str, "%s/", i == 0 ? DEVOPTAB_SDMC_DEVICE : ums_device->name); utilsGetFileSystemStatsByPath(total_str, &total, &free); utilsGenerateFormattedSizeString(total, total_str, sizeof(total_str)); utilsGenerateFormattedSizeString(free, free_str, sizeof(free_str)); if (i == 0) { sprintf(g_storageOptions[idx], DEVOPTAB_SDMC_DEVICE " (%s / %s)", free_str, total_str); } else { if (ums_device->product_name[0]) { sprintf(g_storageOptions[idx], "%s (%s, LUN %u, FS #%u, %s)", ums_device->name, ums_device->product_name, ums_device->lun, ums_device->fs_idx, LIBUSBHSFS_FS_TYPE_STR(ums_device->fs_type)); } else { sprintf(g_storageOptions[idx], "%s (LUN %u, FS #%u, %s)", ums_device->name, ums_device->lun, ums_device->fs_idx, LIBUSBHSFS_FS_TYPE_STR(ums_device->fs_type)); } sprintf(g_storageOptions[idx] + strlen(g_storageOptions[idx]), " (%s / %s)", free_str, total_str); } } idx++; } /* Update storage menu element options. */ if (g_storageMenuElementOption.selected >= elem_count) { g_storageMenuElementOption.selected = 0; setOutputStorageOption(0); } g_storageMenuElementOption.options = g_storageOptions; } void freeTitleList(void) { /* Free all previously allocated data. */ if (g_userTitlesMenuElements) { for(u32 i = 0; g_userTitlesMenuElements[i] != NULL; i++) free(g_userTitlesMenuElements[i]); free(g_userTitlesMenuElements); g_userTitlesMenuElements = NULL; } g_userTitlesMenu.scroll = 0; g_userTitlesMenu.selected = 0; g_userTitlesMenu.elements = NULL; } void updateTitleList(void) { u32 app_count = 0, idx = 0; TitleApplicationMetadata **app_metadata = NULL; MenuElement **tmp = NULL; /* Free all previously allocated data. */ freeTitleList(); /* Get application metadata entries. */ app_metadata = titleGetApplicationMetadataEntries(false, &app_count); if (!app_metadata || !app_count) goto end; /* Reallocate buffer. */ tmp = realloc(g_userTitlesMenuElements, (app_count + 1) * sizeof(MenuElement*)); // NULL terminator g_userTitlesMenuElements = tmp; tmp = NULL; memset(g_userTitlesMenuElements, 0, (app_count + 1) * sizeof(MenuElement*)); // NULL terminator /* Generate menu elements. */ for(u32 i = 0; i < app_count; i++) { TitleApplicationMetadata *cur_app_metadata = app_metadata[i]; g_userTitlesMenuElements[idx] = calloc(1, sizeof(MenuElement)); if (!g_userTitlesMenuElements[idx]) continue; g_userTitlesMenuElements[idx]->str = cur_app_metadata->lang_entry.name; g_userTitlesMenuElements[idx]->child_menu = &g_userTitlesSubMenu; g_userTitlesMenuElements[idx]->userdata = cur_app_metadata; idx++; } g_userTitlesMenu.elements = g_userTitlesMenuElements; end: if (app_metadata) free(app_metadata); } void freeNcaList(void) { /* Free all previously allocated data. */ if (g_ncaMenuElements) { for(u32 i = 0; g_ncaMenuElements[i] != NULL; i++) { if (g_ncaMenuElements[i]->str) free(g_ncaMenuElements[i]->str); if (g_ncaMenuElements[i]->userdata) free(g_ncaMenuElements[i]->userdata); free(g_ncaMenuElements[i]); } free(g_ncaMenuElements); g_ncaMenuElements = NULL; } g_ncaMenu.scroll = 0; g_ncaMenu.selected = 0; g_ncaMenu.elements = NULL; } void updateNcaList(TitleInfo *title_info) { u32 content_count = title_info->content_count, idx = 0; NcmContentInfo *content_infos = title_info->content_infos; MenuElement **tmp = NULL; char nca_id_str[0x21] = {0}; /* Free all previously allocated data. */ freeNcaList(); /* Reallocate buffer. */ tmp = realloc(g_ncaMenuElements, (content_count + 1) * sizeof(MenuElement*)); // NULL terminator g_ncaMenuElements = tmp; tmp = NULL; memset(g_ncaMenuElements, 0, (content_count + 1) * sizeof(MenuElement*)); // NULL terminator /* Generate menu elements. */ for(u32 i = 0; i < content_count; i++) { NcmContentInfo *cur_content_info = &(content_infos[i]); char *nca_info_str = NULL, nca_size_str[16] = {0}; u64 nca_size = 0; NcaUserData *nca_user_data = NULL; g_ncaMenuElements[idx] = calloc(1, sizeof(MenuElement)); if (!g_ncaMenuElements[idx]) continue; nca_info_str = calloc(128, sizeof(char)); nca_user_data = calloc(1, sizeof(NcaUserData)); if (!nca_info_str || !nca_user_data) { if (nca_info_str) free(nca_info_str); if (nca_user_data) free(nca_user_data); continue; } utilsGenerateHexStringFromData(nca_id_str, sizeof(nca_id_str), cur_content_info->content_id.c, sizeof(cur_content_info->content_id.c), false); ncmContentInfoSizeToU64(cur_content_info, &nca_size); utilsGenerateFormattedSizeString((double)nca_size, nca_size_str, sizeof(nca_size_str)); sprintf(nca_info_str, "%s #%u: %s (%s)", titleGetNcmContentTypeName(cur_content_info->content_type), cur_content_info->id_offset, nca_id_str, nca_size_str); nca_user_data->title_info = title_info; nca_user_data->content_idx = i; g_ncaMenuElements[idx]->str = nca_info_str; //g_ncaMenuElements[idx]->child_menu = NULL; g_ncaMenuElements[idx]->task_func = &saveNintendoContentArchive; g_ncaMenuElements[idx]->userdata = nca_user_data; idx++; } g_ncaMenu.elements = g_ncaMenuElements; } NX_INLINE bool useUsbHost(void) { return (g_storageMenuElementOption.selected == 1); } static bool waitForGameCard(void) { consolePrint("waiting for gamecard... "); consoleRefresh(); time_t start = time(NULL); u8 status = GameCardStatus_NotInserted; while((g_appletStatus = appletMainLoop())) { if ((status = gamecardGetStatus()) > GameCardStatus_Processing) break; time_t now = time(NULL); time_t diff = (now - start); if (diff >= WAIT_TIME_LIMIT) break; consolePrint("%lu ", diff); consoleRefresh(); utilsSleep(1); } consolePrint("\n"); consoleRefresh(); if (!g_appletStatus || status == GameCardStatus_NotInserted) return false; switch(status) { case GameCardStatus_NoGameCardPatchEnabled: consolePrint("\"nogc\" patch enabled, please disable it and reboot your console\n"); break; case GameCardStatus_LotusAsicFirmwareUpdateRequired: consolePrint("gamecard controller firmware update required, please update your console\n"); break; case GameCardStatus_InsertedAndInfoNotLoaded: consolePrint("unexpected I/O error occurred, please check the logfile\n"); break; default: break; } if (status != GameCardStatus_InsertedAndInfoLoaded) { consolePrint("press any button\n"); utilsWaitForButtonPress(0); return false; } return true; } static bool waitForUsb(void) { consolePrint("waiting for usb session... "); consoleRefresh(); time_t start = time(NULL); u8 usb_host_speed = UsbHostSpeed_None; while((g_appletStatus = appletMainLoop())) { if ((usb_host_speed = usbIsReady()) != UsbHostSpeed_None) break; time_t now = time(NULL); time_t diff = (now - start); if (diff >= WAIT_TIME_LIMIT) break; consolePrint("%lu ", diff); consoleRefresh(); utilsSleep(1); } consolePrint("\n"); if (usb_host_speed != UsbHostSpeed_None) consolePrint("usb speed: %u.0\n", usb_host_speed); consoleRefresh(); return (g_appletStatus && usb_host_speed != UsbHostSpeed_None); } static bool saveFileData(const char *filepath, void *data, size_t data_size) { if (!filepath || !*filepath || !data || !data_size) { consolePrint("invalid parameters to save file data!\n"); return false; } if (useUsbHost()) { if (!usbSendFileProperties(data_size, filepath)) { consolePrint("failed to send file properties for \"%s\"!\n", filepath); return false; } if (!usbSendFileData(data, data_size)) { consolePrint("failed to send file data for \"%s\"!\n", filepath); return false; } } else { utilsCreateDirectoryTree(filepath, false); FILE *fp = fopen(filepath, "wb"); if (!fp) { consolePrint("failed to open \"%s\" for writing!\n", filepath); return false; } ftruncate(fileno(fp), (off_t)data_size); size_t ret = fwrite(data, 1, data_size, fp); fclose(fp); if (g_storageMenuElementOption.selected == 0) utilsCommitSdCardFileSystemChanges(); if (ret != data_size) { consolePrint("failed to write 0x%lX byte(s) to \"%s\"! (%d)\n", data_size, filepath, errno); remove(filepath); } } return true; } static char *generateOutputGameCardFileName(const char *subdir, const char *extension, bool use_nacp_name) { char *filename = NULL, *prefix = NULL, *output = NULL; u32 dev_idx = g_storageMenuElementOption.selected; if ((subdir && !*subdir) || !extension || !*extension || (use_nacp_name && !(filename = titleGenerateGameCardFileName(TitleNamingConvention_Full, dev_idx > 0 ? TitleFileNameIllegalCharReplaceType_IllegalFsChars : TitleFileNameIllegalCharReplaceType_KeepAsciiCharsOnly)))) { consolePrint("failed to generate gamecard filename!\n"); goto end; } prefix = calloc(sizeof(char), FS_MAX_PATH); if (!prefix) { consolePrint("failed to generate prefix!\n"); goto end; } if (dev_idx == 1) { if (subdir) sprintf(prefix, "/%s", subdir); } else { sprintf(prefix, "%s/" OUTDIR, dev_idx == 0 ? DEVOPTAB_SDMC_DEVICE : g_umsDevices[dev_idx - 2].name); if (subdir) { if (subdir[0] != '/') strcat(prefix, "/"); strcat(prefix, subdir); } } output = (use_nacp_name ? utilsGeneratePath(prefix, filename, extension) : utilsGeneratePath(prefix, extension, NULL)); if (!output) consolePrint("failed to generate output filename!\n"); end: if (prefix) free(prefix); if (filename) free(filename); return output; } static char *generateOutputTitleFileName(TitleInfo *title_info, const char *subdir, const char *extension) { char *filename = NULL, *prefix = NULL, *output = NULL; u32 dev_idx = g_storageMenuElementOption.selected; if (!title_info || (subdir && !*subdir) || !extension || !*extension || !(filename = titleGenerateFileName(title_info, TitleNamingConvention_Full, dev_idx > 0 ? TitleFileNameIllegalCharReplaceType_IllegalFsChars : TitleFileNameIllegalCharReplaceType_KeepAsciiCharsOnly))) { consolePrint("failed to generate title filename!