/*
* This file is part of the Trezor project, https://trezor.io/
*
* Copyright (c) SatoshiLabs
*
* 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 3 of the License, or
* (at your option) any later version.
*
* This program 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
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#ifdef USE_PVD
#include
#endif
#ifdef USE_SD_CARD
#include
#endif
#ifdef USE_HASH_PROCESSOR
#include
#endif
#ifdef USE_TRUSTZONE
#include
#endif
#ifdef USE_TAMPER
#include
#endif
#include "memzero.h"
#include "version.h"
const uint8_t BOARDLOADER_KEY_M = 2;
const uint8_t BOARDLOADER_KEY_N = 3;
static const uint8_t * const BOARDLOADER_KEYS[] = {
#if !PRODUCTION
(const uint8_t *)"\xdb\x99\x5f\xe2\x51\x69\xd1\x41\xca\xb9\xbb\xba\x92\xba\xa0\x1f\x9f\x2e\x1e\xce\x7d\xf4\xcb\x2a\xc0\x51\x90\xf3\x7f\xcc\x1f\x9d",
(const uint8_t *)"\x21\x52\xf8\xd1\x9b\x79\x1d\x24\x45\x32\x42\xe1\x5f\x2e\xab\x6c\xb7\xcf\xfa\x7b\x6a\x5e\xd3\x00\x97\x96\x0e\x06\x98\x81\xdb\x12",
(const uint8_t *)"\x22\xfc\x29\x77\x92\xf0\xb6\xff\xc0\xbf\xcf\xdb\x7e\xdb\x0c\x0a\xa1\x4e\x02\x5a\x36\x5e\xc0\xe3\x42\xe8\x6e\x38\x29\xcb\x74\xb6",
#else
MODEL_BOARDLOADER_KEYS
#endif
};
static void drivers_init(void) {
#ifdef USE_PVD
pvd_init();
#endif
#ifdef USE_TAMPER
tamper_init();
#endif
secret_init();
#ifdef USE_HASH_PROCESSOR
hash_processor_init();
#endif
gfx_bitblt_init();
display_init(DISPLAY_RESET_CONTENT);
#ifdef USE_SD_CARD
sdcard_init();
#endif
}
static void drivers_deinit(void) {
#ifdef FIXED_HW_DEINIT
// TODO
#endif
display_deinit(DISPLAY_JUMP_BEHAVIOR);
ensure_compatible_settings();
}
static uint8_t get_bootloader_min_version(void) {
uint8_t version = 0;
ensure(monoctr_read(MONOCTR_BOOTLOADER_VERSION, &version), "monoctr read");
return version;
}
static void write_bootloader_min_version(uint8_t version) {
if (version > get_bootloader_min_version()) {
ensure(monoctr_write(MONOCTR_BOOTLOADER_VERSION, version), "monoctr write");
}
}
struct BoardCapabilities capabilities
__attribute__((section(".capabilities_section"))) = {
.header = CAPABILITIES_HEADER,
.model_tag = TAG_MODEL_NAME,
.model_length = sizeof(uint32_t),
.model_name = HW_MODEL,
.version_tag = TAG_BOARDLOADER_VERSION,
.version_length = sizeof(struct BoardloaderVersion),
.version = {.version_major = VERSION_MAJOR,
.version_minor = VERSION_MINOR,
.version_patch = VERSION_PATCH,
.version_build = VERSION_BUILD},
.terminator_tag = TAG_TERMINATOR,
.terminator_length = 0};
// we use SRAM as SD card read buffer (because DMA can't access the CCMRAM)
__attribute__((section(".buf")))
uint32_t sdcard_buf[BOOTLOADER_MAXSIZE / sizeof(uint32_t)];
#if defined USE_SD_CARD
static uint32_t check_sdcard(void) {
if (sectrue != sdcard_power_on()) {
return 0;
}
uint64_t cap = sdcard_get_capacity_in_bytes();
if (cap < 1024 * 1024) {
sdcard_power_off();
return 0;
}
memzero(sdcard_buf, IMAGE_HEADER_SIZE);
const secbool read_status =
sdcard_read_blocks(sdcard_buf, 0, BOOTLOADER_MAXSIZE / SDCARD_BLOCK_SIZE);
sdcard_power_off();
if (sectrue == read_status) {
const image_header *hdr =
read_image_header((const uint8_t *)sdcard_buf, BOOTLOADER_IMAGE_MAGIC,
BOOTLOADER_MAXSIZE);
if (hdr != (const image_header *)sdcard_buf) {
return 0;
}
if (sectrue != check_image_model(hdr)) {
return 0;
}
if (sectrue != check_image_header_sig(hdr, BOARDLOADER_KEY_M,
BOARDLOADER_KEY_N,
BOARDLOADER_KEYS)) {
return 0;
}
_Static_assert(IMAGE_CHUNK_SIZE >= BOOTLOADER_MAXSIZE,
"BOOTLOADER IMAGE MAXSIZE too large for IMAGE_CHUNK_SIZE");
const uint32_t headers_end_offset = hdr->hdrlen;
const uint32_t code_start_offset = IMAGE_CODE_ALIGN(headers_end_offset);
