/* * nxdt_utils.h * * 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 . */ #pragma once #ifndef __NXDT_UTILS_H__ #define __NXDT_UTILS_H__ /* Included here for convenience. */ #include "nxdt_includes.h" #ifdef __cplusplus extern "C" { #endif /* Scoped lock macro. */ #define SCOPED_LOCK(mtx) for(UtilsScopedLock ANONYMOUS_VARIABLE(scoped_lock) CLEANUP(utilsUnlockScope) = utilsLockScope(mtx); ANONYMOUS_VARIABLE(scoped_lock).cond; ANONYMOUS_VARIABLE(scoped_lock).cond = 0) /* Scoped try lock macro. */ #define SCOPED_TRY_LOCK(mtx) for(UtilsScopedLock ANONYMOUS_VARIABLE(scoped_lock) CLEANUP(utilsUnlockScope) = utilsTryLockScope(mtx); ANONYMOUS_VARIABLE(scoped_lock).cond; ANONYMOUS_VARIABLE(scoped_lock).cond = 0) /// Used by scoped locks. typedef struct { Mutex *mtx; bool lock; int cond; } UtilsScopedLock; /// Used to determine which CFW is the application running under. typedef enum { UtilsCustomFirmwareType_Unknown = 0, UtilsCustomFirmwareType_Atmosphere = 1, UtilsCustomFirmwareType_SXOS = 2, UtilsCustomFirmwareType_ReiNX = 3, UtilsCustomFirmwareType_Count = 4 ///< Total values supported by this enum. } UtilsCustomFirmwareType; /// Used to handle parsed data from a GitHub release JSON. /// All strings are dynamically allocated. typedef struct { struct json_object *obj; ///< JSON object. Must be freed using json_object_put(). const char *version; ///< Pointer to the version string, referenced by obj. const char *commit_hash; ///< Pointer to the commit hash string, referenced by obj. struct tm date; ///< Release date. const char *changelog; ///< Pointer to the changelog string, referenced by obj. const char *download_url; ///< Pointer to the download URL string, referenced by obj. } UtilsGitHubReleaseJsonData; /// Resource initialization. /// Called at program startup. bool utilsInitializeResources(void); /// Resource deinitialization. /// Called at program exit. void utilsCloseResources(void); /// Returns a pointer to the application launch path. const char *utilsGetLaunchPath(void); /// Returns the nxlink socket descriptor, or -1 if an nxlink connection couldn't be established. int utilsGetNxLinkFileDescriptor(void); /// Returns a pointer to the FsFileSystem object for the SD card. FsFileSystem *utilsGetSdCardFileSystemObject(void); /// Commits SD card filesystem changes. /// Must be used after closing a file handle from the SD card. bool utilsCommitSdCardFileSystemChanges(void); /// Returns a UtilsCustomFirmwareType value. u8 utilsGetCustomFirmwareType(void); /// Returns true if the application is running under a Mariko unit. bool utilsIsMarikoUnit(void); /// Returns true if the application is running under a development unit. bool utilsIsDevelopmentUnit(void); /// Returns true if the application is running under applet mode. bool utilsIsAppletMode(void); /// Returns a pointer to the FsStorage object for the eMMC BIS System partition. FsStorage *utilsGetEmmcBisSystemPartitionStorage(void); /// Blocks HOME button presses, disables screen dimming and auto sleep and overclocks system CPU/MEM. /// Must be called before starting long-running processes. /// If state is set to false, regular system behavior is restored. void utilsSetLongRunningProcessState(bool state); /// Thread management functions. bool utilsCreateThread(Thread *out_thread, ThreadFunc func, void *arg, int cpu_id); void utilsJoinThread(Thread *thread); /// Formats a string and appends it to the provided buffer. /// If the buffer isn't big enough to hold both its current contents and the new formatted string, it will be resized. __attribute__((format(printf, 3, 4))) bool utilsAppendFormattedStringToBuffer(char **dst, size_t *dst_size, const char *fmt, ...); /// Replaces illegal FAT characters in the provided UTF-8 string with underscores. /// If 'ascii_only' is set to true, all codepoints outside the [0x20,0x7F) range will also be replaced with underscores. /// Replacements are performed on a per-codepoint basis, which means the string length can be reduced by this function. void utilsReplaceIllegalCharacters(char *str, bool ascii_only); /// Trims whitespace characters from the provided string. void utilsTrimString(char *str); /// Generates a NULL-terminated hex string representation of the binary data in 'src' and stores it in 'dst'. /// If 'uppercase' is true, uppercase characters will be used to generate the hex string. Otherwise, lowercase characters will be used. void utilsGenerateHexString(char *dst, size_t dst_size, const void *src, size_t src_size, bool uppercase); /// Parses the hex string in 'src' and stores its binary representation in 'dst'. /// 'src' must match the regex /^(?:[A-Fa-f0-9]{2})+$/. /// 'src_size' may be zero, in which case strlen() will be used to determine the length of 'src'. Furthermore, 'src_size' must always be a multiple of 2. /// 'dst_size' must be at least 'src_size / 2'. /// Returns false if there's an error validating input arguments. bool utilsParseHexString(void *dst, size_t dst_size, const char *src, size_t src_size); /// Formats the provided 'size' value to a human-readable size string and stores it in 'dst'. void utilsGenerateFormattedSizeString(double size, char *dst, size_t dst_size); /// Saves the total size and free space available from the filesystem pointed to by the input path (e.g. "sdmc:/") to 'out_total' and 'out_free', respectively. /// Either 'out_total' or 'out_free' can be NULL, but at least one of them must be a valid pointer. /// Returns false if there's an error. bool utilsGetFileSystemStatsByPath(const char *path, u64 *out_total, u64 *out_free); /// Creates output directories in the specified device. /// If 'device' is NULL, output directories will be created on the SD card. void utilsCreateOutputDirectories(const char *device); /// Returns true if a file exists. bool utilsCheckIfFileExists(const char *path); /// Deletes a ConcatenationFile located at the input path. void utilsRemoveConcatenationFile(const char *path); /// Creates a ConcatenationFile at the input path. bool utilsCreateConcatenationFile(const char *path); /// Creates a full directory tree using the provided path. /// If 'create_last_element' is true, the last element from the provided path will be created as well. void utilsCreateDirectoryTree(const char *path, bool create_last_element); /// Recursively deletes the directory located at the provided path and all of its contents. /// The provided path must be absolute and it must include the virtual device name it belongs to (e.g. "sdmc:/path/to/dir"). bool utilsDeleteDirectoryRecursively(const char *path); /// Returns a pointer to a dynamically allocated string that holds the full path formed by the provided arguments. Both path prefix and file extension are optional. /// If any elements from the generated path exceed safe filesystem limits, each exceeding element will be truncated. Truncations, if needed, are performed on a per-codepoint basis (UTF-8). /// If an extension is provided, it will always be preserved, regardless of any possible truncations being carried out. /// A path separator is automatically placed between the provided prefix and the filename if the prefix doesn't end with one. /// A dot *isn't* automatically placed between the filename and the provided extension -- if required, it must be provided as part of the extension string. /// Furthermore, if the full length for the generated path is >= FS_MAX_PATH, NULL will be returned. /// The allocated buffer must be freed by the calling function using free(). char *utilsGeneratePath(const char *prefix, const char *filename, const char *extension); /// Prints an error message using the standard console output and waits for the user to press a button. void utilsPrintConsoleError(const char *msg); /// Returns the current application updated state. bool utilsGetApplicationUpdatedState(void); /// Sets the application updated state to true, which makes utilsCloseResources() replace the application NRO. void utilsSetApplicationUpdatedState(void); /// Parses the provided GitHub release JSON data buffer. /// The data from the output buffer must be freed using utilsFreeGitHubReleaseJsonData(). bool utilsParseGitHubReleaseJsonData(const char *json_buf, size_t json_buf_size, UtilsGitHubReleaseJsonData *out); /// Parses the provided version string and compares it to the application version. Returns true if the application can be updated. /// If both versions are equal, the provided commit hash is compared to our commit hash - if they're different, true will be returned. bool utilsIsApplicationUpdatable(const char *version, const char *commit_hash); /// Frees previously allocated data from a UtilsGitHubReleaseJsonData element. NX_INLINE void utilsFreeGitHubReleaseJsonData(UtilsGitHubReleaseJsonData *data) { if (!data) return; if (data->obj) json_object_put(data->obj); memset(data, 0, sizeof(UtilsGitHubReleaseJsonData)); } /// Simple wrapper to sleep the current thread for a specific number of full seconds. NX_INLINE void utilsSleep(u64 seconds) { if (seconds) svcSleepThread(seconds * (u64)1000000000); } /// Introduces a 33.33 milliseconds delay. Suitable to avoid hitting 100% CPU core usage in appletMainLoop() loops. NX_INLINE void utilsAppletLoopDelay(void) { svcSleepThread(THIRTY_FPS_DELAY); } /// Wrappers used in scoped locks. NX_INLINE UtilsScopedLock utilsLockScope(Mutex *mtx) { UtilsScopedLock scoped_lock = { mtx, !mutexIsLockedByCurrentThread(mtx), 1 }; if (scoped_lock.lock) mutexLock(scoped_lock.mtx); return scoped_lock; } NX_INLINE UtilsScopedLock utilsTryLockScope(Mutex *mtx) { UtilsScopedLock scoped_lock = { mtx, !mutexIsLockedByCurrentThread(mtx), 1 }; if (scoped_lock.lock) scoped_lock.cond = (int)mutexTryLock(scoped_lock.mtx); return scoped_lock; } NX_INLINE void utilsUnlockScope(UtilsScopedLock *scoped_lock) { if (scoped_lock->lock) mutexUnlock(scoped_lock->mtx); } #ifdef __cplusplus } #endif #endif /* __NXDT_UTILS_H__ */