\n"); goto end; } prefix = calloc(sizeof(char), FS_MAX_PATH); if (!prefix) { consolePrint("failed to generate prefix!\n"); goto end; } if (dev_idx == 1) { if (subdir) sprintf(prefix, "/%s", subdir); } else { sprintf(prefix, "%s/" OUTDIR, dev_idx == 0 ? DEVOPTAB_SDMC_DEVICE : g_umsDevices[dev_idx - 2].name); if (subdir) { if (subdir[0] != '/') strcat(prefix, "/"); strcat(prefix, subdir); } } output = utilsGeneratePath(prefix, filename, extension); if (!output) consolePrint("failed to generate output filename!\n"); end: if (prefix) free(prefix); if (filename) free(filename); return output; } static bool dumpGameCardSecurityInformation(GameCardSecurityInformation *out) { if (!out) { consolePrint("invalid parameters to dump gamecard security information!\n"); return false; } if (!gamecardGetSecurityInformation(out)) { consolePrint("failed to get gamecard security information\n"); return false; } consolePrint("get gamecard security information ok\n"); return true; } static bool saveGameCardImage(void *userdata) { (void)userdata; u64 gc_size = 0, free_space = 0; u32 key_area_crc = 0; GameCardKeyArea gc_key_area = {0}; GameCardSecurityInformation gc_security_information = {0}; XciThreadData xci_thread_data = {0}; SharedThreadData *shared_thread_data = &(xci_thread_data.shared_thread_data); char *filename = NULL; u32 dev_idx = g_storageMenuElementOption.selected; bool prepend_key_area = (bool)getGameCardPrependKeyAreaOption(); bool keep_certificate = (bool)getGameCardKeepCertificateOption(); bool trim_dump = (bool)getGameCardTrimDumpOption(); bool calculate_checksum = (bool)getGameCardCalculateChecksumOption(); bool success = false; consolePrint("gamecard image dump\nprepend key area: %s | keep certificate: %s | trim dump: %s | calculate checksum: %s\n\n", prepend_key_area ? "yes" : "no", keep_certificate ? "yes" : "no", trim_dump ? "yes" : "no", calculate_checksum ? "yes" : "no"); if ((!trim_dump && !gamecardGetTotalSize(&gc_size)) || (trim_dump && !gamecardGetTrimmedSize(&gc_size)) || !gc_size) { consolePrint("failed to get gamecard size!\n"); goto end; } shared_thread_data->total_size = gc_size; consolePrint("gamecard size: 0x%lX\n", gc_size); if (prepend_key_area) { gc_size += sizeof(GameCardKeyArea); if (!dumpGameCardSecurityInformation(&gc_security_information)) goto end; memcpy(&(gc_key_area.initial_data), &(gc_security_information.initial_data), sizeof(GameCardInitialData)); if (calculate_checksum) { key_area_crc = crc32Calculate(&gc_key_area, sizeof(GameCardKeyArea)); xci_thread_data.full_xci_crc = key_area_crc; } consolePrint("gamecard size (with key area): 0x%lX\n", gc_size); } snprintf(path, MAX_ELEMENTS(path), " (%s) (%s) (%s).xci", prepend_key_area ? "keyarea" : "keyarealess", keep_certificate ? "cert" : "certless", trim_dump ? "trimmed" : "untrimmed"); filename = generateOutputGameCardFileName("Gamecard", path, true); if (!filename) goto end; if (dev_idx == 1) { if (!usbSendFileProperties(gc_size, filename)) { consolePrint("failed to send file properties for \"%s\"!\n", filename); goto end; } if (prepend_key_area && !usbSendFileData(&gc_key_area, sizeof(GameCardKeyArea))) { consolePrint("failed to send gamecard key area data!\n"); goto end; } } else { if (!utilsGetFileSystemStatsByPath(filename, NULL, &free_space)) { consolePrint("failed to retrieve free space from selected device\n"); goto end; } if (gc_size >= free_space) { consolePrint("dump size exceeds free space\n"); goto end; } utilsCreateDirectoryTree(filename, false); if (dev_idx == 0) { if (gc_size > FAT32_FILESIZE_LIMIT && !utilsCreateConcatenationFile(filename)) { consolePrint("failed to create concatenation file for \"%s\"!\n", filename); goto end; } } else { if (g_umsDevices[dev_idx - 2].fs_type < UsbHsFsDeviceFileSystemType_exFAT && gc_size > FAT32_FILESIZE_LIMIT) { consolePrint("split dumps not supported for FAT12/16/32 volumes in UMS devices (yet)\n"); goto end; } } shared_thread_data->fp = fopen(filename, "wb"); if (!shared_thread_data->fp) { consolePrint("failed to open \"%s\" for writing!\n", filename); goto end; } ftruncate(fileno(shared_thread_data->fp), (off_t)shared_thread_data->total_size); if (prepend_key_area && fwrite(&gc_key_area, 1, sizeof(GameCardKeyArea), shared_thread_data->fp) != sizeof(GameCardKeyArea)) { consolePrint("failed to write gamecard key area data!\n"); goto end; } } consoleRefresh(); success = spanDumpThreads(xciReadThreadFunc, genericWriteThreadFunc, &xci_thread_data); if (success) { consolePrint("successfully saved xci as \"%s\"\n", filename); if (calculate_checksum) { if (prepend_key_area) consolePrint("key area crc: %08X | ", key_area_crc); consolePrint("xci crc: %08X", xci_thread_data.xci_crc); if (prepend_key_area) consolePrint(" | xci crc (with key area): %08X", xci_thread_data.full_xci_crc); consolePrint("\n"); } consoleRefresh(); } end: if (shared_thread_data->fp) { fclose(shared_thread_data->fp); shared_thread_data->fp = NULL; if (!success && dev_idx != 1) { if (dev_idx == 0) { utilsRemoveConcatenationFile(filename); utilsCommitSdCardFileSystemChanges(); } else { remove(filename); } } } if (filename) free(filename); return success; } static bool saveGameCardHeader(void *userdata) { (void)userdata; GameCardHeader gc_header = {0}; bool success = false; u32 crc = 0; char *filename = NULL; if (!gamecardGetHeader(&gc_header)) { consolePrint("failed to get gamecard header\n"); goto end; } consolePrint("get gamecard header ok\n"); crc = crc32Calculate(&gc_header, sizeof(GameCardHeader)); snprintf(path, MAX_ELEMENTS(path), " (Header) (%08X).bin", crc); filename = generateOutputGameCardFileName("Gamecard", path, true); if (!filename) goto end; if (!saveFileData(filename, &gc_header, sizeof(GameCardHeader))) goto end; consolePrint("successfully saved header as \"%s\"\n", filename); success = true; end: if (filename) free(filename); return success; } static bool saveGameCardCardInfo(void *userdata) { (void)userdata; GameCardInfo gc_cardinfo = {0}; bool success = false; u32 crc = 0; char *filename = NULL; if (!gamecardGetDecryptedCardInfoArea(&gc_cardinfo)) { consolePrint("failed to get gamecard cardinfo\n"); goto end; } consolePrint("get gamecard cardinfo ok\n"); crc = crc32Calculate(&gc_cardinfo, sizeof(GameCardInfo)); snprintf(path, MAX_ELEMENTS(path), " (CardInfo) (%08X).bin", crc); filename = generateOutputGameCardFileName("Gamecard", path, true); if (!filename) goto end; if (!saveFileData(filename, &gc_cardinfo, sizeof(GameCardInfo))) goto end; consolePrint("successfully saved cardinfo dump as \"%s\"\n", filename); success = true; end: if (filename) free(filename); return success; } static bool saveGameCardCertificate(void *userdata) { (void)userdata; FsGameCardCertificate gc_cert = {0}; bool success = false; u32 crc = 0; char *filename = NULL; if (!gamecardGetCertificate(&gc_cert)) { consolePrint("failed to get gamecard certificate\n"); goto end; } consolePrint("get gamecard certificate ok\n"); crc = crc32Calculate(&gc_cert, sizeof(FsGameCardCertificate)); snprintf(path, MAX_ELEMENTS(path), " (Certificate) (%08X).bin", crc); filename = generateOutputGameCardFileName("Gamecard", path, true); if (!filename) goto end; if (!saveFileData(filename, &gc_cert, sizeof(FsGameCardCertificate))) goto end; consolePrint("successfully saved certificate as \"%s\"\n", filename); success = true; end: if (filename) free(filename); return success; } static bool saveGameCardInitialData(void *userdata) { (void)userdata; GameCardSecurityInformation gc_security_information = {0}; bool success = false; u32 crc = 0; char *filename = NULL; if (!dumpGameCardSecurityInformation(&gc_security_information)) goto end; crc = crc32Calculate(&(gc_security_information.initial_data), sizeof(GameCardInitialData)); snprintf(path, MAX_ELEMENTS(path), " (Initial Data) (%08X).bin", crc); filename = generateOutputGameCardFileName("Gamecard", path, true); if (!filename) goto end; if (!saveFileData(filename, &(gc_security_information.initial_data), sizeof(GameCardInitialData))) goto end; consolePrint("successfully saved initial data as \"%s\"\n", filename); success = true; end: if (filename) free(filename); return success; } static bool saveGameCardSpecificData(void *userdata) { (void)userdata; GameCardSecurityInformation gc_security_information = {0}; bool success = false; u32 crc = 0; char *filename = NULL; if (!dumpGameCardSecurityInformation(&gc_security_information)) goto end; crc = crc32Calculate(&(gc_security_information.specific_data), sizeof(GameCardSpecificData)); snprintf(path, MAX_ELEMENTS(path), " (Specific Data) (%08X).bin", crc); filename = generateOutputGameCardFileName("Gamecard", path, true); if (!filename) goto end; if (!saveFileData(filename, &(gc_security_information.specific_data), sizeof(GameCardSpecificData))) goto end; consolePrint("successfully saved specific data as \"%s\"\n", filename); success = true; end: if (filename) free(filename); return success; } static bool saveGameCardIdSet(void *userdata) { (void)userdata; FsGameCardIdSet id_set = {0}; bool success = false; u32 crc = 0; char *filename = NULL; if (!gamecardGetIdSet(&id_set)) { consolePrint("failed to get gamecard id set\n"); goto end; } crc = crc32Calculate(&id_set, sizeof(FsGameCardIdSet)); snprintf(path, MAX_ELEMENTS(path), " (Card ID Set) (%08X).bin", crc); filename = generateOutputGameCardFileName("Gamecard", path, true); if (!filename) goto end; if (!saveFileData(filename, &id_set, sizeof(FsGameCardIdSet))) goto