# encoding: ascii-8bit # Bitcoin Utils and Network Protocol in Ruby. require 'digest/sha2' require 'digest/rmd160' require 'openssl' require 'securerandom' module Bitcoin autoload :Connection, 'bitcoin/connection' autoload :Protocol, 'bitcoin/protocol' autoload :P, 'bitcoin/protocol' autoload :Script, 'bitcoin/script' autoload :VERSION, 'bitcoin/version' autoload :Logger, 'bitcoin/logger' autoload :Key, 'bitcoin/key' autoload :ExtKey, 'bitcoin/ext_key' autoload :Builder, 'bitcoin/builder' autoload :BloomFilter,'bitcoin/bloom_filter' autoload :Dogecoin, 'bitcoin/dogecoin' autoload :Litecoin, 'bitcoin/litecoin' autoload :ContractHash, 'bitcoin/contracthash' module Trezor autoload :Mnemonic, 'bitcoin/trezor/mnemonic' end module Util def address_version; Bitcoin.network[:address_version]; end def p2sh_version; Bitcoin.network[:p2sh_version]; end # hash160 is a 20 bytes (160bits) rmd610-sha256 hexdigest. def hash160(hex) bytes = [hex].pack("H*") Digest::RMD160.hexdigest Digest::SHA256.digest(bytes) end # checksum is a 4 bytes sha256-sha256 hexdigest. def checksum(hex) b = [hex].pack("H*") # unpack hex Digest::SHA256.hexdigest( Digest::SHA256.digest(b) )[0...8] end # verify base58 checksum for given +base58+ data. def base58_checksum?(base58) hex = decode_base58(base58) rescue nil return false unless hex checksum( hex[0...42] ) == hex[-8..-1] end alias :address_checksum? :base58_checksum? # check if given +address+ is valid. # this means having a correct version byte, length and checksum. def valid_address?(address) hex = decode_base58(address) rescue nil return false unless hex && hex.bytesize == 50 return false unless [address_version, p2sh_version].include?(hex[0...2]) address_checksum?(address) end # check if given +pubkey+ is valid. def valid_pubkey?(pubkey) ::OpenSSL::PKey::EC::Point.from_hex(bitcoin_elliptic_curve.group, pubkey) true rescue OpenSSL::PKey::EC::Point::Error false end # get hash160 for given +address+. returns nil if address is invalid. def hash160_from_address(address) return nil unless valid_address?(address) decode_base58(address)[2...42] end # get type of given +address+. def address_type(address) return nil unless valid_address?(address) case decode_base58(address)[0...2] when address_version; :hash160 when p2sh_version; :p2sh end end def sha256(hex) Digest::SHA256.hexdigest([hex].pack("H*")) end def hash160_to_address(hex) encode_address hex, address_version end def hash160_to_p2sh_address(hex) encode_address hex, p2sh_version end def encode_address(hex, version) hex = version + hex encode_base58(hex + checksum(hex)) end def pubkey_to_address(pubkey) hash160_to_address( hash160(pubkey) ) end def pubkeys_to_p2sh_multisig_address(m, *pubkeys) redeem_script = Bitcoin::Script.to_p2sh_multisig_script(m, *pubkeys).last return Bitcoin.hash160_to_p2sh_address(Bitcoin.hash160(redeem_script.hth)), redeem_script end def int_to_base58(int_val, leading_zero_bytes=0) alpha = "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz" base58_val, base = '', alpha.size while int_val > 0 int_val, remainder = int_val.divmod(base) base58_val = alpha[remainder] + base58_val end base58_val end def base58_to_int(base58_val) alpha = "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz" int_val, base = 0, alpha.size base58_val.reverse.each_char.with_index do |char,index| raise ArgumentError, 'Value not a valid Base58 String.' unless char_index = alpha.index(char) int_val += char_index*(base**index) end int_val end def encode_base58(hex) leading_zero_bytes = (hex.match(/^([0]+)/) ? $1 : '').size / 