/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2015 by Cástor Muñoz * * This program 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 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include #include #include "config.h" #include "system.h" #include "button.h" #include "s5l8702.h" #include "clocking-s5l8702.h" #include "spi-s5l8702.h" #include "nor-target.h" #include "piezo.h" /* How it works: * * - dualboot-installer: installs or updates a RB bootloader, the bootloader * to install/update is already included into dualboot-installer.dfu file, * once it is executed by the iPod device: * * 1) locates an original NORBOOT (ONB): first it looks at offset=32KB, if * a NORBOOT is found but it is not an ONB then it is supposed it is a * RB bootloader (that should be updated), then the ONB is loaded from * offset=32KB+old_BLSIZE). * 2) write ONB at 32KB+new_BLSIZE, if it fails then: * 2a) try to restore ONB to its 'pristine' place (offset=32KB), if it * also fails then the NOR got corrupted (ONB probably destroyed) * and iTunes should be used to restore the iPod. * 3) write new (included) RB bootloader at offset=32KB, it it fails then * goto 2a) * * - dualboot-uninstaller: uninstall RB bootloader from NOR, leaving it at * it's previous (pristine) state. * * See bootloader/ipod6g.c for notes on how the RB bootloader works. * * * Pristine NOR Rockboxed NOR * 1MB ______________ * | | * | flsh DIR | * 1MB-0x200 |______________| * | | * | File 1 | * |..............| * | | * . . * . . * . . * | | * |..............| * | | . . * | File N | . . * |______________| |______________| * | | | | * | | | | * | | | Unused | * | | | | * | Unused | 160KB+BLSZ |______________| * | | | | * | | | Original | * | | | NOR boot | * 160KB |______________| | (decrypted) | * | | | | * | | 32KB+BLSZ |______________| * | Original | | | * | NOR boot | | Decrypted | * | (encrypted) | | Rockbox | * | | | Bootloader | * 32KB |______________| 32KB |______________| * | | | | * | | . . * | | . . * |______________| * | | * | SysCfg | * 0 |______________| * */ #define OF_LOADADDR IRAM1_ORIG /* tone sequences: period (uS), duration (ms), silence (ms) */ static uint16_t alive[] = { 500,100,0, 0 }; static uint16_t happy[] = { 1000,100,0, 500,150,0, 0 }; static uint16_t fatal[] = { 3000,500,500, 3000,500,500, 3000,500,0, 0 }; #define sad2 (&fatal[3]) #define sad (&fatal[6]) /* iPod Classic: decrypted hashes for known OFs */ static unsigned char of_sha[][SIGN_SZ] = { "\x66\x66\x76\xDC\x1D\x32\xB2\x46\xA6\xC9\x7D\x5A\x61\xD3\x49\x4C", /* v1.1.2 */ "\x1E\xF0\xD9\xDE\xC2\x7E\xEC\x02\x7C\x15\x76\xBB\x5C\x4F\x2D\x95", /* v2.0.1 */ "\x06\x85\xDF\x28\xE4\xD7\xF4\x82\xC0\x73\xB0\x53\x26\xFC\xB0\xFE", /* v2.0.4 */ "\x60\x80\x7D\x33\xA8\xDE\xF8\x49\xBB\xBE\x01\x45\xFF\x62\x40\x19" /* v2.0.5 */ }; #define N_OF (int)(sizeof(of_sha)/SIGN_SZ) /* we can assume that unknown FW is a RB bootloader */ #define FW_RB N_OF static int identify_fw(struct Im3Info *hinfo) { unsigned char hash[SIGN_SZ]; int of; /* decrypt hash to identify OF */ memcpy(hash, hinfo->u.enc12.data_sign, SIGN_SZ); hwkeyaes(HWKEYAES_DECRYPT, HWKEYAES_UKEY, hash, SIGN_SZ); for (of = 0; of < N_OF; of++) if (memcmp(hash, of_sha[of], SIGN_SZ) == 0) break; return of; } #ifdef DUALBOOT_UNINSTALL /* Uninstall RB bootloader */ void main(void) { struct Im3Info *hinfo; void *fw_addr; uint16_t *status; unsigned bl_nor_sz; usec_timer_init(); piezo_seq(alive); spi_clkdiv(SPI_PORT, 4); /* SPI clock = 27/5 MHz. */ hinfo = (struct