/*************************************************************************** * Copyright (C) 2016 * by Dimok * * This software is provided 'as-is', without any express or implied * warranty. In no event will the authors be held liable for any * damages arising from the use of this software. * * Permission is granted to anyone to use this software for any * purpose, including commercial applications, and to alter it and * redistribute it freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; you * must not claim that you wrote the original software. If you use * this software in a product, an acknowledgment in the product * documentation would be appreciated but is not required. * * 2. Altered source versions must be plainly marked as such, and * must not be misrepresented as being the original software. * * 3. This notice may not be removed or altered from any source * distribution. ***************************************************************************/ #include "iosuhax.h" #include "os_functions.h" #include #include #define IOSUHAX_MAGIC_WORD 0x4E696365 #define IOCTL_MEM_WRITE 0x00 #define IOCTL_MEM_READ 0x01 #define IOCTL_SVC 0x02 #define IOCTL_MEMCPY 0x04 #define IOCTL_REPEATED_WRITE 0x05 #define IOCTL_KERN_READ32 0x06 #define IOCTL_KERN_WRITE32 0x07 #define IOCTL_READ_OTP 0x08 #define IOCTL_FSA_OPEN 0x40 #define IOCTL_FSA_CLOSE 0x41 #define IOCTL_FSA_MOUNT 0x42 #define IOCTL_FSA_UNMOUNT 0x43 #define IOCTL_FSA_GETDEVICEINFO 0x44 #define IOCTL_FSA_OPENDIR 0x45 #define IOCTL_FSA_READDIR 0x46 #define IOCTL_FSA_CLOSEDIR 0x47 #define IOCTL_FSA_MAKEDIR 0x48 #define IOCTL_FSA_OPENFILE 0x49 #define IOCTL_FSA_READFILE 0x4A #define IOCTL_FSA_WRITEFILE 0x4B #define IOCTL_FSA_STATFILE 0x4C #define IOCTL_FSA_CLOSEFILE 0x4D #define IOCTL_FSA_SETFILEPOS 0x4E #define IOCTL_FSA_GETSTAT 0x4F #define IOCTL_FSA_REMOVE 0x50 #define IOCTL_FSA_REWINDDIR 0x51 #define IOCTL_FSA_CHDIR 0x52 #define IOCTL_FSA_RENAME 0x53 #define IOCTL_FSA_RAW_OPEN 0x54 #define IOCTL_FSA_RAW_READ 0x55 #define IOCTL_FSA_RAW_WRITE 0x56 #define IOCTL_FSA_RAW_CLOSE 0x57 #define IOCTL_FSA_CHANGEMODE 0x58 #define IOCTL_FSA_FLUSHVOLUME 0x59 #define IOCTL_CHECK_IF_IOSUHAX 0x5B static int iosuhaxHandle = -1; #define ALIGN(align) __attribute__((aligned(align))) #define ALIGN_0x20 ALIGN(0x20) #define ROUNDUP(x, align) (((x) + ((align) -1)) & ~((align) -1)) int IOSUHAX_Open(const char *dev) { if (iosuhaxHandle >= 0) return iosuhaxHandle; iosuhaxHandle = IOS_Open((char *) (dev ? dev : "/dev/iosuhax"), 0); if (iosuhaxHandle >= 0 && dev) //make sure device is actually iosuhax { ALIGN_0x20 int res[0x20 >> 2]; *res = 0; IOS_Ioctl(iosuhaxHandle, IOCTL_CHECK_IF_IOSUHAX, (void *) 0, 0, res, 4); if (*res != IOSUHAX_MAGIC_WORD) { IOS_Close(iosuhaxHandle); iosuhaxHandle = -1; } } return iosuhaxHandle; } int IOSUHAX_Close(void) { if (iosuhaxHandle < 0) return 0; int res = IOS_Close(iosuhaxHandle); iosuhaxHandle = -1; return res; } int IOSUHAX_memwrite(uint32_t address, const uint8_t *buffer, uint32_t size) { if (iosuhaxHandle < 0) return iosuhaxHandle; uint32_t *io_buf = (uint32_t *) memalign(0x20, ROUNDUP(size + 4, 0x20)); if (!io_buf) return -2; io_buf[0] = address; memcpy(io_buf + 1, buffer, size); int res = IOS_Ioctl(iosuhaxHandle, IOCTL_MEM_WRITE, io_buf, size + 4, 0, 0); free(io_buf); return res; } int IOSUHAX_ODM_GetDiscKey(uint8_t *discKey) { int res = -1; if (discKey == NULL) { return -2; } int odm_handle = IOS_Open("/dev/odm", 1); res = odm_handle; if (odm_handle >= 0) { uint32_t io_buffer[0x20 / 4]; // disc encryption key, only works with patched IOSU io_buffer[0] = 