2 ("1"*leading_zero_bytes) + int_to_base58( hex.to_i(16) ) end def decode_base58(base58_val) s = base58_to_int(base58_val).to_s(16); s = (s.bytesize.odd? ? '0'+s : s) s = '' if s == '00' leading_zero_bytes = (base58_val.match(/^([1]+)/) ? $1 : '').size s = ("00"*leading_zero_bytes) + s if leading_zero_bytes > 0 s end alias_method :base58_to_hex, :decode_base58 # target compact bits (int) to bignum hex def decode_compact_bits(bits) if Bitcoin.network_project == :dogecoin bytes = Array.new(size=((bits >> 24) & 255), 0) bytes[0] = (bits >> 16) & 0x7f if size >= 1 bytes[1] = (bits >> 8) & 255 if size >= 2 bytes[2] = (bits ) & 255 if size >= 3 target = bytes.pack("C*").unpack("H*")[0].rjust(64, '0') # Bit number 24 represents the sign if (bits & 0x00800000) != 0 "-" + target else target end else bytes = Array.new(size=((bits >> 24) & 255), 0) bytes[0] = (bits >> 16) & 255 if size >= 1 bytes[1] = (bits >> 8) & 255 if size >= 2 bytes[2] = (bits ) & 255 if size >= 3 bytes.pack("C*").unpack("H*")[0].rjust(64, '0') end end # target bignum hex to compact bits (int) def encode_compact_bits(target) bytes = OpenSSL::BN.new(target, 16).to_mpi size = bytes.size - 4 nbits = size << 24 nbits |= (bytes[4] << 16) if size >= 1 nbits |= (bytes[5] << 8) if size >= 2 nbits |= (bytes[6] ) if size >= 3 nbits end def decode_target(target_bits) case target_bits when Fixnum [ decode_compact_bits(target_bits).to_i(16), target_bits ] when String [ target_bits.to_i(16), encode_compact_bits(target_bits) ] end end def bitcoin_elliptic_curve ::OpenSSL::PKey::EC.new("secp256k1") end def generate_key key = bitcoin_elliptic_curve.generate_key inspect_key( key ) end def inspect_key(key) [ key.private_key_hex, key.public_key_hex ] end def generate_address prvkey, pubkey = generate_key [ pubkey_to_address(pubkey), prvkey, pubkey, hash160(pubkey) ] end def bitcoin_hash(hex) Digest::SHA256.digest( Digest::SHA256.digest( [hex].pack("H*").reverse ) ).reverse.bth end def bitcoin_byte_hash(bytes) Digest::SHA256.digest(Digest::SHA256.digest(bytes)) end def bitcoin_mrkl(a, b); bitcoin_hash(b + a); end def block_hash(prev_block, mrkl_root, time, bits, nonce, ver) h = "%08x%08x%08x%064s%064s%08x" % [nonce, bits, time, mrkl_root, prev_block, ver] bitcoin_hash(h) end def litecoin_hash(hex) bytes = [hex].pack("H*").reverse begin require "scrypt" unless defined?(::SCrypt) hash = SCrypt::Engine.__sc_crypt(bytes, bytes, 1024, 1, 1, 32) rescue LoadError hash = Litecoin::Scrypt.scrypt_1024_1_1_256_sp(bytes) end hash.reverse.unpack("H*")[0] end def block_scrypt_hash(prev_block, mrkl_root, time, bits, nonce, ver) h = "%08x%08x%08x%064s%064s%08x" % [nonce, bits, time, mrkl_root, prev_block, ver] litecoin_hash(h) end # get merkle tree for given +tx+ list. def hash_mrkl_tree(tx) return [nil] if tx != tx.uniq chunks = [ tx.dup ] while chunks.last.size >= 2 chunks << chunks.last.each_slice(2).map {|a, b| bitcoin_mrkl( a, b || a ) } end chunks.flatten end # get merkle branch connecting given +target+ to the merkle root of +tx+ list def hash_mrkl_branch(tx, target) return [ nil ] if tx != tx.uniq branch, chunks = [], [ tx.dup ] while chunks.last.size >= 2 chunks << chunks.last.each_slice(2).map {|a, b| hash = bitcoin_mrkl( a, b || a ) next hash unless [a, b].include?(target) branch << (a == target ? (b || a) : a) target = hash } end branch end # get merkle root from +branch+ and +target+. def mrkl_branch_root(branch, target, idx) branch.each do |hash| a, b = *( idx & 1 == 0 ? [target, hash] : [hash, target] ) idx >>= 1; target = bitcoin_mrkl( a, b ) end target end def sign_data(key, data) sig = nil loop { sig = key.dsa_sign_asn1(data) sig = if Script.is_low_der_signature?