Пример #1
0
def parse_parts(arg, spendables, payables, network):
    parts = arg.split("/")
    if 4 <= len(parts) <= 7:
        # spendable
        try:
            spendables.append(Spendable.from_text(arg))
            return True
        except Exception:
            pass

    if len(parts) == 2 and is_address_valid(parts[0], allowable_netcodes=[network]):
        try:
            payables.append(parts)
            return True
        except ValueError:
            pass
Пример #2
0
def parse_parts(arg, spendables, payables, network):
    parts = arg.split("/")
    if 4 <= len(parts) <= 7:
        # spendable
        try:
            spendables.append(Spendable.from_text(arg))
            return True
        except Exception:
            pass

    if len(parts) == 2 and is_address_valid(parts[0], allowable_netcodes=[network]):
        try:
            payables.append(parts)
            return True
        except ValueError:
            pass
Пример #3
0
def parse_context(args, parser):
    # defaults

    txs = []
    spendables = []
    payables = []

    key_iters = []

    TX_ID_RE = re.compile(r"^[0-9a-fA-F]{64}$")

    # there are a few warnings we might optionally print out, but only if
    # they are relevant. We don't want to print them out multiple times, so we
    # collect them here and print them at the end if they ever kick in.

    warning_tx_cache = None
    warning_tx_for_tx_hash = None
    warning_spendables = None

    if args.private_key_file:
        wif_re = re.compile(r"[1-9a-km-zA-LMNP-Z]{51,111}")
        # address_re = re.compile(r"[1-9a-kmnp-zA-KMNP-Z]{27-31}")
        for f in args.private_key_file:
            if f.name.endswith(".gpg"):
                gpg_args = ["gpg", "-d"]
                if args.gpg_argument:
                    gpg_args.extend(args.gpg_argument.split())
                gpg_args.append(f.name)
                popen = subprocess.Popen(gpg_args, stdout=subprocess.PIPE)
                f = popen.stdout
            for line in f.readlines():
                # decode
                if isinstance(line, bytes):
                    line = line.decode("utf8")
                # look for WIFs
                possible_keys = wif_re.findall(line)

                def make_key(x):
                    try:
                        return Key.from_text(x)
                    except Exception:
                        return None

                keys = [make_key(x) for x in possible_keys]
                for key in keys:
                    if key:
                        key_iters.append((k.wif() for k in key.subkeys("")))

                # if len(keys) == 1 and key.hierarchical_wallet() is None:
                #    # we have exactly 1 WIF. Let's look for an address
                #   potential_addresses = address_re.findall(line)

    # update p2sh_lookup
    p2sh_lookup = {}
    if args.pay_to_script:
        for p2s in args.pay_to_script:
            try:
                script = h2b(p2s)
                p2sh_lookup[hash160(script)] = script
            except Exception:
                print("warning: error parsing pay-to-script value %s" % p2s)

    if args.pay_to_script_file:
        hex_re = re.compile(r"[0-9a-fA-F]+")
        for f in args.pay_to_script_file:
            count = 0
            for l in f:
                try:
                    m = hex_re.search(l)
                    if m:
                        p2s = m.group(0)
                        script = h2b(p2s)
                        p2sh_lookup[hash160(script)] = script
                        count += 1
                except Exception:
                    print("warning: error parsing pay-to-script file %s" %
                          f.name)
            if count == 0:
                print("warning: no scripts found in %s" % f.name)

    # we create the tx_db lazily
    tx_db = None

    if args.db:
        the_ram_tx_db = dict((tx.hash(), tx) for tx in args.db)
        if tx_db is None:
            tx_db = get_tx_db(args.network)
        tx_db.lookup_methods.append(the_ram_tx_db.get)

    for arg in args.argument:

        # hex transaction id
        if TX_ID_RE.match(arg):
            if tx_db is None:
                warning_tx_cache = message_about_tx_cache_env()
                warning_tx_for_tx_hash = message_about_tx_for_tx_hash_env(
                    args.network)
                tx_db = get_tx_db(args.network)
            tx = tx_db.get(h2b_rev(arg))
            if not tx:
                for m in [
                        warning_tx_cache, warning_tx_for_tx_hash,
                        warning_spendables
                ]:
                    if m:
                        print("warning: %s" % m, file=sys.stderr)
                parser.error("can't find Tx with id %s" % arg)
            txs.append(tx)
            continue

        # hex transaction data
        try:
            tx = Tx.from_hex(arg)
            txs.append(tx)
            continue
        except Exception:
            pass

        is_valid = is_address_valid(arg, allowable_netcodes=[args.network])
        if is_valid:
            payables.append((arg, 0))
            continue

        try:
            key = Key.from_text(arg)
            # TODO: check network
            if key.wif() is None:
                payables.append((key.address(), 0))
                continue
            # TODO: support paths to subkeys
            key_iters.append((k.wif() for k in key.subkeys("")))
            continue
        except Exception:
            pass

        if os.path.exists(arg):
            try:
                with open(arg, "rb") as f:
                    if f.name.endswith("hex"):
                        f = io.BytesIO(codecs.getreader("hex_codec")(f).read())
                    tx = Tx.parse(f)
                    txs.append(tx)
                    try:
                        tx.parse_unspents(f)
                    except Exception as ex:
                        pass
                    continue
            except Exception:
                pass

        parts = arg.split("/")
        if len(parts) == 4:
            # spendable
            try:
                spendables.append(Spendable.from_text(arg))
                continue
            except Exception:
                pass

        if len(parts) == 2 and is_address_valid(
                parts[0], allowable_netcodes=[args.network]):
            try:
                payables.append(parts)
                continue
            except ValueError:
                pass

        parser.error("can't parse %s" % arg)

    if args.fetch_spendables:
        warning_spendables = message_about_spendables_for_address_env(
            args.network)
        for address in args.fetch_spendables:
            spendables.extend(spendables_for_address(address))

    for tx in txs:
        if tx.missing_unspents() and (args.augment or tx_db):
            if tx_db is None:
                warning_tx_cache = message_about_tx_cache_env()
                warning_tx_for_tx_hash = message_about_tx_for_tx_hash_env(
                    args.network)
                tx_db = get_tx_db(args.network)
            tx.unspents_from_db(tx_db, ignore_missing=True)

    return (txs, spendables, payables, key_iters, p2sh_lookup, tx_db,
            warning_tx_cache, warning_tx_for_tx_hash, warning_spendables)