#include #include "tools.h" #include "../gfx/gfxutils.h" #include "../../libs/fatfs/ff.h" #include "../../gfx/gfx.h" #include "../../hid/hid.h" #include "../../soc/gpio.h" #include "../../utils/util.h" #include "../../utils/types.h" #include "../../libs/fatfs/diskio.h" #include "../../storage/sdmmc.h" #include "../../utils/sprintf.h" #include "../../soc/fuse.h" #include "../emmc/emmc.h" #include "../common/common.h" #include "../fs/fsactions.h" #include "../fs/fsutils.h" #include "../../mem/heap.h" #include "../utils/utils.h" extern bool sd_mount(); extern void sd_unmount(); extern sdmmc_storage_t sd_storage; void displayinfo(){ gfx_clearscreen(); FATFS *fs; DWORD fre_clust, fre_sect, tot_sect; u32 capacity; u8 fuse_count = 0; pkg1_info pkg1 = returnpkg1info(); int res; for (u32 i = 0; i < 32; i++){ if ((fuse_read_odm(7) >> i) & 1) fuse_count++; } SWAPCOLOR(COLOR_ORANGE); gfx_printf("Fuse count: %d\nPKG1 id: '%s'\n", fuse_count, pkg1.id); if (pkg1.ver >= 0) gfx_printf("PKG1 version: %d\n", pkg1.ver); gfx_printf("\n"); print_biskeys(); RESETCOLOR; gfx_printf("\n-----\n\n"); SWAPCOLOR(COLOR_BLUE); if (!sd_mount()){ gfx_printf("SD mount failed!\nFailed to display SD info\n"); } else { gfx_printf("Getting storage info: please wait..."); res = f_getfree("sd:", &fre_clust, &fs); gfx_printf("\nResult getfree: %d\n\n", res); tot_sect = (fs->n_fatent - 2) * fs->csize; fre_sect = fre_clust * fs->csize; capacity = sd_storage.csd.capacity; gfx_printf("Entire sd:\nSectors: %d\nSpace total: %d MB\n\n", capacity, capacity / 2048); gfx_printf("First partition on SD:\nSectors: %d\nSpace total: %d MB\nSpace free: %d MB\n\n", tot_sect, tot_sect / 2048, fre_sect / 2048); } RESETCOLOR; gfx_printf("Press any key to continue"); hidWait(); } void displaygpio(){ gfx_clearscreen(); gfx_printf("Updates gpio pins every 50ms:\nPress power to exit"); msleep(200); while (1){ msleep(10); gfx_con_setpos(0, 63); for (int i = 0; i <= 30; i++){ gfx_printf("\nPort %d: ", i); for (int i2 = 7; i2 >= 0; i2--) gfx_printf("%d", gpio_read(i, (1 << i2))); } if (hidRead()->pow) break; } } int dumpfirmware(int mmc){ DIR dir; FILINFO fno; bool fail = false; int ret, amount = 0; char sysbase[] = "emmc:/Contents/registered"; char *syspathtemp, *syspath, *sdpath, *sdbase; pkg1_info pkg1 = returnpkg1info(); u32 timer = get_tmr_s(); gfx_clearscreen(); connect_mmc(mmc); mount_mmc("SYSTEM", 2); gfx_printf("PKG1 version: %d\n", pkg1.ver); gfx_printf("Creating folders...\n"); f_mkdir("sd:/tegraexplorer"); f_mkdir("sd:/tegraexplorer/Firmware"); sdbase = calloc(32 + strlen(pkg1.id), sizeof(char)); sprintf(sdbase, "sd:/tegraexplorer/Firmware/%d (%s)", pkg1.ver, pkg1.id); gfx_printf("Out: %s\n", sdbase); f_mkdir(sdbase); if ((ret = f_opendir(&dir, sysbase))) fail = true; gfx_printf("Starting dump...