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jade_ota.py
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jade_ota.py
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#!/usr/bin/env python
import os
import sys
import time
import json
import hashlib
import logging
import argparse
import subprocess
from jadepy import JadeAPI
from tools import fwtools
TEST_MNEMONIC = 'fish inner face ginger orchard permit useful method fence \
kidney chuckle party favorite sunset draw limb science crane oval letter \
slot invite sadness banana'
BLE_TEST_PASSKEYFILE = 'ble_test_passkey.txt'
FWSERVER_URL_ROOT = 'https://jadefw.blockstream.com/bin'
FWSERVER_INDEX_FILE = 'index.json'
DEFAULT_FIRMWARE_FILE = 'build/jade.bin'
COMP_FW_DIR = 'build'
# Enable jade debug logging
jadehandler = logging.StreamHandler()
logger = logging.getLogger('jadepy.jade')
logger.setLevel(logging.DEBUG)
logger.addHandler(jadehandler)
device_logger = logging.getLogger('jadepy.jade-device')
device_logger.setLevel(logging.DEBUG)
device_logger.addHandler(jadehandler)
# Manage bt agent
def start_agent(passkey_file):
logger.info(f'Starting bt-agent with passkey file: {passkey_file}')
command = ['/usr/bin/bt-agent', '-c', 'DisplayYesNo', '-p', passkey_file]
btagent = subprocess.Popen(command,
shell=False,
stdout=subprocess.DEVNULL)
logger.info(f'Started bt-agent with process id: {btagent.pid}')
return btagent
def kill_agent(btagent):
command = f'kill -HUP {btagent.pid}'
subprocess.run(command,
shell=True,
stdout=subprocess.DEVNULL)
logger.info(f'Killed bt-agent {btagent.pid}')
# Parse the index file and select firmware to download
def get_fw_metadata(release_data):
# Select firmware from list of available
def _full_fw_label(fw):
return f'{fw["version"]} - {fw["config"]}'
def _delta_fw_label(fw, width):
return _full_fw_label(fw).ljust(width) + f'FROM {fw["from_version"]} - {fw["from_config"]}'
print('Full firmwares')
fullfws = release_data.get('full', [])
for i, label in enumerate((_full_fw_label(fw) for fw in fullfws), 1): # 1 based index
print(f'{i})'.ljust(3), label)
print('-')
print('Delta patches')
deltas = release_data.get('delta', [])
just = max(len(name) for name in map(_full_fw_label, deltas)) + 2 if deltas else 0
for i, label in enumerate((_delta_fw_label(fw, just) for fw in deltas), i + 1): # continue
print(f'{i})'.ljust(4), label)
print('-')
selectedfw = int(input('Select firmware: '))
assert selectedfw > 0 and selectedfw <= i, f'Selected firmware not valid: {selectedfw}'
selectedfw -= 1 # zero-based index
numfullfws = len(fullfws)
selectedfw = fullfws[selectedfw] if selectedfw < numfullfws else deltas[selectedfw - numfullfws]
return selectedfw
# Download compressed firmware file from Firmware Server using 'requests'
def download_file(hw_target, write_compressed, release):
import requests
# GET the index file from the firmware server which lists the
# available firmwares
url = f'{FWSERVER_URL_ROOT}/{hw_target}/{FWSERVER_INDEX_FILE}'
logger.info(f'Downloading firmware index file {url}')
rslt = requests.get(url)
assert rslt.status_code == 200, f'Cannot download index file {url}: {rslt.status_code}'
# Get the filename of the firmware to download
release_data = json.loads(rslt.text).get(release)
if not release_data:
return None, None, None
fwdata = get_fw_metadata(release_data)
fwname = fwdata['filename']
fwhash = fwdata.get('fwhash')
cmphash = fwdata.get('cmphash')
# GET the selected firmware from the server
url = f'{FWSERVER_URL_ROOT}/{hw_target}/{fwname}'
logger.info(f'Downloading firmware {url}')
rslt = requests.get(f'{FWSERVER_URL_ROOT}/{hw_target}/{fwname}')
assert rslt.status_code == 200, f'Cannot download firmware file {url}: {rslt.status_code}'
fwcmp = rslt.content
logger.info(f'Downloaded {len(fwcmp)} byte firmware')
# Check the downloaded file hash if available
if cmphash:
# Compute the sha256 hash of the downloaded file
cmphasher = hashlib.sha256()