Im3Info*)OF_LOADADDR; fw_addr = (void*)hinfo + IM3HDR_SZ; if (im3_read(NORBOOT_OFF, hinfo, NULL) != 0) { status = sad; goto bye; /* no FW found */ } if (identify_fw(hinfo) != FW_RB) { status = happy; goto bye; /* RB bootloader not installed, nothing to do */ } /* if found FW is a RB bootloader, OF should start just behind it */ bl_nor_sz = im3_nor_sz(hinfo); if ((im3_read(NORBOOT_OFF + bl_nor_sz, hinfo, fw_addr) != 0) || (identify_fw(hinfo) == FW_RB)) { status = sad; goto bye; /* OF not found */ } /* decrypted OF correctly loaded, encrypt it before restoration */ im3_crypt(HWKEYAES_ENCRYPT, hinfo, fw_addr); /* restore OF to it's original place */ if (!im3_write(NORBOOT_OFF, hinfo)) { status = fatal; goto bye; /* corrupted NOR, use iTunes to restore */ } /* erase freed NOR blocks */ bootflash_init(SPI_PORT); bootflash_erase_blocks(SPI_PORT, (NORBOOT_OFF + im3_nor_sz(hinfo)) >> 12, bl_nor_sz >> 12); bootflash_close(SPI_PORT); status = happy; bye: /* minimum time between the initial and the final beeps */ while (USEC_TIMER < 2000000); piezo_seq(status); WDTCON = 0x100000; /* WDT reset */ while (1); } #else /* Install RB bootloader */ struct Im3Info bl_hinfo __attribute__((section(".im3info.data"))) = { .ident = IM3_IDENT, .version = IM3_VERSION, .enc_type = 2, }; static uint32_t get_uint32le(unsigned char *p) { return p[0] | (p[1] << 8) | (p[2] << 16) | (p[3] << 24); } void main(void) { uint16_t *status = happy; int single_boot; struct Im3Info *hinfo; void *fw_addr; unsigned bl_nor_sz; usec_timer_init(); piezo_seq(alive); spi_clkdiv(SPI_PORT, 4); /* SPI clock = 27/5 MHz. */ /* check for single boot installation, is is configured when mks5lboot.exe builds the .dfu image */ single_boot = bl_hinfo.info_sign[0]; /* sign RB bootloader (data and header), but don't encrypt it, use current decrypted image for faster load */ im3_sign(HWKEYAES_UKEY, (void*)&bl_hinfo + IM3HDR_SZ, get_uint32le(bl_hinfo.data_sz), bl_hinfo.u.enc12.data_sign); im3_sign(HWKEYAES_UKEY, &bl_hinfo, IM3INFOSIGN_SZ, bl_hinfo.info_sign); if (single_boot) { if (!im3_write(NORBOOT_OFF, &bl_hinfo)) status = sad; goto bye; } hinfo = (struct Im3Info*)OF_LOADADDR; fw_addr = (void*)hinfo + IM3HDR_SZ; if (im3_read(NORBOOT_OFF, hinfo, fw_addr) != 0) { status = sad; goto bye; /* no FW found */ } if (identify_fw(hinfo) == FW_RB) { /* FW found, but not OF, assume it is a RB bootloader, already decrypted OF should be located just behind */ int nor_offset = NORBOOT_OFF + im3_nor_sz(hinfo); if ((im3_read(nor_offset, hinfo, fw_addr) != 0) || (identify_fw(hinfo) == FW_RB)) { status = sad; goto bye; /* OF not found, use iTunes to restore */ } } bl_nor_sz = im3_nor_sz(&bl_hinfo); /* safety check - verify we are not going to overwrite useful data */ if (flsh_get_unused() < bl_nor_sz) { status = sad2; goto bye; /* no space if flash, use iTunes to restore */ } /* write decrypted OF and RB bootloader, if any of these fails we will try to retore OF to its original place */ if (!im3_write(NORBOOT_OFF + bl_nor_sz, hinfo) || !im3_write(NORBOOT_OFF, &bl_hinfo)) { im3_crypt(HWKEYAES_ENCRYPT, hinfo, fw_addr); if (!im3_write(NORBOOT_OFF, hinfo)) { /* corrupted NOR, use iTunes to restore */ status = fatal; } else { /* RB bootloader not succesfully intalled, but device was restored and should be working as before */ status = sad; } } bye: /* minimum time between the initial and the final beeps */ while (USEC_TIMER < 2000000); piezo_seq(status); WDTCON = 0x100000; /* WDT reset */ while (1); } #endif /* DUALBOOT_UNINSTALL */