Esempio n. 1
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def do_sign(args):
    if args.rsa_pkcs1_15:
        keys.sign_rsa_pss = False

    version_num = next_version_number(args, version.decode_version("0"),
                                      "lastVerNum.txt")

    if args.security_counter is None:
        # Security counter has not been explicitly provided,
        # generate it from the version number
        args.security_counter = ((version_num.major << 24) +
                                 (version_num.minor << 16) +
                                 version_num.revision)

    pad_size = macro_parser.evaluate_macro(args.layout, sign_bin_size_re, 0, 1)
    img = image.Image.load(args.infile,
                           version=version_num,
                           header_size=args.header_size,
                           security_cnt=args.security_counter,
                           included_header=args.included_header,
                           pad=pad_size)
    key = keys.load(args.key, args.public_key_format) if args.key else None
    ram_load_address = macro_parser.evaluate_macro(args.layout,
                                                   image_load_address_re, 0, 1)
    img.sign(key, ram_load_address, args.dependencies)

    if pad_size:
        img.pad_to(pad_size, args.align)

    img.save(args.outfile)
Esempio n. 2
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    def find_slots(self):
        offsets = {}
        sizes = {}

        offsets = macro_parser.evaluate_macro(self.layout_path, offset_re, 1,
                                              2)
        sizes = macro_parser.evaluate_macro(self.layout_path, size_re, 1, 2)

        if 'SECURE' not in offsets:
            raise Exception("Image config does not have secure partition")

        if 'NON_SECURE' not in offsets:
            raise Exception("Image config does not have non-secure partition")

        self.offsets = offsets
        self.sizes = sizes
Esempio n. 3
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def wrap(key, align, version, header_size, pad_header, layout, pad, confirm,
         max_sectors, overwrite_only, endian, encrypt, infile, outfile,
         dependencies, hex_addr, erased_val, save_enctlv, public_key_format,
         security_counter):

    slot_size = macro_parser.evaluate_macro(layout, sign_bin_size_re, 0, 1)
    load_addr = macro_parser.evaluate_macro(layout, load_addr_re, 0, 1)
    rom_fixed = macro_parser.evaluate_macro(layout, rom_fixed_re, 0, 1)
    if "_s" in layout:
        boot_record = "SPE"
    elif "_ns" in layout:
        boot_record = "NSPE"
    else:
        boot_record = "NSPE_SPE"

    img = imgtool.image.Image(version=imgtool.version.decode_version(version),
                              header_size=header_size,
                              pad_header=pad_header,
                              pad=pad,
                              confirm=confirm,
                              align=int(align),
                              slot_size=slot_size,
                              max_sectors=max_sectors,
                              overwrite_only=overwrite_only,
                              endian=endian,
                              load_addr=load_addr,
                              rom_fixed=rom_fixed,
                              erased_val=erased_val,
                              save_enctlv=save_enctlv,
                              security_counter=security_counter)

    img.load(infile)
    key = imgtool.main.load_key(key) if key else None
    enckey = imgtool.main.load_key(encrypt) if encrypt else None
    if enckey and key:
        if (isinstance(key, imgtool.keys.RSA)
                and not isinstance(enckey, imgtool.keys.RSAPublic)):
            # FIXME
            raise click.UsageError("Signing and encryption must use the same "
                                   "type of key")

    img.create(key, public_key_format, enckey, dependencies, boot_record)
    img.save(outfile, hex_addr)
Esempio n. 4
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def do_flash(args):
    image_value_re = re.compile(r"^\s*" + args.macro + "\s*=\s*(.*)")
    value = macro_parser.evaluate_macro(args.layout, image_value_re, 0, 1,
                                        True)
    if args.setting == 1:
        begin_line = "set " + args.begin
    else:
        begin_line = args.begin

    for line in fileinput.input(args.infile, inplace=True):
        if line.startswith(begin_line):
            if args.division:
                value = int(value / int(args.division))
            if args.phexa == 0:
                line = begin_line + "=" + str(value) + "\n"
            else:
                line = begin_line + "=" + hex(value) + "\n"
        sys.stdout.write(line)
Esempio n. 5
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def flash(infile, layout, macro, begin, setting, division, phexa):

    image_value_re = re.compile(r"^\s*" + macro + "\s*=\s*(.*)")
    try:
        value = macro_parser.evaluate_macro(layout, image_value_re, 0, 1)
    except:
        pass
    if value is not None:
        if setting == 1:
            begin_line = "set " + begin
        else:
            begin_line = begin

        for line in fileinput.input(infile, inplace=True):
            if line.startswith(begin_line):
                if division:
                    value = int(value / int(division))
                if phexa == 0:
                    line = begin_line + "=" + str(value) + "\n"
                else:
                    line = begin_line + "=" + hex(value) + "\n"
            sys.stdout.write(line)