cmphasher.update(fwcmp)
assert cmphasher.digest() == bytes.fromhex(cmphash)
logger.info(f'Downloaded file hash verified')
# If passed --write-compressed we write a copy of the compressed file
if write_compressed:
cmpfilename = f'{COMP_FW_DIR}/{os.path.basename(fwname)}'
fwtools.write(fwcmp, cmpfilename)
if fwhash:
fwtools.write(fwhash, cmpfilename + ".hash", text=True)
# Return
return fwdata['fwsize'], fwdata.get('patch_size'), fwhash, fwcmp
# Download compressed firmware file from Firmware Server using GDK
def download_file_gdk(hw_target, write_compressed, release):
import greenaddress as gdk
import base64
gdk.init({})
session = gdk.Session({'name': 'mainnet'})
# GET the index file from the firmware server which lists the
# available firmwares
url = f'{FWSERVER_URL_ROOT}/{hw_target}/{FWSERVER_INDEX_FILE}'
logger.info(f'Downloading firmware index file {url} using gdk')
params = {'method': 'GET', 'urls': [url]}
rslt = gdk.http_request(session.session_obj, json.dumps(params))
rslt = json.loads(rslt)
assert 'body' in rslt, f'Cannot download index file {url}: {rslt.get("error")}'
# Get the filename of the firmware to download
release_data = json.loads(rslt['body']).get(release)
if not release_data:
return None, None, None
fwdata = get_fw_metadata(release_data)
fwname = fwdata['filename']
fwhash = fwdata.get('fwhash')
# GET the selected firmware from the server in base64 encoding
url = f'{FWSERVER_URL_ROOT}/{hw_target}/{fwname}'
logger.info(f'Downloading firmware {url} using gdk')
params = {'method': 'GET', 'urls': [url], 'accept': 'base64'}
rslt = gdk.http_request(session.session_obj, json.dumps(params))
rslt = json.loads(rslt)
assert 'body' in rslt, f'Cannot download firmware file {url}: {rslt.get("error")}'
fw_b64 = rslt['body']
fwcmp = base64.b64decode(fw_b64)
logger.info(f'Downloaded {len(fwcmp)} byte firmware')
# If passed --write-compressed we write a copy of the compressed file
if write_compressed:
cmpfilename = f'{COMP_FW_DIR}/{os.path.basename(fwname)}'
fwtools.write(fwcmp, cmpfilename)
if fwhash:
fwtools.write(fwhash, cmpfilename + ".hash", text=True)
# Return
return fwdata['fwsize'], fwdata.get('patch_size'), fwhash, fwcmp
# Use a local uncompressed full firmware file - can deduce the compressed firmware
# filename to use, and can write a copy of that file if requested.
# NOTE: only handles full firmwares - does not support patches (which are always compressed)
def get_local_uncompressed_fwfile(fwfilename, write_compressed):
# Load the uncompressed firmware file
assert os.path.exists(fwfilename) and os.path.isfile(
fwfilename), f'Uncompressed firmware file not found: {fwfilename}'
# Read the fw file and get the hash
firmware = fwtools.read(fwfilename)
fwlen = len(firmware)
fwhash = hashlib.sha256(firmware).hexdigest()
# Compress the firmware for upload
fwcmp = fwtools.compress(firmware)
# Use fwtools to deduce the filename used for the compressed firmware
cmpfilename = fwtools.get_firmware_compressed_filepath(firmware, COMP_FW_DIR)
fwtype, fwinfo, fwinfo2 = fwtools.parse_compressed_filename(cmpfilename)
assert fwtype == fwtools.FWFILE_TYPE_FULL and fwinfo2 is None and fwinfo.fwsize == fwlen
# If passed --write-compressed we create the compressed file now
if write_compressed:
logger.info('Writing compressed firmware file')
fwtools.write(fwcmp, cmpfilename)
return fwlen, None, fwhash, fwcmp
# Use a local firmware file - the compressed firmware file.
# Handles full firmwares and also compressed firmware patches.
def get_local_compressed_fwfile(fwfilename):
# Load the uncompressed firmware file
assert os.path.exists(fwfilename) and os.path.isfile(
fwfilename), f'Compressed firmware file not found: {fwfilename}'
# Read the fw file
fwcmp = fwtools.read(fwfilename)
fwhash = None
try:
fwhash = fwtools.read(fwfilename + ".hash", text=True)
except Exception as e:
logger.warning('Hash file no present or not valid')