3; res = IOS_Ioctl(odm_handle, 0x06, io_buffer, 0x14, io_buffer, 0x20); if (res == 0) { memcpy(discKey, io_buffer, 16); } IOS_Close(odm_handle); } return res; } int IOSUHAX_memread(uint32_t address, uint8_t *out_buffer, uint32_t size) { if (iosuhaxHandle < 0) return iosuhaxHandle; ALIGN_0x20 int io_buf[0x20 >> 2]; io_buf[0] = address; void *tmp_buf = NULL; if (((uintptr_t) out_buffer & 0x1F) || (size & 0x1F)) { tmp_buf = (uint32_t *) memalign(0x20, ROUNDUP(size, 0x20)); if (!tmp_buf) return -2; } int res = IOS_Ioctl(iosuhaxHandle, IOCTL_MEM_READ, io_buf, sizeof(address), tmp_buf ? tmp_buf : out_buffer, size); if (res >= 0 && tmp_buf) memcpy(out_buffer, tmp_buf, size); free(tmp_buf); return res; } int IOSUHAX_memcpy(uint32_t dst, uint32_t src, uint32_t size) { if (iosuhaxHandle < 0) return iosuhaxHandle; ALIGN_0x20 uint32_t io_buf[0x20 >> 2]; io_buf[0] = dst; io_buf[1] = src; io_buf[2] = size; return IOS_Ioctl(iosuhaxHandle, IOCTL_MEMCPY, io_buf, 3 * sizeof(uint32_t), 0, 0); } int IOSUHAX_kern_write32(uint32_t address, uint32_t value) { if (iosuhaxHandle < 0) return iosuhaxHandle; ALIGN_0x20 uint32_t io_buf[0x20 >> 2]; io_buf[0] = address; io_buf[1] = value; return IOS_Ioctl(iosuhaxHandle, IOCTL_KERN_WRITE32, io_buf, 2 * sizeof(uint32_t), 0, 0); } int IOSUHAX_read_otp(uint8_t *out_buffer, uint32_t size) { if (iosuhaxHandle < 0) { return iosuhaxHandle; } ALIGN_0x20 uint32_t io_buf[0x400 >> 2]; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_READ_OTP, 0, 0, io_buf, 0x400); if (res >= 0) { memcpy(out_buffer, io_buf, size > 0x400 ? 0x400 : size); } return res; } extern int bspRead(const char *, uint32_t, const char *, uint32_t, uint16_t *); int IOSUHAX_read_seeprom(uint8_t *out_buffer, uint32_t offset, uint32_t size) { if (out_buffer == NULL || offset > 0x200 || offset & 0x01) { return -1; } uint32_t sizeInShorts = size >> 1; uint32_t offsetInShorts = offset >> 1; int32_t maxReadCount = 0x100 - offsetInShorts; if (maxReadCount <= 0) { return 0; } uint32_t count = sizeInShorts > maxReadCount ? maxReadCount : sizeInShorts; uint16_t *ptr = (uint16_t *) out_buffer; int res = 0; for (int i = 0; i < count; i++) { if (bspRead("EE", offsetInShorts + i, "access", 2, ptr) != 0) { return -2; } res += 2; ptr++; } return res; } int IOSUHAX_kern_read32(uint32_t address, uint32_t *out_buffer, uint32_t count) { if (iosuhaxHandle < 0) return iosuhaxHandle; ALIGN_0x20 uint32_t io_buf[0x20 >> 2]; io_buf[0] = address; void *tmp_buf = NULL; if (((uintptr_t) out_buffer & 0x1F) || ((count * 4) & 0x1F)) { tmp_buf = (uint32_t *) memalign(0x20, ROUNDUP((count * 4), 0x20)); if (!tmp_buf) return -2; } int res = IOS_Ioctl(iosuhaxHandle, IOCTL_KERN_READ32, io_buf, sizeof(address), tmp_buf ? tmp_buf : out_buffer, count * 4); if (res >= 0 && tmp_buf) memcpy(out_buffer, tmp_buf, count * 4); free(tmp_buf); return res; } int IOSUHAX_SVC(uint32_t svc_id, uint32_t *args, uint32_t arg_cnt) { if (iosuhaxHandle < 0) return iosuhaxHandle; ALIGN_0x20 uint32_t arguments[0x40 >> 2]; arguments[0] = svc_id; if (args && arg_cnt) { if (arg_cnt > 8) arg_cnt = 8; memcpy(arguments + 1, args, arg_cnt * 4); } ALIGN_0x20 int result[0x20 >> 2]; int ret = IOS_Ioctl(iosuhaxHandle, IOCTL_SVC, arguments, (1 + arg_cnt) * 4, result, 4); if (ret < 0) return ret; return *result; } int IOSUHAX_FSA_Open(void) { if (iosuhaxHandle < 0) return iosuhaxHandle; ALIGN_0x20 int io_buf[0x20 >> 2]; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_OPEN, 0, 0, io_buf, sizeof(int)); if (res < 0) return res; return io_buf[0]; } int IOSUHAX_FSA_Close(int fsaFd) { if (iosuhaxHandle < 0) return