#!/usr/bin/env python # # Copyright 2010-2011 Ettus Research LLC # # SPDX-License-Identifier: GPL-3.0 # import platform import tempfile import subprocess try: import urllib.request except ImportError: import urllib urllib.request = urllib import optparse import math import os import re ######################################################################## # constants ######################################################################## SECTOR_SIZE = 512 # bytes MAX_FILE_SIZE = 1 * (2**20) # maximum number of bytes we'll burn to a slot FPGA_OFFSET = 0 # offset in flash to fpga image FIRMWARE_OFFSET = 1 * (2**20) # offset in flash to firmware image MAX_SD_CARD_SIZE = 2048e6 # bytes (any bigger is sdhc) ######################################################################## # helper functions ######################################################################## def command(*args): p = subprocess.Popen( args, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, ) ret = p.wait() verbose = p.stdout.read().decode('utf-8') if ret != 0: raise Exception(verbose) return verbose def get_dd_path(): if platform.system() == 'Windows': dd_path = os.path.join(os.path.dirname(__file__), 'dd.exe') if os.path.exists(dd_path): return dd_path dd_path = os.path.join(tempfile.gettempdir(), 'dd.exe') if not os.path.exists(dd_path): print('Downloading dd.exe to %s'%dd_path) dd_bin = urllib.request.urlopen('http://files.ettus.com/dd.exe').read() open(dd_path, 'wb').write(dd_bin) return dd_path return 'dd' def int_ceil_div(num, den): return int(math.ceil(float(num)/float(den))) def get_tmp_file(): tmp = tempfile.mkstemp() os.close(tmp[0]) return tmp[1] ######################################################################## # list possible devices ######################################################################## def get_raw_device_hints(): #################################################################### # Platform Windows: parse the output of dd.exe --list #################################################################### if platform.system() == 'Windows': def extract_info_value(info, key): return info.split(key)[-1].split()[0] def get_info_list(output): in_info = False for line in output.splitlines(): if line.startswith('\\\\'): in_info = True; info = '' elif in_info and not line.strip(): in_info = False; yield info if in_info: info += '\n'+line.strip() def is_info_valid(info): try: if 'link to' not in info: return False #handles two spellings of remov(e)able: if 'remov' not in info.lower(): return False if 'size is' in info and int(extract_info_value(info, 'size is')) > MAX_SD_CARD_SIZE: return False except: return False return True def extract_info_name(info): for key in ('Mounted on', 'link to'): if key in info: return extract_info_value(info, key) return info.splitlines()[0].strip() return sorted(set(map(extract_info_name, list(filter(is_info_valid, get_info_list(command(get_dd_path(), '--list'))))))) #################################################################### # Platform Linux: parse procfs /proc/partitions #################################################################### if platform.system() == 'Linux': devs = list() for line in command('cat', '/proc/partitions').splitlines(): try: major, minor, blocks, name = line.split() if not name[-1].isdigit() and int(minor) == 0: continue if int(blocks)*1024 > MAX_SD_CARD_SIZE: continue except: continue devs.append(os.path.join('/dev', name)) return sorted(set(devs)) #################################################################### # Platform Mac OS X: parse diskutil list and info commands #################################################################### if platform.system() == 'Darwin': devs = [d.split()[0] for d in [l for l in command('diskutil', 'list').splitlines() if l.startswith('/dev')]] def output_to_info(output): return dict([list(map(lambda x: x.strip(), pair.lower().split(':'))) for pair in [l for l in output.splitlines() if ':' in l]]) def is_dev_valid(dev): info = output_to_info(command('diskutil', 'info', dev)) try: if 'internal' in info and info['internal'] == 'yes': return False if 'ejectable' in info and info['ejectable'] == 'no': return False if 'total size' in info: size_match = re.match('^.*\((\d+)\s*bytes\).*$', info['total size']) if size_match and int(size_match.groups()[0]) > MAX_SD_CARD_SIZE: return False except: return False return True return sorted(set(filter(is_dev_valid, devs))) #################################################################### # Platform Others: #################################################################### return () ######################################################################## # write and verify with dd ######################################################################## def verify_image(image_file, device_file, offset): #create a temporary file to store the readback image tmp_file = get_tmp_file() #read the image data img_data = open(image_file, 'rb').read() count = int_ceil_div(len(img_data), SECTOR_SIZE) #execute a dd subprocess verbose = command( get_dd_path(), "of=%s"%tmp_file, "if=%s"%device_file, "skip=%d"%(offset/SECTOR_SIZE), "bs=%d"%SECTOR_SIZE, "count=%d"%count, ) #verfy the data tmp_data = open(tmp_file, 'rb').read(len(img_data)) if img_data != tmp_data: return 'Verification Failed:\n%s'%verbose return 'Verification Passed:\n%s'%verbose def write_image(image_file, device_file, offset): #create a temporary file to store the padded image tmp_file = get_tmp_file() #write the padded image data img_data = open(image_file, 'rb').read() count = int_ceil_div(len(img_data), SECTOR_SIZE) pad_len = SECTOR_SIZE*count - len(img_data) padding = bytes(b'\x00')*pad_len #zero-padding open(tmp_file, 'wb').write(img_data + padding) #execute a dd subprocess verbose = command( get_dd_path(), "if=%s"%tmp_file, "of=%s"%device_file, "seek=%d"%(offset/SECTOR_SIZE), "bs=%d"%SECTOR_SIZE, "count=%d"%count, ) try: #exec the sync command (only works on linux) if platform.system() == 'Linux': command('sync') except: pass return verbose def write_and_verify(image_file, device_file, offset): if os.path.getsize(image_file) > MAX_FILE_SIZE: raise Exception('Image file larger than %d bytes!'%MAX_FILE_SIZE) return '%s\n%s'%( write_image( image_file=image_file, device_file=device_file, offset=offset, ), verify_image( image_file=image_file, device_file=device_file, offset=offset, ), ) def burn_sd_card(dev, fw, fpga): verbose = '' if fw: verbose += 'Burn firmware image:\n%s\n'%write_and_verify( image_file=fw, device_file=dev, offset=FIRMWARE_OFFSET ) if fpga: verbose += 'Burn fpga image:\n%s\n'%write_and_verify( image_file=fpga, device_file=dev, offset=FPGA_OFFSET ) return verbose ######################################################################## # command line options ######################################################################## def get_options(): parser = optparse.OptionParser() parser.add_option("--dev", type="string", help="raw device path", default='') parser.add_option("--fw", type="string", help="firmware image path (optional)", default='') parser.add_option("--fpga", type="string", help="fpga image path (optional)", default='') parser.add_option("--list", action="store_true", help="list possible raw devices", default=False) parser.add_option("--force", action="store_true", help="override safety check", default=False) (options, args) = parser.parse_args() return options ######################################################################## # main ######################################################################## if __name__=='__main__': options = get_options() device_hints = get_raw_device_hints() show_listing = options.list if not show_listing and not options.force and options.dev and options.dev not in device_hints: print('The device "%s" was not in the list of possible raw devices.'%options.dev) print('The card burner application will now exit without burning your card.') print('To override this safety check, specify the --force option.\n') show_listing = True if show_listing: print('Possible raw devices:') print(' ' + '\n '.join(device_hints)) exit() if not options.dev: raise Exception('no raw device path specified') print(burn_sd_card(dev=options.dev, fw=options.fw, fpga=options.fpga))