# (c) Copyright 2018 by Coinkite Inc. This file is covered by license found in COPYING-CC. # # version.py - Get lots of different version numbers from stuff. # # REMINDER: update simulator version of this file if API changes are made. # from public_constants import MAX_TXN_LEN_MK4 as MAX_TXN_LEN from public_constants import MAX_UPLOAD_LEN_MK4 as MAX_UPLOAD_LEN def decode_firmware_header(hdr): from sigheader import FWH_PY_FORMAT import ustruct magic_value, timestamp, version_string = ustruct.unpack_from(FWH_PY_FORMAT, hdr)[0:3] parts = ['%02x'%i for i in timestamp] date = '20' + '-'.join(parts[0:3]) vers = bytes(version_string).rstrip(b'\0').decode() return date, vers, ''.join(parts[:-2]) def get_fw_header(): # located in our own flash from sigheader import FLASH_HEADER_BASE_MK4, FW_HEADER_SIZE import uctypes global mk_num return uctypes.bytes_at(FLASH_HEADER_BASE_MK4, FW_HEADER_SIZE) def get_mpy_version(): # read my own file header # see stm32/bootloader/sigheader.h try: hdr = get_fw_header() return decode_firmware_header(hdr) except: # this is early in boot process, so don't fail! return '20YY-MM-DD', '?.??', '180731121314' def get_header_value(fld_name): # get a single value, raw, from header; based on field name from sigheader import FWH_PY_FORMAT, FWH_PY_VALUES import ustruct idx = FWH_PY_VALUES.split().index(fld_name) hdr = get_fw_header() return ustruct.unpack_from(FWH_PY_FORMAT, hdr)[idx] def nfc_presence_check(): # Does NFC hardware exist on this board? # SDA/SCL will be tied low from machine import Pin return Pin('NFC_SDA', mode=Pin.IN).value() or Pin('NFC_SCL', mode=Pin.IN).value() def get_is_devmode(): # what firmware signing key did we boot with? are we in dev mode? import ckcc return ckcc.is_debug_build() def serial_number(): # Our USB serial number, both in DFU mode (system boot ROM), and later thanks to code in # USBD_StrDescriptor() # # - this is **probably** public info, since shared freely over USB during enumeration # import machine i = machine.unique_id() return "%02X%02X%02X%02X%02X%02X" % (i[11], i[10] + i[2], i[9], i[8] + i[0], i[7], i[6]) def probe_system(): # run-once code to determine what hardware we are running on global hw_label, has_608, is_factory_mode, is_devmode, has_psram, is_edge global has_se2, mk_num, has_nfc, has_qr, num_sd_slots, has_qwerty, has_battery, supports_hsm from sigheader import RAM_BOOT_FLAGS, RBF_FACTORY_MODE import ckcc, callgate, machine from machine import Pin hw_label = 'mk4' has_608 = True has_qr = False # QR scanner num_sd_slots = 1 # might have dual slots on Q1 mk_num = 4 has_battery = False has_qwerty = False is_edge = False supports_hsm = True has_nfc = nfc_presence_check() # hardware present; they might not use it. cpuid = ckcc.get_cpu_id() assert cpuid == 0x470 # STM32L4S5VI # detect Q1 based on pins.csv try: Pin('LCD_TEAR') # only defined on Q1 build, will error otherwise has_qr = True num_sd_slots = 2 hw_label = 'q1' has_battery = True has_qwerty = True supports_hsm = False # but, still mk_num = 4 except ValueError: pass try: # only defined on Mk4/5 build, will error otherwise; was open on Mk1-4, low on Mk5 s0 = Pin('STRAP_MK5', mode=Pin.IN, pull=Pin.PULL_UP) if s0() == 0: hw_label = 'mk5' mk_num = 5 except ValueError: pass # Boot loader needs to tell us stuff about how we were booted, sometimes: # - did we just install a new version, for example (obsolete in mk4) # - are we running in "factory mode" with flash un-secured? is_factory_mode = callgate.get_factory_mode() bn = callgate.get_bag_number() if bn: # this path supports testing/dev with RDP!=2, which normal production bootroms enforce is_factory_mode = False # what firmware signing key did we boot with? are we in dev mode? is_devmode = get_is_devmode() probe_system() # EOF