iosuhaxHandle; ALIGN_0x20 int io_buf[0x20 >> 2]; io_buf[0] = fsaFd; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_CLOSE, io_buf, sizeof(fsaFd), io_buf, sizeof(fsaFd)); if (res < 0) return res; return io_buf[0]; } int IOSUHAX_FSA_Mount(int fsaFd, const char *device_path, const char *volume_path, uint32_t flags, const char *arg_string, int arg_string_len) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 6; int io_buf_size = (sizeof(uint32_t) * input_cnt) + strlen(device_path) + strlen(volume_path) + arg_string_len + 3; ALIGN_0x20 int io_buf[ROUNDUP(io_buf_size, 0x20) >> 2]; memset(io_buf, 0, io_buf_size); io_buf[0] = fsaFd; io_buf[1] = sizeof(uint32_t) * input_cnt; io_buf[2] = io_buf[1] + strlen(device_path) + 1; io_buf[3] = flags; io_buf[4] = arg_string_len ? (io_buf[2] + strlen(volume_path) + 1) : 0; io_buf[5] = arg_string_len; strcpy(((char *) io_buf) + io_buf[1], device_path); strcpy(((char *) io_buf) + io_buf[2], volume_path); if (arg_string_len) memcpy(((char *) io_buf) + io_buf[4], arg_string, arg_string_len); int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_MOUNT, io_buf, io_buf_size, io_buf, 4); if (res < 0) return res; return io_buf[0]; } int IOSUHAX_FSA_Unmount(int fsaFd, const char *path, uint32_t flags) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 3; int io_buf_size = sizeof(uint32_t) * input_cnt + strlen(path) + 1; ALIGN_0x20 int io_buf[ROUNDUP(io_buf_size, 0x20) >> 2]; io_buf[0] = fsaFd; io_buf[1] = sizeof(uint32_t) * input_cnt; io_buf[2] = flags; strcpy(((char *) io_buf) + io_buf[1], path); int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_UNMOUNT, io_buf, io_buf_size, io_buf, 4); if (res < 0) return res; return io_buf[0]; } int IOSUHAX_FSA_FlushVolume(int fsaFd, const char *volume_path) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 2; int io_buf_size = sizeof(uint32_t) * input_cnt + strlen(volume_path) + 1; ALIGN_0x20 int io_buf[ROUNDUP(io_buf_size, 0x20) >> 2]; io_buf[0] = fsaFd; io_buf[1] = sizeof(uint32_t) * input_cnt; strcpy(((char *) io_buf) + io_buf[1], volume_path); int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_FLUSHVOLUME, io_buf, io_buf_size, io_buf, 4); if (res < 0) return res; return io_buf[0]; } int IOSUHAX_FSA_GetDeviceInfo(int fsaFd, const char *device_path, int type, uint32_t *out_data) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 3; int io_buf_size = sizeof(uint32_t) * input_cnt + strlen(device_path) + 1; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = sizeof(uint32_t) * input_cnt; io_buf[2] = type; strcpy(((char *) io_buf) + io_buf[1], device_path); uint32_t out_buf[1 + 0x64 / 4]; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_GETDEVICEINFO, io_buf, io_buf_size, out_buf, sizeof(out_buf)); if (res < 0) { free(io_buf); return res; } memcpy(out_data, out_buf + 1, 0x64); free(io_buf); return out_buf[0]; } int IOSUHAX_FSA_MakeDir(int fsaFd, const char *path, uint32_t flags) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 3; int io_buf_size = sizeof(uint32_t) * input_cnt + strlen(path) + 1; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = sizeof(uint32_t) * input_cnt; io_buf[2] = flags; strcpy(((char *) io_buf) + io_buf[1], path); int result; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_MAKEDIR, io_buf, io_buf_size, &result, sizeof(result)); if (res < 0) { free(io_buf); return res; } free(io_buf); return result; } int IOSUHAX_FSA_OpenDir(int fsaFd, const char *path, int *outHandle) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 2; int io_buf_size = sizeof(uint32_t) * input_cnt + strlen(path) + 1; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = sizeof(uint32_t) * input_cnt; strcpy(((char *) io_buf) + io_buf[1], path); int result_vec[2]; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_OPENDIR, io_buf, io_buf_size, result_vec, sizeof(result_vec)); if (res < 0) { free(io_buf); return res; } *outHandle = result_vec[1]; free(io_buf); return result_vec[0]; } int IOSUHAX_FSA_ReadDir(int fsaFd, int handle, FSDirectoryEntry *out_data) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 2; int io_buf_size = sizeof(uint32_t) * input_cnt; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = handle; int result_vec_size = 4 + sizeof(FSDirectoryEntry); uint8_t *result_vec = (uint8_t *) memalign(0x20, result_vec_size); if (!result_vec) { free(io_buf); return -2; } int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_READDIR, io_buf, io_buf_size, result_vec, result_vec_size); if (res < 0) { free(result_vec); free(io_buf); return res; } int result = *(int *) result_vec; memcpy(out_data, result_vec + 4, sizeof(FSDirectoryEntry)); free(io_buf); free(result_vec); return result; } int IOSUHAX_FSA_RewindDir(int fsaFd, int dirHandle) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 2; int io_buf_size = sizeof(uint32_t) * input_cnt; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = dirHandle; int result; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_REWINDDIR, io_buf, io_buf_size, &result, sizeof(result)); if (res < 0) { free(io_buf); return res; } free(io_buf); return result; } int IOSUHAX_FSA_CloseDir(int fsaFd, int handle) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 2; int io_buf_size = sizeof(uint32_t) * input_cnt; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = handle; int result; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_CLOSEDIR, io_buf, io_buf_size, &result, sizeof(result)); if (res < 0) { free(io_buf); return res; } free(io_buf); return result; } int IOSUHAX_FSA_ChangeDir(int fsaFd, const char *path) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 2; int io_buf_size = sizeof(uint32_t) * input_cnt + strlen(path) + 1; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = sizeof(uint32_t) * input_cnt; strcpy(((char *) io_buf) + io_buf[1], path); int result; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_CHDIR, io_buf, io_buf_size, &result, sizeof(result)); if (res < 0) { free(io_buf); return res; } free(io_buf); return result; } int IOSUHAX_FSA_OpenFile(int fsaFd, const char *path, const char *mode, int *outHandle) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 3; int io_buf_size = sizeof(uint32_t) * input_cnt + strlen(path) + strlen(mode) + 2; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = sizeof(uint32_t) * input_cnt; io_buf[2] = io_buf[1] + strlen(path) + 1; strcpy(((char *) io_buf) + io_buf[1], path); strcpy(((char *) io_buf) + io_buf[2], mode); int result_vec[2]; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_OPENFILE, io_buf, io_buf_size, result_vec, sizeof(result_vec)); if (res < 0) { free(io_buf); return res; } *outHandle = result_vec[1]; free(io_buf); return result_vec[0]; } int IOSUHAX_FSA_ReadFile(int fsaFd, void *data, uint32_t size, uint32_t cnt, int fileHandle, uint32_t flags) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 5; int io_buf_size = sizeof(uint32_t) * input_cnt; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = size; io_buf[2] = cnt; io_buf[3] = fileHandle; io_buf[4] = flags; int out_buf_size = ((size * cnt + 0x40) + 0x3F) & ~0x3F; uint32_t *out_buffer = (uint32_t *) memalign(0x40, out_buf_size); if (!out_buffer) { free(io_buf); return -2; } int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_READFILE, io_buf, io_buf_size, out_buffer, out_buf_size); if (res < 0) { free(out_buffer); free(io_buf); return res; } //! data is put to offset 0x40 to align the buffer output memcpy(data, ((uint8_t *) out_buffer) + 0x40, size * cnt); int result = out_buffer[0]; free(out_buffer); free(io_buf); return result; } int IOSUHAX_FSA_WriteFile(int fsaFd, const void *data, uint32_t size, uint32_t cnt, int fileHandle, uint32_t flags) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 5; int io_buf_size = ((sizeof(uint32_t) * input_cnt + size * cnt + 0x40) + 0x3F) & ~0x3F; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = size; io_buf[2] = cnt; io_buf[3] = fileHandle; io_buf[4] = flags; //! data is put to offset 0x40 to align the buffer input memcpy(((uint8_t *) io_buf) + 0x40, data, size * cnt); int result; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_WRITEFILE, io_buf, io_buf_size, &result, sizeof(result)); if (res < 0) { free(io_buf); return res; } free(io_buf); return result; } int IOSUHAX_FSA_StatFile(int fsaFd, int fileHandle, FSStat *out_data) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 2; int io_buf_size = sizeof(uint32_t) * input_cnt; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = fileHandle; int out_buf_size = 4 + sizeof(FSStat); uint32_t *out_buffer = (uint32_t *) memalign(0x20, out_buf_size); if (!out_buffer) { free(io_buf); return -2; } int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_STATFILE, io_buf, io_buf_size, out_buffer, out_buf_size); if (res < 0) { free(io_buf); free(out_buffer); return res; } int result = out_buffer[0]; memcpy(out_data, out_buffer + 1, sizeof(FSStat)); free(io_buf); free(out_buffer); return result; } int IOSUHAX_FSA_CloseFile(int fsaFd, int fileHandle) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 2; int io_buf_size = sizeof(uint32_t) * input_cnt; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = fileHandle; int result; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_CLOSEFILE, io_buf, io_buf_size, &result, sizeof(result)); if (res < 0) { free(io_buf); return res; } free(io_buf); return result; } int IOSUHAX_FSA_SetFilePos(int fsaFd, int fileHandle, uint32_t position) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 3; int io_buf_size = sizeof(uint32_t) * input_cnt; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = fileHandle; io_buf[2] = position; int result; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_SETFILEPOS, io_buf, io_buf_size, &result, sizeof(result)); if (res < 0) { free(io_buf); return res; } free(io_buf); return result; } int IOSUHAX_FSA_GetStat(int fsaFd, const char *path, FSStat *out_data) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 2; int io_buf_size = sizeof(uint32_t) * input_cnt + strlen(path) + 1; uint32_t *io_buf = (uint32_t *) memalign(0x20, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = sizeof(uint32_t) * input_cnt; strcpy(((char *) io_buf) + io_buf[1], path); int out_buf_size = 4 + sizeof(FSStat); uint32_t *out_buffer = (uint32_t *) memalign(0x20, out_buf_size); if (!out_buffer) { free(io_buf); return -2; } int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_GETSTAT, io_buf, io_buf_size, out_buffer, out_buf_size); if (res < 0) { free(io_buf); free(out_buffer); return res; } int result = out_buffer[0]; memcpy(out_data, out_buffer + 1, sizeof(FSStat)); free(io_buf); free(out_buffer); return result; } int IOSUHAX_FSA_Remove(int fsaFd, const char *path) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 