# Use fwtools to parse the filename and deduce whether this is
# a full firmware file or a firmware delta/patch.
fwtype, fwinfo, fwinfo2 = fwtools.parse_compressed_filename(fwfilename)
assert (fwtype == fwtools.FWFILE_TYPE_PATCH) == (fwinfo2 is not None)
return fwinfo.fwsize, fwinfo2.fwsize if fwinfo2 else None, fwhash, fwcmp
# Returns whether we have ble and the id of the jade
def get_bleid(jade):
info = jade.get_version_info()
has_radio = info['JADE_CONFIG'] == 'BLE'
id = info['EFUSEMAC'][6:]
return has_radio, id
# Takes the compressed firmware data to upload, the expected length of the
# final (uncompressed) firmware, the length of the uncompressed diff/patch
# (if this is a patch to apply to the current running firmware), and whether
# to apply the test mnemonic rather than using normal pinserver authentication.
def ota(jade, fwcompressed, fwlength, fwhash, patchlen=None, pushmnemonic=False):
info = jade.get_version_info()
logger.info(f'Running OTA on: {info}')
has_pin = info['JADE_HAS_PIN']
has_radio = info['JADE_CONFIG'] == 'BLE'
id = info['EFUSEMAC'][6:]
chunksize = int(info['JADE_OTA_MAX_CHUNK'])
assert chunksize > 0
# Can set the mnemonic in debug, to ensure OTA is allowed
if pushmnemonic:
ret = jade.set_mnemonic(TEST_MNEMONIC)
assert ret is True
elif has_pin:
# The network to use is deduced from the version-info
network = 'testnet' if info.get('JADE_NETWORKS') == 'TEST' else 'mainnet'
ret = jade.auth_user(network)
assert ret is True
start_time = time.time()
last_time = start_time
last_written = 0
# Callback to log progress
def _log_progress(written, compressed_size):
nonlocal last_time
nonlocal last_written
current_time = time.time()
secs = current_time - last_time
total_secs = current_time - start_time
bytes_ = written - last_written
last_rate = bytes_ / secs
avg_rate = written / total_secs
progress = (written / compressed_size) * 100
secs_remaining = (compressed_size - written) / avg_rate
template = '{0:.2f} b/s - progress {1:.2f}% - {2:.2f} seconds left'
logger.info(template.format(last_rate, progress, secs_remaining))
logger.info('Written {0}b in {1:.2f}s'.format(written, total_secs))
last_time = current_time
last_written = written
result = jade.ota_update(fwcompressed, fwlength, chunksize, fwhash,
patchlen=patchlen, cb=_log_progress, gcov_dump=info.get('GCOV', False))
assert result is True
logger.info(f'Total ota time in secs: {time.time() - start_time}')
# Pause to allow for post-ota reboot
time.sleep(5)
# Return whether we have ble and the id of the jade
return has_radio, id
if __name__ == '__main__':
parser = argparse.ArgumentParser()
parser.add_argument('--skipserial',
action='store_true',
dest='skipserial',
help='Skip testing over serial connection',
default=False)
parser.add_argument('--serialport',
action='store',
dest='serialport',
help='Serial port or device',
default=None)
blegrp = parser.add_mutually_exclusive_group()
blegrp.add_argument('--skipble',
action='store_true',
dest='skipble',
help='Skip testing over BLE connection',
default=False)
blegrp.add_argument('--bleidfromserial',
action='store_true',
dest='bleidfromserial',
help='Fetch BLE id from serial connection (implied if not --skipserial)',
default=False)
blegrp.add_argument('--bleid',
action='store',
dest='bleid',
help='BLE device serial number or id',
default=None)
agtgrp = parser.add_mutually_exclusive_group()
agtgrp.add_argument('--noagent',
action='store_true',
dest='noagent',
help='Do not run the BLE passkey agent',
default=False)
agtgrp.add_argument('--agentkeyfile',
action='store',
dest='agentkeyfile',
help='Use the specified BLE passkey agent key file',
default=BLE_TEST_PASSKEYFILE)
srcgrp = parser.add_mutually_exclusive_group()
srcgrp.add_argument('--download-firmware',
action='store_true',
dest='downloadfw',
help='Download the firmware from the firmware server',
default=False)
srcgrp.add_argument('--download-firmware-gdk',
action='store_true',
dest='downloadgdk',
help='Download the firmware from the firmware server using gdk',
default=False)
srcgrp.add_argument('--fwfile-uncompressed',
action='store',
dest='fwfile_uncompressed',
help='Uncompressed local file to OTA - full fw only',
default=DEFAULT_FIRMWARE_FILE)
srcgrp.add_argument('--fwfile',