\n"); SWAPCOLOR(COLOR_GREEN); printerrors = 0; while(!f_readdir(&dir, &fno) && fno.fname[0] && !fail){ utils_copystring(fsutil_getnextloc(sdbase, fno.fname), &sdpath); utils_copystring(fsutil_getnextloc(sysbase, fno.fname), &syspathtemp); if (fno.fattrib & AM_DIR){ utils_copystring(fsutil_getnextloc(syspathtemp, "00"), &syspath); free(syspathtemp); } else syspath = syspathtemp; ret = fsact_copy(syspath, sdpath, 0); gfx_printf("%d %s\r", ++amount, fno.fname); if (ret != 0) fail = true; free(sdpath); free(syspath); } printerrors = 1; if (fail) gfx_printf("%k\n\nDump failed! Aborting (%d)", COLOR_RED, ret); gfx_printf("%k\n\nPress any button to continue...\nTime taken: %ds", COLOR_WHITE, get_tmr_s() - timer); free(sdbase); hidWait(); return fail; } /* void dumpusersaves(int mmc){ connect_mmc(mmc); mount_mmc("USER", 2); gfx_clearscreen(); gfx_printf("Creating folders...\n"); f_mkdir("sd:/tegraexplorer"); gfx_printf("Starting dump...\n"); SWAPCOLOR(COLOR_GREEN); if(fsact_copy_recursive("emmc:/save", "sd:/tegraexplorer")) return; RESETCOLOR; gfx_printf("\n\nSaves are located in SD:/tegraexplorer/save\n"); gfx_printf("Press any key to continue"); hidWait(); } */ int format(int mode){ gfx_clearscreen(); int res; bool fatalerror = false; DWORD plist[] = {666, 61145088, 0, 0}; u32 timer, totalsectors, alignedsectors, extrasectors; u8 *work; DWORD clustsize = 32768; BYTE formatoptions = 0; formatoptions |= (FM_FAT32); //formatoptions |= (FM_SFD); disconnect_mmc(); timer = get_tmr_s(); totalsectors = sd_storage.csd.capacity; gfx_printf("Initializing...\n"); work = calloc(BUFSIZE, sizeof(BYTE)); if (work == NULL){ gfx_errDisplay("format", ERR_MEM_ALLOC_FAILED, 0); return 0; } if (mode == FORMAT_EMUMMC){ if (totalsectors < 83886080){ gfx_printf("%kYou seem to be running this on a <=32GB SD\nNot enough free space for emummc!", COLOR_RED); fatalerror = true; } else { totalsectors -= plist[1]; alignedsectors = (totalsectors / 2048) * 2048; extrasectors = totalsectors - alignedsectors; plist[0] = alignedsectors; plist[1] += extrasectors; gfx_printf("\nStarting SD partitioning:\nTotalSectors: %d\nPartition1 (SD): %d\nPartition2 (EMUMMC): %d\n", plist[0] + plist[1], plist[0], plist[1]); } } else { plist[0] = totalsectors; plist[1] = 0; } if (!fatalerror){ gfx_printf("\nPartitioning SD...\n"); res = f_fdisk(0, plist, work); if (res){ gfx_printf("%kf_fdisk returned %d!\n", COLOR_RED, res); fatalerror = true; } else gfx_printf("Done!\n"); } if (!fatalerror){ gfx_printf("\n\nFormatting Partition1...\n"); res = f_mkfs("0:", formatoptions, clustsize, work, BUFSIZE * sizeof(BYTE)); if (res){ gfx_printf("%kf_mkfs returned %d!\n", COLOR_RED, res); fatalerror = true; } else gfx_printf("Smells like a formatted SD\n\n"); } free(work); sd_unmount(); if (!fatalerror){ if (!sd_mount()) gfx_printf("%kSd failed to mount!\n", COLOR_ORANGE); else { gfx_printf("Sd mounted!\n"); } } connect_mmc(SYSMMC); gfx_printf("\nPress any button to return%k\nTotal time taken: %ds", COLOR_WHITE, (get_tmr_s() - timer)); hidWait(); return fatalerror; }