end; consolePrint("successfully saved gamecard id set as \"%s\"\n", filename); success = true; end: if (filename) free(filename); return success; } static bool saveGameCardHfsPartition(void *userdata) { u32 hfs_partition_type = (userdata ? *((u32*)userdata) : HashFileSystemPartitionType_None); bool write_raw_hfs_partition = (bool)getGameCardWriteRawHfsPartitionOption(); HashFileSystemContext hfs_ctx = {0}; bool success = false; if (hfs_partition_type < HashFileSystemPartitionType_Root || hfs_partition_type > HashFileSystemPartitionType_Secure) { consolePrint("invalid hfs partition type! (%u)\n", hfs_partition_type); goto end; } if (!gamecardGetHashFileSystemContext(hfs_partition_type, &hfs_ctx)) { consolePrint("get hfs ctx failed! this partition type may not exist within the inserted gamecard\n"); goto end; } success = (write_raw_hfs_partition ? saveGameCardRawHfsPartition(&hfs_ctx) : saveGameCardExtractedHfsPartition(&hfs_ctx)); end: hfsFreeContext(&hfs_ctx); return success; } static bool saveGameCardRawHfsPartition(HashFileSystemContext *hfs_ctx) { u64 free_space = 0; HfsThreadData hfs_thread_data = {0}; SharedThreadData *shared_thread_data = &(hfs_thread_data.shared_thread_data); char *filename = NULL; u32 dev_idx = g_storageMenuElementOption.selected; bool success = false; hfs_thread_data.hfs_ctx = hfs_ctx; shared_thread_data->total_size = hfs_ctx->size; consolePrint("raw %s hfs partition size: 0x%lX\n", hfs_ctx->name, hfs_ctx->size); snprintf(path, MAX_ELEMENTS(path), "/%s.hfs0", hfs_ctx->name); filename = generateOutputGameCardFileName("HFS/Raw", path, true); if (!filename) goto end; if (dev_idx == 1) { if (!usbSendFileProperties(shared_thread_data->total_size, filename)) { consolePrint("failed to send file properties for \"%s\"!\n", filename); goto end; } } else { if (!utilsGetFileSystemStatsByPath(filename, NULL, &free_space)) { consolePrint("failed to retrieve free space from selected device\n"); goto end; } if (shared_thread_data->total_size >= free_space) { consolePrint("dump size exceeds free space\n"); goto end; } utilsCreateDirectoryTree(filename, false); if (dev_idx == 0) { if (shared_thread_data->total_size > FAT32_FILESIZE_LIMIT && !utilsCreateConcatenationFile(filename)) { consolePrint("failed to create concatenation file for \"%s\"!\n", filename); goto end; } } else { if (g_umsDevices[dev_idx - 2].fs_type < UsbHsFsDeviceFileSystemType_exFAT && shared_thread_data->total_size > FAT32_FILESIZE_LIMIT) { consolePrint("split dumps not supported for FAT12/16/32 volumes in UMS devices (yet)\n"); goto end; } } shared_thread_data->fp = fopen(filename, "wb"); if (!shared_thread_data->fp) { consolePrint("failed to open \"%s\" for writing!\n", filename); goto end; } ftruncate(fileno(shared_thread_data->fp), (off_t)shared_thread_data->total_size); } consoleRefresh(); success = spanDumpThreads(rawHfsReadThreadFunc, genericWriteThreadFunc, &hfs_thread_data); if (success) { consolePrint("successfully saved raw hfs partition as \"%s\"\n", filename); consoleRefresh(); } end: if (shared_thread_data->fp) { fclose(shared_thread_data->fp); shared_thread_data->fp = NULL; if (!success && dev_idx != 1) { if (dev_idx == 0) { utilsRemoveConcatenationFile(filename); utilsCommitSdCardFileSystemChanges(); } else { remove(filename); } } } if (filename) free(filename); return success; } static bool saveGameCardExtractedHfsPartition(HashFileSystemContext *hfs_ctx) { u64 data_size = 0; HfsThreadData hfs_thread_data = {0}; SharedThreadData *shared_thread_data = &(hfs_thread_data.shared_thread_data); bool success = false; if (!hfsGetTotalDataSize(hfs_ctx, &data_size)) { consolePrint("failed to calculate extracted %s hfs partition size!\n", hfs_ctx->name); goto end; } if (!data_size) { consolePrint("%s hfs partition is empty!\n", hfs_ctx->name); goto end; } hfs_thread_data.hfs_ctx = hfs_ctx; shared_thread_data->total_size = data_size; consolePrint("extracted %s hfs partition size: 0x%lX\n", hfs_ctx->name, data_size); consoleRefresh(); success = spanDumpThreads(extractedHfsReadThreadFunc, genericWriteThreadFunc, &hfs_thread_data); end: return success; } static bool saveConsoleLafwBlob(void *userdata) { (void)userdata; u64 lafw_version = 0; LotusAsicFirmwareBlob lafw_blob = {0}; bool success = false; u32 crc = 0; char *filename = NULL; const char *fw_type_str = NULL, *dev_type_str = NULL; if (!gamecardGetLotusAsicFirmwareBlob(&lafw_blob, &lafw_version)) { consolePrint("failed to get console lafw blob\n"); goto end; } fw_type_str = gamecardGetLafwTypeString(lafw_blob.fw_type); if (!fw_type_str) fw_type_str = "Unknown"; dev_type_str = gamecardGetLafwDeviceTypeString(lafw_blob.device_type); if (!dev_type_str) dev_type_str = "Unknown"; consolePrint("get console lafw blob ok\n"); crc = crc32Calculate(&lafw_blob, sizeof(LotusAsicFirmwareBlob)); snprintf(path, MAX_ELEMENTS(path), "LAFW (%s) (%s) (v%lu) (%08X).bin", fw_type_str, dev_type_str, lafw_version, crc); filename = generateOutputGameCardFileName(NULL, path, false); if (!filename) goto end; if (!saveFileData(filename, &lafw_blob, sizeof(LotusAsicFirmwareBlob))) goto end; consolePrint("successfully saved lafw blob as \"%s\"\n", filename); success = true; end: if (filename) free(filename); return success; } static bool saveNintendoSubmissionPackage(void *userdata) { if (!userdata) return false; TitleInfo *title_info = (TitleInfo*)userdata; TitleApplicationMetadata *app_metadata = title_info->app_metadata; NspThreadData nsp_thread_data = {0}; Thread dump_thread = {0}; time_t start = 0, btn_cancel_start_tmr = 0, btn_cancel_end_tmr = 0; bool btn_cancel_cur_state = false, btn_cancel_prev_state = false, success = false; u64 prev_size = 0; u8 prev_time = 0, percent = 0; consolePrint("%s info:\n\n", title_info->meta_key.type == NcmContentMetaType_Application ? "base application" : \ (title_info->meta_key.type == NcmContentMetaType_Patch ? "update" : \ (title_info->meta_key.type == NcmContentMetaType_AddOnContent ? "dlc" : "dlc update"))); if (app_metadata) { consolePrint("name: %s\n", app_metadata->lang_entry.name); consolePrint("publisher: %s\n", app_metadata->lang_entry.author); } consolePrint("source storage: %s\n", titleGetNcmStorageIdName(title_info->storage_id)); consolePrint("title id: %016lX\n", title_info->meta_key.id); consolePrint("version: %u (%u.%u.%u-%u.%u)\n", title_info->version.value, title_info->version.system_version.major, title_info->version.system_version.minor, \ title_info->version.system_version.micro, title_info->version.system_version.major_relstep, \ title_info->version.system_version.minor_relstep); consolePrint("content count: %u\n", title_info->content_count); consolePrint("size: %s\n", title_info->size_str); consolePrint("______________________________\n\n"); consoleRefresh(); /* Create dump thread. */ nsp_thread_data.data = title_info; utilsCreateThread(&dump_thread, nspThreadFunc, &nsp_thread_data, 2); /* Wait until the background thread calculates the NSP size. */ while(!nsp_thread_data.total_size && !nsp_thread_data.error) svcSleepThread(10000000); // 10 ms if (nsp_thread_data.error) { utilsJoinThread(&dump_thread); return false; } /* Start dump. */ start = time(NULL); while(nsp_thread_data.data_written < nsp_thread_data.total_size) { g_appletStatus = appletMainLoop(); if (!g_appletStatus) { mutexLock(&g_fileMutex); nsp_thread_data.transfer_cancelled = true; mutexUnlock(&g_fileMutex); } if (nsp_thread_data.error || nsp_thread_data.transfer_cancelled) break; struct tm ts = {0}; time_t now = time(NULL); localtime_r(&now, &ts); size_t size = nsp_thread_data.data_written; utilsScanPads(); btn_cancel_cur_state = (utilsGetButtonsHeld() & HidNpadButton_B); if (btn_cancel_cur_state && btn_cancel_cur_state != btn_cancel_prev_state) { btn_cancel_start_tmr = now; } else if (btn_cancel_cur_state && btn_cancel_cur_state == btn_cancel_prev_state) { btn_cancel_end_tmr = now; if ((btn_cancel_end_tmr - btn_cancel_start_tmr) >= 3) { mutexLock(&g_fileMutex); nsp_thread_data.transfer_cancelled = true; mutexUnlock(&g_fileMutex); break; } } else { btn_cancel_start_tmr = btn_cancel_end_tmr = 0; } btn_cancel_prev_state = btn_cancel_cur_state; if (prev_time == ts.tm_sec || prev_size == size) continue; percent = (u8)((size * 100) / nsp_thread_data.total_size); prev_time = ts.tm_sec; prev_size = size; consolePrint("%lu / %lu (%u%%) | Time elapsed: %lu\n", size, nsp_thread_data.total_size, percent, (now - start)); consoleRefresh(); } consolePrint("\nwaiting for thread to join\n"); consoleRefresh(); utilsJoinThread(&dump_thread); consolePrint("dump_thread done: %lu\n", time(NULL)); if (nsp_thread_data.error) { consolePrint("i/o error\n"); } else if (nsp_thread_data.transfer_cancelled) { consolePrint("process cancelled\n"); } else { start = (time(NULL) - start); consolePrint("process completed in %lu seconds\n", start); success = true; } consoleRefresh(); return success; } static bool saveTicket(void *userdata) { TitleInfo *title_info = (TitleInfo*)userdata; u8 content_type = 0; NcmContentInfo *content_info = NULL; NcaContext *nca_ctx = NULL; Ticket tik = {0}; TikCommonBlock *tik_common_block = NULL; char enc_titlekey_str[33] = {0}; u32 crc = 0; char *filename = NULL; bool remove_console_data = (bool)getTicketRemoveConsoleDataOption(); bool success = false; if (!title_info || title_info->meta_key.type < NcmContentMetaType_Application || title_info->meta_key.type == NcmContentMetaType_Delta || \ title_info->meta_key.type > NcmContentMetaType_DataPatch) { consolePrint("invalid title info object\n"); return false; } /* Get a NcmContentInfo entry for a potential NCA with a rights ID. */ content_type = ((title_info->meta_key.type == NcmContentMetaType_Application || title_info->meta_key.type == NcmContentMetaType_Patch) ? NcmContentType_Program : NcmContentType_Data); content_info = titleGetContentInfoByTypeAndIdOffset(title_info, content_type, 0); if (!content_info) { consolePrint("content info entry with type 0x%X unavailable\n", content_type); return false; } /* Allocate buffer for NCA context. */ if (!