require 'bigdecimal' module OpenAssets module Util extend ::Bitcoin::Util include ::Bitcoin::Util # namespace of Open Asset OA_NAMESPACE = 19 # version byte for Open Assets Address OA_VERSION_BYTE = 23 OA_VERSION_BYTE_TESTNET = 115 # convert bitcoin address to open assets address # @param [String] btc_address The Bitcoin address. # @return [String] The Open Assets Address. def address_to_oa_address(btc_address) btc_hex = decode_base58(btc_address) btc_hex = '0' +btc_hex if btc_hex.size==47 address = btc_hex[0..-9] # bitcoin address without checksum named_addr = OA_NAMESPACE.to_s(16) + address oa_checksum = checksum(named_addr) encode_base58(named_addr + oa_checksum) end # convert open assets address to bitcoin address # @param [String] oa_address The Open Assets Address. # @return [String] The Bitcoin address. def oa_address_to_address(oa_address) decode_address = decode_base58(oa_address) btc_addr = decode_address[2..-9] btc_checksum = checksum(btc_addr) encode_base58(btc_addr + btc_checksum) end # generate asset ID from public key. def generate_asset_id(pub_key) pubkey_hash_to_asset_id(hash160(pub_key)) end def pubkey_hash_to_asset_id(pubkey_hash) # gen P2PKH script hash # P2PKH script = OP_DUP OP_HASH160 OP_EQUALVERIFY OP_CHECKSIG # (76=OP_DUP, a9=OP_HASH160, 14=Bytes to push, 88=OP_EQUALVERIFY, ac=OP_CHECKSIG) hash_to_asset_id(hash160(["76", "a9", "14", pubkey_hash, "88", "ac"].join)) end def script_to_asset_id(script) hash_to_asset_id(hash160(script)) end def hash_to_asset_id(hash) hash = oa_version_byte.to_s(16) + hash # add version byte to script hash encode_base58(hash + checksum(hash)) # add checksum & encode end # LEB128 encode def encode_leb128(value) LEB128.encode_unsigned(value).read.bth end # LEB128 decode def decode_leb128(value) results = [] sio = StringIO.new value.htb.each_byte{|b| sio.putc(b) if b < 128 results << LEB128.decode_unsigned(sio) sio = StringIO.new end } results end def to_bytes(string) string.each_char.each_slice(2).map{|v|v.join} end # Convert satoshi to coin. # @param [Integer] satoshi The amount of satoshi unit. # @return [String] The amount of coin. def satoshi_to_coin(satoshi) "%.8f" % (satoshi / 100000000.0) end # Convert coin unit to satoshi. # @param [String] coin The amount of bitcoin # @return [String] The amount of satoshi. def coin_to_satoshi(coin) BigDecimal(coin) * BigDecimal(100000000) end # Get address from script. # @param [Bitcoin::Script] script The output script. # @return [String] The Bitcoin address. if the script dose not contains address, return nil. def script_to_address(script) return script.get_pubkey_address if script.is_pubkey? return script.get_hash160_address if script.is_hash160? return script.get_multisig_addresses if script.is_multisig? return script.get_p2sh_address if script.is_p2sh? nil end # validate bitcoin address def validate_address(addresses) addresses.each{|a| raise ArgumentError, "#{a} is invalid bitcoin address. " unless valid_address?(a) } end # validate asset ID def valid_asset_id?(asset_id) return false if asset_id.nil? || asset_id.length != 34 decoded = decode_base58(asset_id) return false if decoded[0,2].to_i(16) != oa_version_byte p2pkh_script_hash = decoded[2..-9] address = hash160_to_address(p2pkh_script_hash) valid_address?(address) end # read variable integer # @param [String] data reading data # @param [Integer] offset the position when reading from data. # @return [[Integer, Integer]] decoded integer value and the reading byte length. # https://en.bitcoin.it/wiki/Protocol_documentation#Variable_length_integer def read_var_integer(data, offset = 0) raise ArgumentError, "data is nil." unless data packed = [data].pack('H*') return [nil, 0] if packed.bytesize < 1+offset bytes = packed.bytes[offset..(offset + 9)] # 9 is variable integer max storage length. first_byte = bytes[0] if first_byte < 0xfd [first_byte, offset + 1] elsif first_byte == 0xfd [calc_var_integer_val(bytes[1..2]), offset + 3] elsif first_byte == 0xfe [calc_var_integer_val(bytes[1..4]), offset + 5] elsif first_byte == 0xff [calc_var_integer_val(bytes[1..8]), offset + 9] end end # read leb128 value # @param [String] data reading data # @param [Integer] offset start position when reading from data. # @return [[Integer, Integer]] decoded integer value and the reading byte length. def read_leb128(data, offset = 0) bytes = [data].pack('H*').bytes result = 0 shift = 0 while true return [nil, offset] if bytes.length < 1 + offset byte = bytes[offset..(offset + 1)][0] result |= (byte & 0x7f) << shift break if byte & 0x80 == 0 shift += 7 offset += 1 end [result, offset + 1] end private def oa_version_byte Bitcoin.network[:address_version] == "6f" ? OA_VERSION_BYTE_TESTNET : OA_VERSION_BYTE end def calc_var_integer_val(byte_array) byte_array.each_with_index.inject(0){|sum, pair| pair[1] == 0 ? pair[0] : sum + pair[0]*(256**pair[1])} end end end