(sig) sig else Bitcoin::OpenSSL_EC.signature_to_low_s(sig) end buf = sig + [Script::SIGHASH_TYPE[:all]].pack("C") # is_der_signature expects sig + sighash_type format if Script.is_der_signature?(buf) break else p ["Bitcoin#sign_data: invalid der signature generated, trying again.", data.unpack("H*")[0], sig.unpack("H*")[0]] end } return sig end def verify_signature(hash, signature, public_key) key = bitcoin_elliptic_curve key.public_key = ::OpenSSL::PKey::EC::Point.from_hex(key.group, public_key) signature = Bitcoin::OpenSSL_EC.repack_der_signature(signature) if signature key.dsa_verify_asn1(hash, signature) else false end rescue OpenSSL::PKey::ECError, OpenSSL::PKey::EC::Point::Error, OpenSSL::BNError false end def open_key(private_key, public_key=nil) key = bitcoin_elliptic_curve key.private_key = ::OpenSSL::BN.from_hex(private_key) public_key = regenerate_public_key(private_key) unless public_key key.public_key = ::OpenSSL::PKey::EC::Point.from_hex(key.group, public_key) key end def regenerate_public_key(private_key) OpenSSL_EC.regenerate_key(private_key)[1] end def bitcoin_signed_message_hash(message) message = message.dup.force_encoding('binary') magic = Bitcoin.network[:message_magic] buf = Protocol.pack_var_int(magic.bytesize) + magic buf << Protocol.pack_var_int(message.bytesize) + message Digest::SHA256.digest(Digest::SHA256.digest(buf)) end def sign_message(private_key_hex, public_key_hex, message) hash = bitcoin_signed_message_hash(message) signature = OpenSSL_EC.sign_compact(hash, private_key_hex, public_key_hex) { 'address' => pubkey_to_address(public_key_hex), 'message' => message, 'signature' => [ signature ].pack("m0") } end def verify_message(address, signature, message) signature = signature.unpack("m0")[0] rescue nil # decode base64 return false unless valid_address?(address) return false unless signature return false unless signature.bytesize == 65 hash = bitcoin_signed_message_hash(message) pubkey = OpenSSL_EC.recover_compact(hash, signature) pubkey_to_address(pubkey) == address if pubkey end # block count when the next retarget will take place. def block_next_retarget(block_height) (block_height + (RETARGET_INTERVAL-block_height.divmod(RETARGET_INTERVAL).last)) - 1 end # current difficulty as a multiple of the minimum difficulty (highest target). def block_difficulty(target_nbits) # max_target = 0x00000000ffff0000000000000000000000000000000000000000000000000000 # current_target = Bitcoin.decode_compact_bits(target_nbits).to_i(16) # "%.7f" % (max_target / current_target.to_f) bits, max_body, scaland = target_nbits, Math.log(0x00ffff), Math.log(256) "%.7f" % Math.exp(max_body - Math.log(bits&0x00ffffff) + scaland * (0x1d - ((bits&0xff000000)>>24))) end # Calculate new difficulty target. Note this takes in details of the preceeding # block, not the current one. # # prev_height is the height of the block before the retarget occurs # prev_block_time "time" field from the block before the retarget occurs # prev_block_bits "bits" field from the block before the retarget occurs (target as a compact value) # last_retarget_time is the "time" field from the block when a retarget last occurred def block_new_target(prev_height, prev_block_time, prev_block_bits, last_retarget_time) # target interval - what is the ideal interval between the blocks retarget_time = Bitcoin.network[:retarget_time] actual_time = prev_block_time - last_retarget_time min = retarget_time / 4 max = retarget_time * 4 actual_time = min if actual_time < min actual_time = max if actual_time > max # It could be a bit confusing: we are adjusting difficulty of the previous block, while logically # we should use difficulty of the previous retarget block prev_target = decode_compact_bits(prev_block_bits).to_i(16) new_target = prev_target * actual_time / retarget_time if new_target < Bitcoin.decode_compact_bits(Bitcoin.network[:proof_of_work_limit]).to_i(16) encode_compact_bits(new_target.to_s(16)) else Bitcoin.network[:proof_of_work_limit] end end # average number of hashes required to win a block with the current target. (nbits) def block_hashes_to_win(target_nbits) current_target = decode_compact_bits(target_nbits).to_i(16) 0xffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff / current_target end # probability of a single hash solving a block with the current difficulty. def block_probability(target_nbits) current_target = decode_compact_bits(target_nbits).to_i(16) "%.55f" % (current_target.to_f / 0xffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff) end # average time to find a block in seconds with the current target. (nbits) def block_average_hashing_time(target_nbits, hashes_per_second) block_hashes_to_win(target_nbits) / hashes_per_second end # average mining time (in days) using Mh/s to get btc def block_average_mining_time(block_nbits, block_height, mega_hashes_per_second, target_btc=1.0) seconds = block_average_hashing_time(block_nbits, mega_hashes_per_second * 1_000_000) reward = block_creation_reward(block_height) / COIN # satoshis to btc (days = seconds / 60 / 60 / 24) * (target_btc / reward) end # shows the total number of Bitcoins in circulation, reward era and reward in that era. def blockchain_total_btc(height) reward, interval = Bitcoin.network[:reward_base], Bitcoin.network[:reward_halving] total_btc = reward reward_era, remainder = (height).divmod(interval) reward_era.times{ total_btc += interval * reward reward = reward / 2 } total_btc += remainder * reward [total_btc, reward_era+1, reward, height] end def block_creation_reward(block_height) Bitcoin.network[:reward_base] / (2 ** (block_height / Bitcoin.network[:reward_halving].to_f).floor) end end extend Util module BinaryExtensions # bin-to-hex def bth; unpack("H*")[0]; end # hex-to-bin def htb; [self].pack("H*"); end def htb_reverse; htb.reverse; end def hth; unpack("H*")[0]; end def reverse_hth; reverse.hth; end end class ::String include Bitcoin::BinaryExtensions end module ::OpenSSL class BN def self.from_hex(hex); new(hex, 16); end def to_hex; to_i.to_s(16); end def to_mpi; to_s(0).unpack("C*"); end end class PKey::EC def private_key_hex; private_key.to_hex.rjust(64, '0'); end def public_key_hex; public_key.to_hex.rjust(130, '0'); end def pubkey_compressed?; public_key.group.point_conversion_form == :compressed; end end class PKey::EC::Point def self.from_hex(group, hex) new(group, BN.from_hex(hex)) end def to_hex; to_bn.to_hex; end def self.bn2mpi(hex) BN.from_hex(hex).to_mpi; end def ec_add(point); self.class.new(group, OpenSSL::BN.from_hex(OpenSSL_EC.ec_add(self, point))); end end end autoload :OpenSSL_EC, "bitcoin/ffi/openssl" autoload :Secp256k1, "bitcoin/ffi/secp256k1" autoload :BitcoinConsensus, "bitcoin/ffi/bitcoinconsensus" @network = :bitcoin def self.network # Store the copy of network options so we can modify them in tests without breaking the defaults @network_options ||= NETWORKS[@network].dup end def self.network_name @network end def self.network_project @network_project end def self.network=(name) raise "Network descriptor '#{name}' not found." unless NETWORKS[name.to_sym] @network_options = nil # clear cached parameters @network = name.to_sym @network_project = network[:project] rescue nil Dogecoin.load if dogecoin? || dogecoin_testnet? Namecoin.load if namecoin? && defined?