2; int io_buf_size = sizeof(uint32_t) * input_cnt + strlen(path) + 1; uint32_t *io_buf = (uint32_t *) memalign(0x20, ROUNDUP(io_buf_size, 0x20)); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = sizeof(uint32_t) * input_cnt; strcpy(((char *) io_buf) + io_buf[1], path); int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_REMOVE, io_buf, io_buf_size, io_buf, 4); if (res >= 0) res = io_buf[0]; free(io_buf); return res; } int IOSUHAX_FSA_ChangeMode(int fsaFd, const char *path, int mode) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 3; int io_buf_size = sizeof(uint32_t) * input_cnt + strlen(path) + 1; ALIGN_0x20 uint32_t io_buf[ROUNDUP(io_buf_size, 0x20) >> 2]; io_buf[0] = fsaFd; io_buf[1] = sizeof(uint32_t) * input_cnt; io_buf[2] = mode; strcpy(((char *) io_buf) + io_buf[1], path); int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_CHANGEMODE, io_buf, io_buf_size, io_buf, 4); if (res < 0) return res; return io_buf[0]; } int IOSUHAX_FSA_RawOpen(int fsaFd, const char *device_path, int *outHandle) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 2; int io_buf_size = sizeof(uint32_t) * input_cnt + strlen(device_path) + 1; ALIGN_0x20 uint32_t io_buf[ROUNDUP(io_buf_size, 0x20) >> 2]; io_buf[0] = fsaFd; io_buf[1] = sizeof(uint32_t) * input_cnt; strcpy(((char *) io_buf) + io_buf[1], device_path); int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_RAW_OPEN, io_buf, io_buf_size, io_buf, 2 * sizeof(int)); if (res < 0) return res; if (outHandle) *outHandle = io_buf[1]; return io_buf[0]; } int IOSUHAX_FSA_RawRead(int fsaFd, void *data, uint32_t block_size, uint32_t block_cnt, uint64_t sector_offset, int device_handle) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 6; int io_buf_size = 0x40 + block_size * block_cnt; uint32_t *io_buf = (uint32_t *) memalign(0x40, ROUNDUP(io_buf_size, 0x40)); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = block_size; io_buf[2] = block_cnt; io_buf[3] = (sector_offset >> 32) & 0xFFFFFFFF; io_buf[4] = sector_offset & 0xFFFFFFFF; io_buf[5] = device_handle; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_RAW_READ, io_buf, sizeof(uint32_t) * input_cnt, io_buf, io_buf_size); if (res >= 0) { //! data is put to offset 0x40 to align the buffer output memcpy(data, ((uint8_t *) io_buf) + 0x40, block_size * block_cnt); res = io_buf[0]; } free(io_buf); return res; } int IOSUHAX_FSA_RawWrite(int fsaFd, const void *data, uint32_t block_size, uint32_t block_cnt, uint64_t sector_offset, int device_handle) { if (iosuhaxHandle < 0) return iosuhaxHandle; int io_buf_size = ROUNDUP(0x40 + block_size * block_cnt, 0x40); uint32_t *io_buf = (uint32_t *) memalign(0x40, io_buf_size); if (!io_buf) return -2; io_buf[0] = fsaFd; io_buf[1] = block_size; io_buf[2] = block_cnt; io_buf[3] = (sector_offset >> 32) & 0xFFFFFFFF; io_buf[4] = sector_offset & 0xFFFFFFFF; io_buf[5] = device_handle; //! data is put to offset 0x40 to align the buffer input memcpy(((uint8_t *) io_buf) + 0x40, data, block_size * block_cnt); int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_RAW_WRITE, io_buf, io_buf_size, io_buf, 4); if (res >= 0) res = io_buf[0]; free(io_buf); return res; } int IOSUHAX_FSA_RawClose(int fsaFd, int device_handle) { if (iosuhaxHandle < 0) return iosuhaxHandle; const int input_cnt = 2; int io_buf_size = sizeof(uint32_t) * input_cnt; ALIGN_0x20 uint32_t io_buf[ROUNDUP(io_buf_size, 0x20) >> 2]; io_buf[0] = fsaFd; io_buf[1] = device_handle; int res = IOS_Ioctl(iosuhaxHandle, IOCTL_FSA_RAW_CLOSE, io_buf, io_buf_size, io_buf, 4); if (res < 0) return res; return io_buf[0]; }