(nca_ctx = calloc(1, sizeof(NcaContext)))) { consolePrint("nca ctx calloc failed\n"); goto end; } /* Initialize NCA context. */ if (!ncaInitializeContext(nca_ctx, title_info->storage_id, (title_info->storage_id == NcmStorageId_GameCard ? HashFileSystemPartitionType_Secure : 0), \ content_info, title_info->version.value, &tik)) { consolePrint("nca initialize ctx failed\n"); goto end; } /* Check if a ticket was retrieved. */ if (!nca_ctx->rights_id_available) { consolePrint("rights id unavailable in target title -- this title doesn't use titlekey crypto\nthere's no ticket to be retrieved\n"); goto end; } if (!tik.size) { consolePrint("failed to retrieve ticket (unavailable?)\ntry launching nxdumptool while overriding the title you wish to dump a ticket from\n"); goto end; } /* Retrieve ticket common block. */ if (!(tik_common_block = tikGetCommonBlock(tik.data))) { consolePrint("failed to get tik common block\n"); goto end; } /* Remove console-specific data, if needed. */ if (remove_console_data && tik_common_block->titlekey_type == TikTitleKeyType_Personalized && !tikConvertPersonalizedTicketToCommonTicket(&tik, NULL, NULL)) { consolePrint("failed to convert personalized ticket to common ticket\n"); goto end; } /* Save ticket. */ crc = crc32Calculate(tik.data, tik.size); snprintf(path, MAX_ELEMENTS(path), " (%08X).tik", crc); filename = generateOutputTitleFileName(title_info, "Ticket", path); if (!filename) goto end; if (!saveFileData(filename, tik.data, tik.size)) goto end; utilsGenerateHexStringFromData(enc_titlekey_str, MAX_ELEMENTS(enc_titlekey_str), tik.enc_titlekey, sizeof(tik.enc_titlekey), false); consolePrint("rights id: %s\n", tik.rights_id_str); consolePrint("titlekey: %s\n\n", enc_titlekey_str); consolePrint("successfully saved ticket as \"%s\"\n", filename); success = true; end: if (filename) free(filename); if (nca_ctx) free(nca_ctx); return success; } static bool saveNintendoContentArchive(void *userdata) { if (!userdata) return false; NcaUserData *nca_user_data = (NcaUserData*)userdata; TitleInfo *title_info = nca_user_data->title_info; NcmContentInfo *content_info = &(title_info->content_infos[nca_user_data->content_idx]); NcaThreadData nca_thread_data = {0}; SharedThreadData *shared_thread_data = &(nca_thread_data.shared_thread_data); u64 free_space = 0; char *filename = NULL; u32 dev_idx = g_storageMenuElementOption.selected; bool success = false; /* Allocate buffer for NCA context. */ if (!(nca_thread_data.nca_ctx = calloc(1, sizeof(NcaContext)))) { consolePrint("nca ctx calloc failed\n"); goto end; } /* Initialize NCA context. */ if (!ncaInitializeContext(nca_thread_data.nca_ctx, title_info->storage_id, (title_info->storage_id == NcmStorageId_GameCard ? HashFileSystemPartitionType_Secure : 0), \ content_info, title_info->version.value, NULL)) { consolePrint("nca initialize ctx failed\n"); goto end; } shared_thread_data->total_size = nca_thread_data.nca_ctx->content_size; consolePrint("nca size: 0x%lX\n", shared_thread_data->total_size); snprintf(path, MAX_ELEMENTS(path), "/%s.%s", nca_thread_data.nca_ctx->content_id_str, content_info->content_type == NcmContentType_Meta ? "cnmt.nca" : "nca"); filename = generateOutputTitleFileName(title_info, "NCA/User", path); if (!filename) goto end; if (dev_idx == 1) { if (!usbSendFileProperties(shared_thread_data->total_size, filename)) { consolePrint("failed to send file properties for \"%s\"!\n", filename); goto end; } } else { if (!utilsGetFileSystemStatsByPath(filename, NULL, &free_space)) { consolePrint("failed to retrieve free space from selected device\n"); goto end; } if (shared_thread_data->total_size >= free_space) { consolePrint("dump size exceeds free space\n"); goto end; } utilsCreateDirectoryTree(filename, false); if (dev_idx == 0) { if (shared_thread_data->total_size > FAT32_FILESIZE_LIMIT && !utilsCreateConcatenationFile(filename)) { consolePrint("failed to create concatenation file for \"%s\"!\n", filename); goto end; } } else { if (g_umsDevices[dev_idx - 2].fs_type < UsbHsFsDeviceFileSystemType_exFAT && shared_thread_data->total_size > FAT32_FILESIZE_LIMIT) { consolePrint("split dumps not supported for FAT12/16/32 volumes in UMS devices (yet)\n"); goto end; } } shared_thread_data->fp = fopen(filename, "wb"); if (!shared_thread_data->fp) { consolePrint("failed to open \"%s\" for writing!\n", filename); goto end; } ftruncate(fileno(shared_thread_data->fp), (off_t)shared_thread_data->total_size); } consoleRefresh(); success = spanDumpThreads(ncaReadThreadFunc, genericWriteThreadFunc, &nca_thread_data); if (success) { consolePrint("successfully saved nca as \"%s\"\n", filename); consoleRefresh(); } end: if (shared_thread_data->fp) { fclose(shared_thread_data->fp); shared_thread_data->fp = NULL; if (!success && dev_idx != 1) { if (dev_idx == 0) { utilsRemoveConcatenationFile(filename); utilsCommitSdCardFileSystemChanges(); } else { remove(filename); } } } if (filename) free(filename); if (nca_thread_data.nca_ctx) free(nca_thread_data.nca_ctx); return success; } static void xciReadThreadFunc(void *arg) { void *buf1 = NULL, *buf2 = NULL; XciThreadData *xci_thread_data = (XciThreadData*)arg; SharedThreadData *shared_thread_data = (xci_thread_data ? &(xci_thread_data->shared_thread_data) : NULL); buf1 = usbAllocatePageAlignedBuffer(BLOCK_SIZE); buf2 = usbAllocatePageAlignedBuffer(BLOCK_SIZE); if (!xci_thread_data || !shared_thread_data || !shared_thread_data->total_size || !buf1 || !buf2) { shared_thread_data->read_error = true; goto end; } shared_thread_data->data = NULL; shared_thread_data->data_size = 0; bool prepend_key_area = (bool)getGameCardPrependKeyAreaOption(); bool keep_certificate = (bool)getGameCardKeepCertificateOption(); bool calculate_checksum = (bool)getGameCardCalculateChecksumOption(); for(u64 offset = 0, blksize = BLOCK_SIZE; offset < shared_thread_data->total_size; offset += blksize) { if (blksize > (shared_thread_data->total_size - offset)) blksize = (shared_thread_data->total_size - offset); /* Check if the transfer has been cancelled by the user */ if (shared_thread_data->transfer_cancelled) { condvarWakeAll(&g_writeCondvar); break; } /* Read current data chunk */ shared_thread_data->read_error = !gamecardReadStorage(buf1, blksize, offset); if (shared_thread_data->read_error) { condvarWakeAll(&g_writeCondvar); break; } /* Remove certificate */ if (!keep_certificate && offset == 0) memset((u8*)buf1 + GAMECARD_CERTIFICATE_OFFSET, 0xFF, sizeof(FsGameCardCertificate)); /* Update checksum */ if (calculate_checksum) { xci_thread_data->xci_crc = crc32CalculateWithSeed(xci_thread_data->xci_crc, buf1, blksize); if (prepend_key_area) xci_thread_data->full_xci_crc = crc32CalculateWithSeed(xci_thread_data->full_xci_crc, buf1, blksize); } /* Wait until the previous data chunk has been written */ mutexLock(&g_fileMutex); if (shared_thread_data->data_size && !shared_thread_data->write_error) condvarWait(&g_readCondvar, &g_fileMutex); if (shared_thread_data->write_error) { mutexUnlock(&g_fileMutex); break; } /* Update shared object. */ shared_thread_data->data = buf1; shared_thread_data->data_size = blksize; /* Swap buffers. */ buf1 = buf2; buf2 = shared_thread_data->data; /* Wake up the write thread to continue writing data. */ mutexUnlock(&g_fileMutex); condvarWakeAll(&g_writeCondvar); } end: if (buf2) free(buf2); if (buf1) free(buf1); threadExit(); } static void rawHfsReadThreadFunc(void *arg) { void *buf1 = NULL, *buf2 = NULL; HfsThreadData *hfs_thread_data = (HfsThreadData*)arg; SharedThreadData *shared_thread_data = (hfs_thread_data ? &(hfs_thread_data->shared_thread_data) : NULL); HashFileSystemContext *hfs_ctx = (hfs_thread_data ? hfs_thread_data->hfs_ctx : NULL); buf1 = usbAllocatePageAlignedBuffer(BLOCK_SIZE); buf2 = usbAllocatePageAlignedBuffer(BLOCK_SIZE); if (!hfs_thread_data || !shared_thread_data || !shared_thread_data->total_size || !hfs_ctx || !buf1 || !buf2) { shared_thread_data->read_error = true; goto end; } shared_thread_data->data = NULL; shared_thread_data->data_size = 0; for(u64 offset = 0, blksize = BLOCK_SIZE; offset < shared_thread_data->total_size; offset += blksize) { if (blksize > (shared_thread_data->total_size - offset)) blksize = (shared_thread_data->total_size - offset); /* Check if the transfer has been cancelled by the user */ if (shared_thread_data->transfer_cancelled) { condvarWakeAll(&g_writeCondvar); break; } /* Read current data chunk */ shared_thread_data->read_error = !hfsReadPartitionData(hfs_ctx, buf1, blksize, offset); if (shared_thread_data->read_error) { condvarWakeAll(&g_writeCondvar); break; } /* Wait until the previous data chunk has been written */ mutexLock(&g_fileMutex); if (shared_thread_data->data_size && !shared_thread_data->write_error) condvarWait(&g_readCondvar, &g_fileMutex); if (shared_thread_data->write_error) { mutexUnlock(&g_fileMutex); break; } /* Update shared object. */ shared_thread_data->data = buf1; shared_thread_data->data_size = blksize; /* Swap buffers. */ buf1 = buf2; buf2 = shared_thread_data->data; /* Wake up the write thread to continue writing data. */ mutexUnlock(&g_fileMutex); condvarWakeAll(&g_writeCondvar); } end: if (buf2) free(buf2); if (buf1) free(buf1); threadExit(); } static void extractedHfsReadThreadFunc(void *arg) { void *buf1 = NULL, *buf2 = NULL; HfsThreadData *hfs_thread_data = (HfsThreadData*)arg; SharedThreadData *shared_thread_data = (hfs_thread_data ? &(hfs_thread_data->shared_thread_data) : NULL); HashFileSystemContext *hfs_ctx = (hfs_thread_data ? hfs_thread_data->hfs_ctx : NULL); u32 hfs_entry_count = hfsGetEntryCount(hfs_ctx); char hfs_path[FS_MAX_PATH] = {0}, *filename = NULL; size_t filename_len = 0; HashFileSystemEntry *hfs_entry = NULL; char *hfs_entry_name = NULL; u64 free_space = 0; u32 dev_idx = g_storageMenuElementOption.selected; buf1 = usbAllocatePageAlignedBuffer(BLOCK_SIZE); buf2 = usbAllocatePageAlignedBuffer(BLOCK_SIZE); snprintf(hfs_path, MAX_ELEMENTS(hfs_path), "/%s", hfs_ctx->name); filename = generateOutputGameCardFileName("HFS/Extracted", hfs_path, true); filename_len = (filename ? strlen(filename) : 0); if (!hfs_thread_data || !shared_thread_data || !shared_thread_data->total_size || !hfs_ctx || !hfs_entry_count || !buf1 || !buf2 || !filename) { shared_thread_data->read_error = true; goto end; } if (dev_idx != 1) { if (!utilsGetFileSystemStatsByPath(filename, NULL, &free_space)) { consolePrint("failed to retrieve free space from selected device\n"); shared_thread_data->read_error = true; goto end; } if (shared_thread_data->total_size >= free_space) { consolePrint("dump size exceeds free space\n"); shared_thread_data->read_error = true; goto end; } } /* Loop through all file entries. */ for(u32 i = 0; i < hfs_entry_count; i++) { /* Check if the transfer has been cancelled by the user. */ if (shared_thread_data->transfer_cancelled) { condvarWakeAll(&g_writeCondvar); break; } if (dev_idx != 1) { /* Wait until the previous data chunk has been written */ mutexLock(&g_fileMutex); if (shared_thread_data->data_size && !shared_thread_data->write_error) condvarWait(&g_readCondvar, &g_fileMutex); mutexUnlock(&g_fileMutex); if (shared_thread_data->write_error) break; /* Close file. */ if (shared_thread_data->fp) { fclose(shared_thread_data->fp); shared_thread_data->fp = NULL; utilsCommitSdCardFileSystemChanges(); } } /* Retrieve Hash FS file entry information. */ shared_thread_data->read_error = ((hfs_entry = hfsGetEntryByIndex(hfs_ctx, i)) == NULL || (hfs_entry_name = hfsGetEntryName(hfs_ctx, hfs_entry)) == NULL); if (shared_thread_data->read_error) { condvarWakeAll(&g_writeCondvar); break; } /* Generate output path. */ snprintf(hfs_path, MAX_ELEMENTS(hfs_path), "%s/%s", filename, hfs_entry_name); utilsReplaceIllegalCharacters(hfs_path + filename_len + 1, dev_idx == 0); if (dev_idx == 1) { /* Wait until the previous data chunk has been written */ mutexLock(&g_fileMutex); if (shared_thread_data->data_size && !shared_thread_data->write_error) condvarWait(&g_readCondvar, &g_fileMutex); mutexUnlock(&g_fileMutex); if (shared_thread_data->write_error) break; /* Send current file properties */ shared_thread_data->read_error = !usbSendFileProperties(hfs_entry->size, hfs_path); } else { /* Create directory tree. */ utilsCreateDirectoryTree(hfs_path, false); if (dev_idx == 0) { /* Create ConcatenationFile if we're dealing with a big file + SD card as the output storage. */ if (hfs_entry->size > FAT32_FILESIZE_LIMIT && !utilsCreateConcatenationFile(hfs_path)) { consolePrint("failed to create concatenation file for \"%s\"!\n", hfs_path); shared_thread_data->read_error = true; } } else { /* Don't handle file chunks on FAT12/FAT16/FAT32 formatted UMS devices. */ if (g_umsDevices[dev_idx - 2].fs_type < UsbHsFsDeviceFileSystemType_exFAT && hfs_entry->size > FAT32_FILESIZE_LIMIT) { consolePrint("split dumps not supported for FAT12/16/32 volumes in UMS devices (yet)\n"); shared_thread_data->read_error = true; } } if (!shared_thread_data->read_error) { /* Open output file. */ shared_thread_data->read_error = ((shared_thread_data->fp = fopen(hfs_path, "wb")) == NULL); if (!shared_thread_data->read_error) { /* Set file size. */ ftruncate(fileno(shared_thread_data->fp), (off_t)hfs_entry->size); } else { consolePrint("failed to open \"%s\" for writing!\n", hfs_path); } } } if (shared_thread_data->read_error) { condvarWakeAll(&g_writeCondvar); break; } for(u64 offset = 0, blksize = BLOCK_SIZE; offset < hfs_entry->size; offset += blksize) { if (blksize > (hfs_entry->size - offset)) blksize = (hfs_entry->size - offset); /* Check if the transfer has been cancelled by the user. */ if (shared_thread_data->transfer_cancelled) { condvarWakeAll(&g_writeCondvar); break; } /* Read current file data chunk. */ shared_thread_data->read_error = !hfsReadEntryData(hfs_ctx, hfs_entry, buf1, blksize, offset); if (shared_thread_data->read_error) { condvarWakeAll(&g_writeCondvar); break; } /* Wait until the previous file data chunk has been written. */ mutexLock(&g_fileMutex); if (shared_thread_data->data_size && !shared_thread_data->write_error) condvarWait(&g_readCondvar, &g_fileMutex); if (shared_thread_data->write_error) { mutexUnlock(&g_fileMutex); break; } /* Update shared object. */ shared_thread_data->data = buf1; shared_thread_data->data_size = blksize; /* Swap buffers. */ buf1 = buf2; buf2 = shared_thread_data->data; /* Wake up the write thread to continue writing data. */ mutexUnlock(&g_fileMutex); condvarWakeAll(&g_writeCondvar); } if (shared_thread_data->read_error || shared_thread_data->write_error || shared_thread_data->transfer_cancelled) break; } if (!shared_thread_data->read_error && !shared_thread_data->write_error && !shared_thread_data->transfer_cancelled) { /* Wait until the previous file data chunk has been written. */ mutexLock(&g_fileMutex); if (shared_thread_data->data_size) condvarWait(&g_readCondvar, &g_fileMutex); mutexUnlock(&g_fileMutex); consolePrint("successfully saved extracted hfs partition data to \"%s\"\n", filename); consoleRefresh(); } end: if (shared_thread_data->fp) { fclose(shared_thread_data->fp); shared_thread_data->fp = NULL; if ((shared_thread_data->read_error || shared_thread_data->write_error || shared_thread_data->transfer_cancelled) && dev_idx != 1) { utilsDeleteDirectoryRecursively(filename); if (dev_idx == 0) utilsCommitSdCardFileSystemChanges(); } } if (filename) free(filename); if (buf2) free(buf2); if (buf1) free(buf1); threadExit(); } static void ncaReadThreadFunc(void *arg) { void *buf1 = NULL, *buf2 = NULL; NcaThreadData *nca_thread_data = (NcaThreadData*)arg; SharedThreadData *shared_thread_data = (nca_thread_data ? &(nca_thread_data->shared_thread_data) : NULL); NcaContext *nca_ctx = (nca_thread_data ? nca_thread_data->nca_ctx : NULL); buf1 = usbAllocatePageAlignedBuffer(BLOCK_SIZE); buf2 = usbAllocatePageAlignedBuffer(BLOCK_SIZE); if (!nca_thread_data || !shared_thread_data || !shared_thread_data->total_size || !nca_ctx || !buf1 || !buf2) { shared_thread_data->read_error = true; goto end; } shared_thread_data->data = NULL; shared_thread_data->data_size = 0; for(u64 offset = 0, blksize = BLOCK_SIZE; offset < shared_thread_data->total_size; offset += blksize) { if (blksize > (shared_thread_data->total_size - offset)) blksize = (shared_thread_data->total_size - offset); /* Check if the transfer has been cancelled by the user */ if (shared_thread_data->transfer_cancelled) { condvarWakeAll(&g_writeCondvar); break; } /* Read current data chunk */ shared_thread_data->read_error = !ncaReadContentFile(nca_ctx, buf1, blksize, offset); if (shared_thread_data->read_error) { condvarWakeAll(&g_writeCondvar); break; } /* Wait until the previous data chunk has been written */ mutexLock(&g_fileMutex); if (shared_thread_data->data_size && !shared_thread_data->write_error) condvarWait(&g_readCondvar, &g_fileMutex); if (shared_thread_data->write_error) { mutexUnlock(&g_fileMutex); break; } /* Update shared object. */ shared_thread_data->data = buf1; shared_thread_data->data_size = blksize; /* Swap buffers. */ buf1 = buf2; buf2 = shared_thread_data->data; /* Wake up the write thread to continue writing data. */ mutexUnlock(&g_fileMutex); condvarWakeAll(&g_writeCondvar); } end: if (buf2) free(buf2); if (buf1) free(buf1); threadExit(); } static void genericWriteThreadFunc(void *arg) { SharedThreadData *shared_thread_data = (SharedThreadData*)arg; // UB but we don't care if (!shared_thread_data) { shared_thread_data->write_error = true; goto end; } while(shared_thread_data->data_written < shared_thread_data->total_size) { /* Wait until the current file data chunk has been read */ mutexLock(&g_fileMutex); if (!shared_thread_data->data_size && !shared_thread_data->read_error) condvarWait(&g_writeCondvar, &g_fileMutex); if (shared_thread_data->read_error || shared_thread_data->transfer_cancelled || (!useUsbHost() && !shared_thread_data->fp)) { if (useUsbHost() && shared_thread_data->transfer_cancelled) usbCancelFileTransfer(); mutexUnlock(&g_fileMutex); break; } /* Write current file data chunk */ if (useUsbHost()) { shared_thread_data->write_error = !usbSendFileData(shared_thread_data->data, shared_thread_data->data_size); } else { shared_thread_data->write_error = (fwrite(shared_thread_data->data, 1, shared_thread_data->data_size, shared_thread_data->fp) != shared_thread_data->data_size); } if (!shared_thread_data->write_error) { shared_thread_data->data_written += shared_thread_data->data_size; shared_thread_data->data_size = 0; } /* Wake up the read thread to continue reading data */ mutexUnlock(&g_fileMutex); condvarWakeAll(&g_readCondvar); if (shared_thread_data->write_error) break; } end: threadExit(); } static bool spanDumpThreads(ThreadFunc read_func, ThreadFunc write_func, void *arg) { SharedThreadData *shared_thread_data = (SharedThreadData*)arg; // UB but we don't care Thread read_thread = {0}, write_thread = {0}; time_t start = 0, btn_cancel_start_tmr = 0, btn_cancel_end_tmr = 0; bool btn_cancel_cur_state = false, btn_cancel_prev_state = false, success = false; u64 prev_size = 0; u8 prev_time = 0, percent = 0; consolePrint("creating threads\n"); utilsCreateThread(&read_thread, read_func, arg, 2); utilsCreateThread(&write_thread, write_func, arg, 2); consolePrint("hold b to cancel\n\n"); consoleRefresh(); start = time(NULL); while(shared_thread_data->data_written < shared_thread_data->total_size) { g_appletStatus = appletMainLoop(); if (!g_appletStatus) { mutexLock(&g_fileMutex); shared_thread_data->transfer_cancelled = true; mutexUnlock(&g_fileMutex); } if (shared_thread_data->read_error || shared_thread_data->write_error || shared_thread_data->transfer_cancelled) break; struct tm ts = {0}; time_t now = time(NULL); localtime_r(&now, &ts); size_t size = shared_thread_data->data_written; utilsScanPads(); btn_cancel_cur_state = (utilsGetButtonsHeld() & HidNpadButton_B); if (btn_cancel_cur_state && btn_cancel_cur_state != btn_cancel_prev_state) { btn_cancel_start_tmr = now; } else if (btn_cancel_cur_state && btn_cancel_cur_state == btn_cancel_prev_state) { btn_cancel_end_tmr = now; if ((btn_cancel_end_tmr - btn_cancel_start_tmr) >= 3) { mutexLock(&g_fileMutex); shared_thread_data->transfer_cancelled = true; mutexUnlock(&g_fileMutex); break; } } else { btn_cancel_start_tmr = btn_cancel_end_tmr = 0; } btn_cancel_prev_state = btn_cancel_cur_state; if (prev_time == ts.tm_sec || prev_size == size) continue; percent = (u8)((size * 100) / shared_thread_data->total_size); prev_time = ts.tm_sec; prev_size = size; consolePrint("%lu / %lu (%u%%) | Time elapsed: %lu\n", size, shared_thread_data->total_size, percent, (now - start)); consoleRefresh(); } consolePrint("\nwaiting for threads to join\n"); consoleRefresh(); utilsJoinThread(&read_thread); consolePrint("read_thread done: %lu\n", time(NULL)); utilsJoinThread(&write_thread); consolePrint("write_thread done: %lu\n", time(NULL)); if (shared_thread_data->read_error || shared_thread_data->write_error) { consolePrint("i/o error\n"); } else if (shared_thread_data->transfer_cancelled) { consolePrint("process cancelled\n"); } else { start = (time(NULL) - start); consolePrint("process completed in %lu seconds\n", start); success = true; } consoleRefresh(); return success; } static void nspThreadFunc(void *arg) { NspThreadData *nsp_thread_data = (NspThreadData*)arg; TitleInfo *title_info = NULL; bool set_download_type = (bool)getNspSetDownloadDistributionOption(); bool remove_console_data = (bool)getNspRemoveConsoleDataOption(); bool remove_titlekey_crypto = (bool)getNspRemoveTitlekeyCryptoOption(); bool patch_sua = (bool)getNspDisableLinkedAccountRequirementOption(); bool patch_screenshot = (bool)getNspEnableScreenshotsOption(); bool patch_video_capture = (bool)getNspEnableVideoCaptureOption(); bool patch_hdcp = (bool)getNspDisableHdcpOption(); bool append_authoringtool_data = (bool)getNspAppendAuthoringToolDataOption(); bool success = false; u64 free_space = 0; u32 dev_idx = g_storageMenuElementOption.selected; u8 *buf = NULL; char *filename = NULL; FILE *fd = NULL; NcaContext *nca_ctx = NULL; NcaContext *meta_nca_ctx = NULL; ContentMetaContext cnmt_ctx = {0}; ProgramInfoContext *program_info_ctx = NULL; u32 program_idx = 0, program_count = 0; NacpContext *nacp_ctx = NULL; u32 control_idx = 0, control_count = 0; LegalInfoContext *legal_info_ctx = NULL; u32 legal_info_idx = 0, legal_info_count = 0; Ticket tik = {0}; TikCommonBlock *tik_common_block = NULL; u8 *raw_cert_chain = NULL; u64 raw_cert_chain_size = 0; PartitionFileSystemFileContext pfs_file_ctx = {0}; pfsInitializeFileContext(&pfs_file_ctx); char entry_name[64] = {0}; u64 nsp_header_size = 0, nsp_size = 0, nsp_offset = 0; char *tmp_name = NULL; Sha256Context sha256_ctx = {0}; u8 sha256_hash[SHA256_HASH_SIZE] = {0}; if (!nsp_thread_data || !(title_info = (TitleInfo*)nsp_thread_data->data) || !title_info->content_count || !title_info->content_infos) goto end; /* Allocate memory for the dump process. */ if (!(buf = usbAllocatePageAlignedBuffer(BLOCK_SIZE))) { consolePrint("buf alloc failed\n"); goto end; } /* Generate output path. */ filename = generateOutputTitleFileName(title_info, "NSP", ".nsp"); if (!filename) goto end; /* Get free space on output storage. */ if (dev_idx != 1 && !utilsGetFileSystemStatsByPath(filename, NULL, &free_space)) { consolePrint("failed to retrieve free space from selected device\n"); goto end; } if (!(nca_ctx = calloc(title_info->content_count, sizeof(NcaContext)))) { consolePrint("nca ctx calloc failed\n"); goto end; } // determine if we should initialize programinfo ctx if (append_authoringtool_data) { program_count = titleGetContentCountByType(title_info, NcmContentType_Program); if (program_count && !(program_info_ctx = calloc(program_count, sizeof(ProgramInfoContext)))) { consolePrint("program info ctx calloc failed\n"); goto end; } } // determine if we should initialize nacp ctx if (patch_sua || patch_screenshot || patch_video_capture || patch_hdcp || append_authoringtool_data) { control_count = titleGetContentCountByType(title_info, NcmContentType_Control); if (control_count && !(nacp_ctx = calloc(control_count, sizeof(NacpContext)))) { consolePrint("nacp ctx calloc failed\n"); goto end; } } // determine if we should initialize legalinfo ctx if (append_authoringtool_data) { legal_info_count = titleGetContentCountByType(title_info, NcmContentType_LegalInformation); if (legal_info_count && !(legal_info_ctx = calloc(legal_info_count, sizeof(LegalInfoContext)))) { consolePrint("legal info ctx calloc failed\n"); goto end; } } // set meta nca as the last nca meta_nca_ctx = &(nca_ctx[title_info->content_count - 1]); if (!ncaInitializeContext(meta_nca_ctx, title_info->storage_id, (title_info->storage_id == NcmStorageId_GameCard ? HashFileSystemPartitionType_Secure : 0), \ titleGetContentInfoByTypeAndIdOffset(title_info, NcmContentType_Meta, 0), title_info->version.value, &tik)) { consolePrint("Meta nca initialize ctx failed\n"); goto end; } consolePrint("Meta nca initialize ctx succeeded\n"); if (!cnmtInitializeContext(&cnmt_ctx, meta_nca_ctx)) { consolePrint("cnmt initialize ctx failed\n"); goto end; } consolePrint("cnmt initialize ctx succeeded (%s)\n", meta_nca_ctx->content_id_str); // initialize nca context // initialize content type context // generate nca patches (if needed) // generate content type xml for(u32 i = 0, j = 0; i < title_info->content_count; i++) { // skip meta nca since we already initialized it NcmContentInfo *content_info = &(title_info->content_infos[i]); if (content_info->content_type == NcmContentType_Meta) continue; NcaContext *cur_nca_ctx = &(nca_ctx[j]); if (!ncaInitializeContext(cur_nca_ctx, title_info->storage_id, (title_info->storage_id == NcmStorageId_GameCard ? HashFileSystemPartitionType_Secure : 0), content_info, title_info->version.value, &tik)) { consolePrint("%s #%u initialize nca ctx failed\n", titleGetNcmContentTypeName(content_info->content_type), content_info->id_offset); goto end; } consolePrint("%s #%u initialize nca ctx succeeded\n", titleGetNcmContentTypeName(content_info->content_type), content_info->id_offset); // don't go any further with this nca if we can't access its fs data because it's pointless // TODO: add preload warning if (cur_nca_ctx->rights_id_available && !cur_nca_ctx->titlekey_retrieved) { j++; continue; } // set download distribution type // has no effect if this nca uses NcaDistributionType_Download if (set_download_type) ncaSetDownloadDistributionType(cur_nca_ctx); // remove titlekey crypto // has no effect if this nca doesn't use titlekey crypto if (remove_titlekey_crypto && !ncaRemoveTitleKeyCrypto(cur_nca_ctx)) { consolePrint("nca remove titlekey crypto failed\n"); goto end; } if (!cur_nca_ctx->fs_ctx[0].has_sparse_layer) { switch(content_info->content_type) { case NcmContentType_Program: { // don't proceed if we didn't allocate programinfo ctx or if we're dealing with a sparse layer if (!program_count || !program_info_ctx) break; ProgramInfoContext *cur_program_info_ctx = &(program_info_ctx[program_idx]); if (!programInfoInitializeContext(cur_program_info_ctx, cur_nca_ctx)) { consolePrint("initialize program info ctx failed (%s)\n", cur_nca_ctx->content_id_str); goto end; } if (!programInfoGenerateAuthoringToolXml(cur_program_info_ctx)) { consolePrint("program info xml failed (%s)\n", cur_nca_ctx->content_id_str); goto end; } program_idx++; consolePrint("initialize program info ctx succeeded (%s)\n", cur_nca_ctx->content_id_str); break; } case NcmContentType_Control: { // don't proceed if we didn't allocate nacp ctx if (!control_count || !nacp_ctx) break; NacpContext *cur_nacp_ctx = &(nacp_ctx[control_idx]); if (!nacpInitializeContext(cur_nacp_ctx, cur_nca_ctx)) { consolePrint("initialize nacp ctx failed (%s)\n", cur_nca_ctx->content_id_str); goto end; } if (!nacpGenerateNcaPatch(cur_nacp_ctx, patch_sua, patch_screenshot, patch_video_capture, patch_hdcp)) { consolePrint("nacp