action='store',
dest='fwfile',
help='Compressed local file to OTA - full or patch',
default=None)
# These only apply to firmware downloading
parser.add_argument('--hw-target',
action='store',
dest='hwtarget',
help='Hardware target for downloading firmware. Defaults to jade',
choices=['jade', 'jadedev', 'jade1.1', 'jade1.1dev',
'jade2.0', 'jade2.0dev'],
default=None)
parser.add_argument('--release',
action='store',
dest='release',
choices=['previous', 'stable', 'beta'],
help='Use previous or beta versions, if available. Defaults to stable.',
default=None)
# Generic
parser.add_argument('--write-compressed',
action='store_true',
dest='writecompressed',
help='Create/write copy of compressed firmware file',
default=False)
parser.add_argument('--push-mnemonic',
action='store_true',
dest='pushmnemonic',
help='Sets a test mnemonic - only works with debug build of Jade',
default=False)
parser.add_argument('--log',
action='store',
dest='loglevel',
help='Jade logging level',
choices=['DEBUG', 'INFO', 'WARN', 'ERROR', 'CRITICAL'],
default='INFO')
args = parser.parse_args()
jadehandler.setLevel(getattr(logging, args.loglevel))
logger.debug(f'args: {args}')
manage_agents = args.agentkeyfile and not args.skipble and not args.noagent
downloading = args.downloadfw or args.downloadgdk
if args.skipserial and args.skipble:
logger.warning('The fw file will be downloaded/verified but the actual OTA will be skipped')
if args.bleid and not args.skipserial:
logger.error('Can only supply ble-id when skipping serial tests')
sys.exit(1)
if args.fwfile and args.writecompressed:
logger.error('Cannot write compressed fw file when reading from compressed fw file')
sys.exit(1)
if args.release and not downloading:
logger.error('Can only specify release when downloading fw from server')
sys.exit(1)
if args.hwtarget and not downloading:
logger.error('Can only supply hardware target when downloading fw from server')
sys.exit(1)
if downloading and not args.hwtarget:
args.hwtarget = 'jade' # default to prod jade
if downloading and not args.release:
args.release = 'stable' # default to latest/stable
# Create target dir if not present
if args.writecompressed and not os.path.isdir(COMP_FW_DIR):
os.mkdir(COMP_FW_DIR)
# Get the file to OTA
if args.downloadfw:
fwlen, patchlen, fwhash, fwcmp = download_file(args.hwtarget, args.writecompressed,
args.release)
elif args.downloadgdk:
fwlen, patchlen, fwhash, fwcmp = download_file_gdk(args.hwtarget, args.writecompressed,
args.release)
elif args.fwfile:
assert not args.writecompressed
fwlen, patchlen, fwhash, fwcmp = get_local_compressed_fwfile(args.fwfile)
else:
# Default case, as 'uncompressed fw file' has a default value if not passed explicitly
fwlen, patchlen, fwhash, fwcmp = get_local_uncompressed_fwfile(args.fwfile_uncompressed,
args.writecompressed)
if fwcmp is None:
logger.error('No firmware available')
sys.exit(2)
logger.info(f'Got fw {"patch" if patchlen else "file"} of length {len(fwcmp)} '
f'with expected uncompressed final fw length {fwlen}')
if fwhash is not None:
logger.info(f'Final fw hash: {fwhash}')
fwhash = bytes.fromhex(fwhash)
# If ble, start the agent to supply the required passkey for authentication
# and encryption - don't bother if not.
# Note: passkey in the agent passkey file must match the fixed test passkey
# in jade source if we want the connection to succeed.
btagent = None
if manage_agents:
btagent = start_agent(args.agentkeyfile)
try:
has_radio = True
bleid = args.bleid
if not args.skipserial:
logger.info(f'Jade OTA over serial')
with JadeAPI.create_serial(device=args.serialport) as jade:
has_radio, bleid = ota(jade, fwcmp, fwlen, fwhash, patchlen, args.pushmnemonic)
if not args.skipble:
if has_radio and bleid is None and args.bleidfromserial:
logger.info(f'Jade OTA getting bleid via serial connection')
with JadeAPI.create_serial(device=args.serialport) as jade:
has_radio, bleid = get_bleid(jade)
if has_radio:
logger.info(f'Jade OTA over BLE {bleid}')
with JadeAPI.create_ble(serial_number=bleid) as jade:
ota(jade, fwcmp, fwlen, fwhash, patchlen, args.pushmnemonic)
else:
msg = 'Skipping BLE tests - not enabled on the hardware'
logger.warning(msg)
finally:
if btagent:
kill_agent(btagent)