for (uint32_t i = headers_end_offset; i < code_start_offset; i++) {
if (((uint8_t *)sdcard_buf)[i] != 0) {
return 0;
}
}
if (sectrue !=
(check_single_hash(hdr->hashes,
(const uint8_t *)sdcard_buf + code_start_offset,
hdr->codelen))) {
return 0;
}
for (int i = IMAGE_HASH_DIGEST_LENGTH; i < sizeof(hdr->hashes); i++) {
if (hdr->hashes[i] != 0) {
return 0;
}
}
if (hdr->monotonic < get_bootloader_min_version()) {
return 0;
}
return hdr->codelen;
}
return 0;
}
static void progress_callback(int pos, int len) { term_printf("."); }
static secbool copy_sdcard(void) {
display_set_backlight(255);
term_printf("Trezor Boardloader\n");
term_printf("==================\n\n");
term_printf("bootloader found on the SD card\n\n");
term_printf("applying bootloader in 10 seconds\n\n");
term_printf("unplug now if you want to abort\n\n");
uint32_t codelen;
for (int i = 10; i >= 0; i--) {
term_printf("%d ", i);
hal_delay(1000);
codelen = check_sdcard();
if (0 == codelen) {
term_printf("\n\nno SD card, aborting\n");
return secfalse;
}
}
term_printf("\n\nerasing flash:\n\n");
// erase all flash (except boardloader)
if (sectrue != erase_device(progress_callback)) {
term_printf(" failed\n");
return secfalse;
}
term_printf(" done\n\n");
ensure(flash_unlock_write(), NULL);
// copy bootloader from SD card to Flash
term_printf("copying new bootloader from SD card\n\n");
ensure(flash_area_write_data(&BOOTLOADER_AREA, 0, sdcard_buf,
IMAGE_HEADER_SIZE + codelen),
NULL);
ensure(flash_lock_write(), NULL);
term_printf("\ndone\n\n");
term_printf("Unplug the device and remove the SD card\n");
return sectrue;
}
#endif
int main(void) {
system_init(&rsod_panic_handler);
reset_flags_reset();
if (sectrue != flash_configure_option_bytes()) {
// display is not initialized so don't call ensure
erase_storage(NULL);
return 2;
}
#ifdef USE_TRUSTZONE
tz_init_boardloader();
#endif
drivers_init();
#ifdef USE_SD_CARD
// If the bootloader is being updated from SD card, we need to preserve the
// monotonic counter from the old bootloader. This is in case that the old
// bootloader did not have the chance yet to write its monotonic counter to
// the secret area - which normally happens later in the flow.
const image_header *old_hdr = read_image_header(
(const uint8_t *)BOOTLOADER_START, BOOTLOADER_IMAGE_MAGIC,
flash_area_get_size(&BOOTLOADER_AREA));
if ((old_hdr != NULL) &&
(sectrue == check_image_header_sig(old_hdr, BOARDLOADER_KEY_M,
BOARDLOADER_KEY_N,
BOARDLOADER_KEYS)) &&
(sectrue ==
check_image_contents(old_hdr, IMAGE_HEADER_SIZE, &BOOTLOADER_AREA))) {
write_bootloader_min_version(old_hdr->monotonic);
}
if (check_sdcard()) {
return copy_sdcard() == sectrue ? 0 : 3;
}
#endif
const image_header *hdr = read_image_header(
(const uint8_t *)BOOTLOADER_START, BOOTLOADER_IMAGE_MAGIC,
flash_area_get_size(&BOOTLOADER_AREA));
ensure(hdr == (const image_header *)BOOTLOADER_START ? sectrue : secfalse,
"invalid bootloader header");
ensure(check_image_header_sig(hdr, BOARDLOADER_KEY_M, BOARDLOADER_KEY_N,
BOARDLOADER_KEYS),
"invalid bootloader signature");
ensure(check_image_contents(hdr, IMAGE_HEADER_SIZE, &BOOTLOADER_AREA),
"invalid bootloader hash");
uint8_t bld_min_version = get_bootloader_min_version();
ensure((hdr->monotonic >= bld_min_version) * sectrue,
"BOOTLOADER DOWNGRADED");
// Write the bootloader version to the secret area.
// This includes the version of bootloader potentially updated from SD card.
write_bootloader_min_version(hdr->monotonic);
drivers_deinit();
system_deinit();
// g_boot_command is preserved on STM32U5
jump_to(IMAGE_CODE_ALIGN(BOOTLOADER_START + IMAGE_HEADER_SIZE));
return 0;
}