nca patch failed (%s)\n", cur_nca_ctx->content_id_str); goto end; } if (append_authoringtool_data && !nacpGenerateAuthoringToolXml(cur_nacp_ctx, title_info->version.value, cnmtGetRequiredTitleVersion(&cnmt_ctx))) { consolePrint("nacp xml failed (%s)\n", cur_nca_ctx->content_id_str); goto end; } control_idx++; consolePrint("initialize nacp ctx succeeded (%s)\n", cur_nca_ctx->content_id_str); break; } case NcmContentType_LegalInformation: { // don't proceed if we didn't allocate legalinfo ctx if (!legal_info_count || !legal_info_ctx) break; LegalInfoContext *cur_legal_info_ctx = &(legal_info_ctx[legal_info_idx]); if (!legalInfoInitializeContext(cur_legal_info_ctx, cur_nca_ctx)) { consolePrint("initialize legal info ctx failed (%s)\n", cur_nca_ctx->content_id_str); goto end; } legal_info_idx++; consolePrint("initialize legal info ctx succeeded (%s)\n", cur_nca_ctx->content_id_str); break; } default: break; } } if (!ncaEncryptHeader(cur_nca_ctx)) { consolePrint("%s #%u encrypt nca header failed\n", titleGetNcmContentTypeName(content_info->content_type), content_info->id_offset); goto end; } j++; } consoleRefresh(); // generate cnmt xml right away even though we don't yet have all the data we need // This is because we need its size to calculate the full nsp size if (append_authoringtool_data && !cnmtGenerateAuthoringToolXml(&cnmt_ctx, nca_ctx, title_info->content_count)) { consolePrint("cnmt xml #1 failed\n"); goto end; } bool retrieve_tik_cert = (!remove_titlekey_crypto && tik.size > 0); if (retrieve_tik_cert) { if (!(tik_common_block = tikGetCommonBlock(tik.data))) { consolePrint("tik common block failed"); goto end; } if (remove_console_data && tik_common_block->titlekey_type == TikTitleKeyType_Personalized) { if (!tikConvertPersonalizedTicketToCommonTicket(&tik, &raw_cert_chain, &raw_cert_chain_size)) { consolePrint("tik convert failed\n"); goto end; } } else { raw_cert_chain = (title_info->storage_id == NcmStorageId_GameCard ? certRetrieveRawCertificateChainFromGameCardByRightsId(&(tik_common_block->rights_id), &raw_cert_chain_size) : \ certGenerateRawCertificateChainBySignatureIssuer(tik_common_block->issuer, &raw_cert_chain_size)); if (!raw_cert_chain) { consolePrint("cert failed\n"); goto end; } } } // add nca info for(u32 i = 0; i < title_info->content_count; i++) { NcaContext *cur_nca_ctx = &(nca_ctx[i]); sprintf(entry_name, "%s.%s", cur_nca_ctx->content_id_str, cur_nca_ctx->content_type == NcmContentType_Meta ? "cnmt.nca" : "nca"); if (!pfsAddEntryInformationToFileContext(&pfs_file_ctx, entry_name, cur_nca_ctx->content_size, NULL)) { consolePrint("pfs add entry failed: %s\n", entry_name); goto end; } } // add cnmt xml info if (append_authoringtool_data) { sprintf(entry_name, "%s.cnmt.xml", meta_nca_ctx->content_id_str); if (!pfsAddEntryInformationToFileContext(&pfs_file_ctx, entry_name, cnmt_ctx.authoring_tool_xml_size, &(meta_nca_ctx->content_type_ctx_data_idx))) { consolePrint("pfs add entry failed: %s\n", entry_name); goto end; } } // add content type ctx data info u32 limit = append_authoringtool_data ? (title_info->content_count - 1) : 0; for(u32 i = 0; i < limit; i++) { bool ret = false; NcaContext *cur_nca_ctx = &(nca_ctx[i]); if (!cur_nca_ctx->content_type_ctx) continue; switch(cur_nca_ctx->content_type) { case NcmContentType_Program: { ProgramInfoContext *cur_program_info_ctx = (ProgramInfoContext*)cur_nca_ctx->content_type_ctx; sprintf(entry_name, "%s.programinfo.xml", cur_nca_ctx->content_id_str); ret = pfsAddEntryInformationToFileContext(&pfs_file_ctx, entry_name, cur_program_info_ctx->authoring_tool_xml_size, &(cur_nca_ctx->content_type_ctx_data_idx)); break; } case NcmContentType_Control: { NacpContext *cur_nacp_ctx = (NacpContext*)cur_nca_ctx->content_type_ctx; for(u8 j = 0; j < cur_nacp_ctx->icon_count; j++) { NacpIconContext *icon_ctx = &(cur_nacp_ctx->icon_ctx[j]); sprintf(entry_name, "%s.nx.%s.jpg", cur_nca_ctx->content_id_str, nacpGetLanguageString(icon_ctx->language)); if (!pfsAddEntryInformationToFileContext(&pfs_file_ctx, entry_name, icon_ctx->icon_size, j == 0 ? &(cur_nca_ctx->content_type_ctx_data_idx) : NULL)) { consolePrint("pfs add entry failed: %s\n", entry_name); goto end; } } sprintf(entry_name, "%s.nacp.xml", cur_nca_ctx->content_id_str); ret = pfsAddEntryInformationToFileContext(&pfs_file_ctx, entry_name, cur_nacp_ctx->authoring_tool_xml_size, !cur_nacp_ctx->icon_count ? &(cur_nca_ctx->content_type_ctx_data_idx) : NULL); break; } case NcmContentType_LegalInformation: { LegalInfoContext *cur_legal_info_ctx = (LegalInfoContext*)cur_nca_ctx->content_type_ctx; sprintf(entry_name, "%s.legalinfo.xml", cur_nca_ctx->content_id_str); ret = pfsAddEntryInformationToFileContext(&pfs_file_ctx, entry_name, cur_legal_info_ctx->authoring_tool_xml_size, &(cur_nca_ctx->content_type_ctx_data_idx)); break; } default: break; } if (!ret) { consolePrint("pfs add entry failed: %s\n", entry_name); goto end; } } // add ticket and cert info if (retrieve_tik_cert) { sprintf(entry_name, "%s.tik", tik.rights_id_str); if (!pfsAddEntryInformationToFileContext(&pfs_file_ctx, entry_name, tik.size, NULL)) { consolePrint("pfs add entry failed: %s\n", entry_name); goto end; } sprintf(entry_name, "%s.cert", tik.rights_id_str); if (!pfsAddEntryInformationToFileContext(&pfs_file_ctx, entry_name, raw_cert_chain_size, NULL)) { consolePrint("pfs add entry failed: %s\n", entry_name); goto end; } } // write buffer to memory buffer if (!pfsWriteFileContextHeaderToMemoryBuffer(&pfs_file_ctx, buf, BLOCK_SIZE, &nsp_header_size)) { consolePrint("pfs write header to mem #1 failed\n"); goto end; } nsp_size = (nsp_header_size + pfs_file_ctx.fs_size); consolePrint("nsp header size: 0x%lX | nsp size: 0x%lX\n", nsp_header_size, nsp_size); consoleRefresh(); if (dev_idx == 1) { if (!usbSendNspProperties(nsp_size, filename, (u32)nsp_header_size)) { consolePrint("usb send nsp properties failed\n"); goto end; } } else { if (nsp_size >= free_space) { consolePrint("nsp size exceeds free space\n"); goto end; } utilsCreateDirectoryTree(filename, false); if (dev_idx == 0) { if (nsp_size > FAT32_FILESIZE_LIMIT && !utilsCreateConcatenationFile(filename)) { consolePrint("failed to create concatenation file for \"%s\"!\n", filename); goto end; } } else { if (g_umsDevices[dev_idx - 2].fs_type < UsbHsFsDeviceFileSystemType_exFAT && nsp_size > FAT32_FILESIZE_LIMIT) { consolePrint("split dumps not supported for FAT12/16/32 volumes in UMS devices (yet)\n"); goto end; } } if (!(fd = fopen(filename, "wb"))) { consolePrint("fopen failed\n"); goto end; } // set file size ftruncate(fileno(fd), (off_t)nsp_size); // write placeholder header memset(buf, 0, nsp_header_size); fwrite(buf, 1, nsp_header_size, fd); } consolePrint("dump process started, please wait. hold b to cancel.\n"); consoleRefresh(); nsp_offset += nsp_header_size; // set nsp size nsp_thread_data->total_size = nsp_size; // write ncas for(u32 i = 0; i < title_info->content_count; i++) { NcaContext *cur_nca_ctx = &(nca_ctx[i]); u64 blksize = BLOCK_SIZE; memset(&sha256_ctx, 0, sizeof(Sha256Context)); sha256ContextCreate(&sha256_ctx); if (cur_nca_ctx->content_type == NcmContentType_Meta && (!cnmtGenerateNcaPatch(&cnmt_ctx) || !ncaEncryptHeader(cur_nca_ctx))) { consolePrint("cnmt generate patch failed\n"); goto end; } bool dirty_header = ncaIsHeaderDirty(cur_nca_ctx); if (dev_idx == 1) { tmp_name = pfsGetEntryNameByIndexFromFileContext(&pfs_file_ctx, i); if (!usbSendFileProperties(cur_nca_ctx->content_size, tmp_name)) { consolePrint("usb send file properties \"%s\" failed\n", tmp_name); goto end; } } for(u64 offset = 0; offset < cur_nca_ctx->content_size; offset += blksize, nsp_offset += blksize, nsp_thread_data->data_written += blksize) { mutexLock(&g_fileMutex); bool cancelled = nsp_thread_data->transfer_cancelled; mutexUnlock(&g_fileMutex); if (cancelled) { if (dev_idx == 1) usbCancelFileTransfer(); goto end; } if ((cur_nca_ctx->content_size - offset) < blksize) blksize = (cur_nca_ctx->content_size - offset); // read nca chunk if (!ncaReadContentFile(cur_nca_ctx, buf, blksize, offset)) { consolePrint("nca read failed at 0x%lX for \"%s\"\n", offset, cur_nca_ctx->content_id_str); goto end; } if (dirty_header) { // write re-encrypted headers if (!cur_nca_ctx->header_written) ncaWriteEncryptedHeaderDataToMemoryBuffer(cur_nca_ctx, buf, blksize, offset); if (cur_nca_ctx->content_type_ctx_patch) { // write content type context patch switch(cur_nca_ctx->content_type) { case NcmContentType_Meta: cnmtWriteNcaPatch(&cnmt_ctx, buf, blksize, offset); break; case NcmContentType_Control: nacpWriteNcaPatch((NacpContext*)cur_nca_ctx->content_type_ctx, buf, blksize, offset); break; default: break; } } // update flag to avoid entering this code block if it's not needed anymore dirty_header = (!cur_nca_ctx->header_written || cur_nca_ctx->content_type_ctx_patch); } // update hash calculation sha256ContextUpdate(&sha256_ctx, buf, blksize); // write nca chunk if (dev_idx == 1) { if (!usbSendFileData(buf, blksize)) { consolePrint("send file data failed\n"); goto end; } } else { fwrite(buf, 1, blksize, fd); } } // get hash sha256ContextGetHash(&sha256_ctx, sha256_hash); // update content id and hash ncaUpdateContentIdAndHash(cur_nca_ctx, sha256_hash); // update cnmt if (!cnmtUpdateContentInfo(&cnmt_ctx, cur_nca_ctx)) { consolePrint("cnmt update content info failed\n"); goto end; } // update pfs entry name if (!pfsUpdateEntryNameFromFileContext(&pfs_file_ctx, i, cur_nca_ctx->content_id_str)) { consolePrint("pfs update entry name failed for nca \"%s\"\n", cur_nca_ctx->content_id_str); goto end; } } if (append_authoringtool_data) { // regenerate cnmt xml if (!cnmtGenerateAuthoringToolXml(&cnmt_ctx, nca_ctx, title_info->content_count)) { consolePrint("cnmt xml #2 failed\n"); goto end; } // write cnmt xml if (dev_idx == 1) { tmp_name = pfsGetEntryNameByIndexFromFileContext(&pfs_file_ctx, meta_nca_ctx->content_type_ctx_data_idx); if (!usbSendFileProperties(cnmt_ctx.authoring_tool_xml_size, tmp_name) || !usbSendFileData(cnmt_ctx.authoring_tool_xml, cnmt_ctx.authoring_tool_xml_size)) { consolePrint("send \"%s\" failed\n", tmp_name); goto end; } } else { fwrite(cnmt_ctx.authoring_tool_xml, 1, cnmt_ctx.authoring_tool_xml_size, fd); } nsp_offset += cnmt_ctx.authoring_tool_xml_size; nsp_thread_data->data_written += cnmt_ctx.authoring_tool_xml_size; // update cnmt xml pfs entry name if (!pfsUpdateEntryNameFromFileContext(&pfs_file_ctx, meta_nca_ctx->content_type_ctx_data_idx, meta_nca_ctx->content_id_str)) { consolePrint("pfs update entry name cnmt xml failed\n"); goto end; } } // write content type ctx data for(u32 i = 0; i < limit; i++) { NcaContext *cur_nca_ctx = &(nca_ctx[i]); if (!cur_nca_ctx->content_type_ctx) continue; char *authoring_tool_xml = NULL; u64 authoring_tool_xml_size = 0; u32 data_idx = cur_nca_ctx->content_type_ctx_data_idx; switch(cur_nca_ctx->content_type) { case NcmContentType_Program: { ProgramInfoContext *cur_program_info_ctx = (ProgramInfoContext*)cur_nca_ctx->content_type_ctx; authoring_tool_xml = cur_program_info_ctx->authoring_tool_xml; authoring_tool_xml_size = cur_program_info_ctx->authoring_tool_xml_size; break; } case NcmContentType_Control: { NacpContext *cur_nacp_ctx = (NacpContext*)cur_nca_ctx->content_type_ctx; authoring_tool_xml = cur_nacp_ctx->authoring_tool_xml; authoring_tool_xml_size = cur_nacp_ctx->authoring_tool_xml_size; // loop through available icons for(u8 j = 0; j < cur_nacp_ctx->icon_count; j++) { NacpIconContext *icon_ctx = &(cur_nacp_ctx->icon_ctx[j]); // write icon if (dev_idx == 1) { tmp_name = pfsGetEntryNameByIndexFromFileContext(&pfs_file_ctx, data_idx); if (!usbSendFileProperties(icon_ctx->icon_size, tmp_name) || !usbSendFileData(icon_ctx->icon_data, icon_ctx->icon_size)) { consolePrint("send \"%s\" failed\n", tmp_name); goto end; } } else { fwrite(icon_ctx->icon_data, 1, icon_ctx->icon_size, fd); } nsp_offset += icon_ctx->icon_size; nsp_thread_data->data_written += icon_ctx->icon_size; // update pfs entry name if (!pfsUpdateEntryNameFromFileContext(&pfs_file_ctx, data_idx++, cur_nca_ctx->content_id_str)) { consolePrint("pfs update entry name failed for icon \"%s\" (%u)\n", cur_nca_ctx->content_id_str, icon_ctx->language); goto end; } } break; } case NcmContentType_LegalInformation: { LegalInfoContext *cur_legal_info_ctx = (LegalInfoContext*)cur_nca_ctx->content_type_ctx; authoring_tool_xml = cur_legal_info_ctx->authoring_tool_xml; authoring_tool_xml_size = cur_legal_info_ctx->authoring_tool_xml_size; break; } default: break; } // write xml if (dev_idx == 1) { tmp_name = pfsGetEntryNameByIndexFromFileContext(&pfs_file_ctx, data_idx); if (!usbSendFileProperties(authoring_tool_xml_size, tmp_name) || !usbSendFileData(authoring_tool_xml, authoring_tool_xml_size)) { consolePrint("send \"%s\" failed\n", tmp_name); goto end; } } else { fwrite(authoring_tool_xml, 1, authoring_tool_xml_size, fd); } nsp_offset += authoring_tool_xml_size; nsp_thread_data->data_written += authoring_tool_xml_size; // update pfs entry name if (!pfsUpdateEntryNameFromFileContext(&pfs_file_ctx, data_idx, cur_nca_ctx->content_id_str)) { consolePrint("pfs update entry name failed for xml \"%s\"\n", cur_nca_ctx->content_id_str); goto end; } } if (retrieve_tik_cert) { // write ticket if (dev_idx == 1) { tmp_name = pfsGetEntryNameByIndexFromFileContext(&pfs_file_ctx, pfs_file_ctx.header.entry_count - 2); if (!usbSendFileProperties(tik.size, tmp_name) || !usbSendFileData(tik.data, tik.size)) { consolePrint("send \"%s\" failed\n", tmp_name); goto end; } } else { fwrite(tik.data, 1, tik.size, fd); } nsp_offset += tik.size; nsp_thread_data->data_written += tik.size; // write cert if (dev_idx == 1) { tmp_name = pfsGetEntryNameByIndexFromFileContext(&pfs_file_ctx, pfs_file_ctx.header.entry_count - 1); if (!usbSendFileProperties(raw_cert_chain_size, tmp_name) || !usbSendFileData(raw_cert_chain, raw_cert_chain_size)) { consolePrint("send \"%s\" failed\n", tmp_name); goto end; } } else { fwrite(raw_cert_chain, 1, raw_cert_chain_size, fd); } nsp_offset += raw_cert_chain_size; nsp_thread_data->data_written += raw_cert_chain_size; } // write new pfs0 header if (!pfsWriteFileContextHeaderToMemoryBuffer(&pfs_file_ctx, buf, BLOCK_SIZE, &nsp_header_size)) { consolePrint("pfs write header to mem #2 failed\n"); goto end; } if (dev_idx == 1) { if (!usbSendNspHeader(buf, (u32)nsp_header_size)) { consolePrint("send nsp header failed\n"); goto end; } } else { rewind(fd); fwrite(buf, 1, nsp_header_size, fd); } nsp_thread_data->data_written += nsp_header_size; success = true; end: consoleRefresh(); mutexLock(&g_fileMutex); if (!success && !nsp_thread_data->transfer_cancelled) nsp_thread_data->error = true; mutexUnlock(&g_fileMutex); if (fd) { fclose(fd); if (!success && dev_idx != 1) { if (dev_idx == 0) { utilsRemoveConcatenationFile(filename); utilsCommitSdCardFileSystemChanges(); } else { remove(filename); } } } pfsFreeFileContext(&pfs_file_ctx); if (raw_cert_chain) free(raw_cert_chain); if (legal_info_ctx) { for(u32 i = 0; i < legal_info_count; i++) legalInfoFreeContext(&(legal_info_ctx[i])); free(legal_info_ctx); } if (nacp_ctx) { for(u32 i = 0; i < control_count; i++) nacpFreeContext(&(nacp_ctx[i])); free(nacp_ctx); } if (program_info_ctx) { for(u32 i = 0; i < program_count; i++) programInfoFreeContext(&(program_info_ctx[i])); free(program_info_ctx); } cnmtFreeContext(&cnmt_ctx); if (nca_ctx) free(nca_ctx); if (filename) free(filename); if (buf) free(buf); threadExit(); } static u32 getOutputStorageOption(void) { return (u32)configGetInteger("output_storage"); } static void setOutputStorageOption(u32 idx) { if (idx < ConfigOutputStorage_Count) configSetInteger("output_storage", (int)idx); } static u32 getGameCardPrependKeyAreaOption(void) { return (u32)configGetBoolean("gamecard/prepend_key_area"); } static void setGameCardPrependKeyAreaOption(u32 idx) { configSetBoolean("gamecard/prepend_key_area", (bool)idx); } static u32 getGameCardKeepCertificateOption(void) { return (u32)configGetBoolean("gamecard/keep_certificate"); } static void setGameCardKeepCertificateOption(u32 idx) { configSetBoolean("gamecard/keep_certificate", (bool)idx); } static u32 getGameCardTrimDumpOption(void) { return (u32)configGetBoolean("gamecard/trim_dump"); } static void setGameCardTrimDumpOption(u32 idx) { configSetBoolean("gamecard/trim_dump", (bool)idx); } static u32 getGameCardCalculateChecksumOption(void) { return (u32)configGetBoolean("gamecard/calculate_checksum"); } static void setGameCardCalculateChecksumOption(u32 idx) { configSetBoolean("gamecard/calculate_checksum", (bool)idx); } static u32 getGameCardWriteRawHfsPartitionOption(void) { return (u32)configGetBoolean("gamecard/write_raw_hfs_partition"); } static void setGameCardWriteRawHfsPartitionOption(u32 idx) { configSetBoolean("gamecard/write_raw_hfs_partition", (bool)idx); } static u32 getNspSetDownloadDistributionOption(void) { return (u32)configGetBoolean("nsp/set_download_distribution"); } static void setNspSetDownloadDistributionOption(u32 idx) { configSetBoolean("nsp/set_download_distribution", (bool)idx); } static u32 getNspRemoveConsoleDataOption(void) { return (u32)configGetBoolean("nsp/remove_console_data"); } static void setNspRemoveConsoleDataOption(u32 idx) { configSetBoolean("nsp/remove_console_data", (bool)idx); } static u32 getNspRemoveTitlekeyCryptoOption(void) { return (u32)configGetBoolean("nsp/remove_titlekey_crypto"); } static void setNspRemoveTitlekeyCryptoOption(u32 idx) { configSetBoolean("nsp/remove_titlekey_crypto", (bool)idx); } static u32 getNspDisableLinkedAccountRequirementOption(void) { return (u32)configGetBoolean("nsp/disable_linked_account_requirement"); } static void setNspDisableLinkedAccountRequirementOption(u32 idx) { configSetBoolean("nsp/disable_linked_account_requirement", (bool)idx); } static u32 getNspEnableScreenshotsOption(void) { return (u32)configGetBoolean("nsp/enable_screenshots"); } static void setNspEnableScreenshotsOption(u32 idx) { configSetBoolean("nsp/enable_screenshots", (bool)idx); } static u32 getNspEnableVideoCaptureOption(void) { return (u32)configGetBoolean("nsp/enable_video_capture"); } static void setNspEnableVideoCaptureOption(u32 idx) { configSetBoolean("nsp/enable_video_capture", (bool)idx); } static u32 getNspDisableHdcpOption(void) { return (u32)configGetBoolean("nsp/disable_hdcp"); } static void setNspDisableHdcpOption(u32 idx) { configSetBoolean("nsp/disable_hdcp", (bool)idx); } static u32 getNspAppendAuthoringToolDataOption(void) { return (u32)configGetBoolean("nsp/append_authoringtool_data"); } static void setNspAppendAuthoringToolDataOption(u32 idx) { configSetBoolean("nsp/append_authoringtool_data", (bool)idx); } static u32 getTicketRemoveConsoleDataOption(void) { return (u32)configGetBoolean("ticket/remove_console_data"); } static void setTicketRemoveConsoleDataOption(u32 idx) { configSetBoolean("ticket/remove_console_data", (bool)idx); }