(Namecoin) @network end [:bitcoin, :namecoin, :litecoin, :dogecoin, :dogecoin_testnet].each do |n| instance_eval "def #{n}?; network_project == :#{n}; end" end # maximum size of a block (in bytes) MAX_BLOCK_SIZE = 1_000_000 # soft limit for new blocks MAX_BLOCK_SIZE_GEN = MAX_BLOCK_SIZE/2 # maximum number of signature operations in a block MAX_BLOCK_SIGOPS = MAX_BLOCK_SIZE / 50 # maximum number of orphan transactions to be kept in memory MAX_ORPHAN_TRANSACTIONS = MAX_BLOCK_SIZE/100 # Threshold for lock_time: below this value it is interpreted as block number, otherwise as UNIX timestamp. LOCKTIME_THRESHOLD = 500000000 # Tue Nov 5 00:53:20 1985 UTC # maximum integer value UINT32_MAX = 0xffffffff INT_MAX = 0xffffffff # deprecated name, left here for compatibility with existing users. # number of confirmations required before coinbase tx can be spent COINBASE_MATURITY = 100 # interval (in blocks) for difficulty retarget RETARGET_INTERVAL = 2016 RETARGET = 2016 # deprecated constant # interval (in blocks) for mining reward reduction REWARD_DROP = 210_000 CENT = 1_000_000 COIN = 100_000_000 MIN_FEE_MODE = [ :block, :relay, :send ] NETWORKS = { bitcoin: { project: :bitcoin, magic_head: "\xF9\xBE\xB4\xD9", message_magic: "Bitcoin Signed Message:\n", address_version: "00", p2sh_version: "05", privkey_version: "80", extended_privkey_version: "0488ade4", extended_pubkey_version: "0488b21e", default_port: 8333, protocol_version: 70001, coinbase_maturity: 100, reward_base: 50 * COIN, reward_halving: 210_000, retarget_interval: 2016, retarget_time: 1209600, # 2 weeks target_spacing: 600, # block interval max_money: 21_000_000 * COIN, min_tx_fee: 10_000, min_relay_tx_fee: 10_000, free_tx_bytes: 1_000, dust: CENT, per_dust_fee: false, bip34_height: 227931, dns_seeds: [ "seed.bitcoin.sipa.be", "dnsseed.bluematt.me", "dnsseed.bitcoin.dashjr.org", "bitseed.xf2.org", "dnsseed.webbtc.com", ], genesis_hash: "000000000019d6689c085ae165831e934ff763ae46a2a6c172b3f1b60a8ce26f", proof_of_work_limit: 0x1d00ffff, alert_pubkeys: ["04fc9702847840aaf195de8442ebecedf5b095cdbb9bc716bda9110971b28a49e0ead8564ff0db22209e0374782c093bb899692d524e9d6a6956e7c5ecbcd68284"], known_nodes: [ 'relay.eligius.st', 'mining.bitcoin.cz', 'blockchain.info', 'blockexplorer.com', 'webbtc.com', ], checkpoints: { 11111 => "0000000069e244f73d78e8fd29ba2fd2ed618bd6fa2ee92559f542fdb26e7c1d", 33333 => "000000002dd5588a74784eaa7ab0507a18ad16a236e7b1ce69f00d7ddfb5d0a6", 74000 => "0000000000573993a3c9e41ce34471c079dcf5f52a0e824a81e7f953b8661a20", 105000 => "00000000000291ce28027faea320c8d2b054b2e0fe44a773f3eefb151d6bdc97", 134444 => "00000000000005b12ffd4cd315cd34ffd4a594f430ac814c91184a0d42d2b0fe", 168000 => "000000000000099e61ea72015e79632f216fe6cb33d7899acb35b75c8303b763", 193000 => "000000000000059f452a5f7340de6682a977387c17010ff6e6c3bd83ca8b1317", 210000 => "000000000000048b95347e83192f69cf0366076336c639f9b7228e9ba171342e", 216116 => "00000000000001b4f4b433e81ee46494af945cf96014816a4e2370f11b23df4e", 225430 => "00000000000001c108384350f74090433e7fcf79a606b8e797f065b130575932", 290000 => "0000000000000000fa0b2badd05db0178623ebf8dd081fe7eb874c26e27d0b3b", 300000 => "000000000000000082ccf8f1557c5d40b21edabb18d2d691cfbf87118bac7254", 305000 => "0000000000000000142bb90561e1a907d500bf534a6727a63a92af5b6abc6160", } } } NETWORKS[:testnet] = NETWORKS[:bitcoin].merge({ magic_head: "\xFA\xBF\xB5\xDA", address_version: "6f", p2sh_version: "c4", privkey_version: "ef", extended_privkey_version: "04358394", extended_pubkey_version: "043587cf", default_port: 18333, bip34_height: 21111, dns_seeds: [ ], genesis_hash: "00000007199508e34a9ff81e6ec0c477a4cccff2a4767a8eee39c11db367b008", proof_of_work_limit: 0x1d07fff8, alert_pubkeys: ["04302390343f91cc401d56d68b123028bf52e5fca1939df127f63c6467cdf9c8e2c14b61104cf817d0b780da337893ecc4aaff1309e536162dabbdb45200ca2b0a"], known_nodes: [], checkpoints: {}, }) NETWORKS[:regtest] = NETWORKS[:testnet].merge({ default_port: 18444, genesis_hash: "0f9188f13cb7b2c71f2a335e3a4fc328bf5beb436012afca590b1a11466e2206", proof_of_work_limit: 0x207fffff, bip34_height: 0, }) NETWORKS[:testnet3] = NETWORKS[:testnet].merge({ magic_head: "\x0B\x11\x09\x07", no_difficulty: true, # no good. add right testnet3 difficulty calculation instead genesis_hash: "000000000933ea01ad0ee984209779baaec3ced90fa3f408719526f8d77f4943", proof_of_work_limit: 0x1d00ffff, dns_seeds: [ "testnet-seed.alexykot.me", "testnet-seed.bitcoin.schildbach.de", "testnet-seed.bitcoin.petertodd.org", "testnet-seed.bluematt.me", "dnsseed.test.webbtc.com", ], known_nodes: ["test.webbtc.com"], checkpoints: { # 542 contains invalid transaction 542 => "0000000083c1f82cf72c6724f7a317325806384b06408bce7a4327f418dfd5ad", 71018 => "000000000010dd93dc55541116b2744eb8f4c3b706df6e8512d231a03fb9e435", 200000 => "0000000000287bffd321963ef05feab753ebe274e1d78b2fd4e2bfe9ad3aa6f2", 250000 => "0000000005910c146e4e8d71e8aa6617393738a9794b43cf113076dbaf08460b", } }) NETWORKS[:litecoin] = NETWORKS[:bitcoin].merge({ project: :litecoin, magic_head: "\xfb\xc0\xb6\xdb", message_magic: "Litecoin Signed Message:\n", address_version: "30", p2sh_version: "05", privkey_version: "b0", extended_privkey_version: "019d9cfe", extended_pubkey_version: "019da462", default_port: 9333, protocol_version: 70002, max_money: 84_000_000 * COIN, min_tx_fee: 100_000, # 0.001 LTC min_relay_tx_fee: 100_000, # 0.001 LTC free_tx_bytes: 5_000, dust: CENT / 10, per_dust_fee: true, reward_halving: 840_000, retarget_time: 302400, # 3.5 days dns_seeds: [ "dnsseed.litecointools.com", "dnsseed.litecoinpool.org", "dnsseed.ltc.xurious.com", "dnsseed.koin-project.com", "dnsseed.weminemnc.com", ], genesis_hash: "12a765e31ffd4059bada1e25190f6e98c99d9714d334efa41a195a7e7e04bfe2", proof_of_work_limit: 0x1e0fffff, alert_pubkeys: ["040184710fa689ad5023690c80f3a49c8f13f8d45b8c857fbcbc8bc4a8e4d3eb4b10f4d4604fa08dce601aaf0f470216fe1b51850b4acf21b179c45070ac7b03a9"], known_nodes: [], checkpoints: { 1 => "80ca095ed10b02e53d769eb6eaf92cd04e9e0759e5be4a8477b42911ba49c78f", 2 => "13957807cdd1d02f993909fa59510e318763f99a506c4c426e3b254af09f40d7", 1500 => "841a2965955dd288cfa707a755d05a54e45f8bd476835ec9af4402a2b59a2967", 4032 => "9ce90e427198fc0ef05e5905ce3503725b80e26afd35a987965fd7e3d9cf0846", 8064 => "eb984353fc5190f210651f150c40b8a4bab9eeeff0b729fcb3987da694430d70", 16128 => "602edf1859b7f9a6af809f1d9b0e6cb66fdc1d4d9dcd7a4bec03e12a1ccd153d", 23420 => "d80fdf9ca81afd0bd2b2a90ac3a9fe547da58f2530ec874e978fce0b5101b507", 50000 => "69dc37eb029b68f075a5012dcc0419c127672adb4f3a32882b2b3e71d07a20a6", 80000 => "4fcb7c02f676a300503f49c764a89955a8f920b46a8cbecb4867182ecdb2e90a", 120000 => "bd9d26924f05f6daa7f0155f32828ec89e8e29cee9e7121b026a7a3552ac6131", 161500 => "dbe89880474f4bb4f75c227c77ba1cdc024991123b28b8418dbbf7798471ff43", 179620 => "2ad9c65c990ac00426d18e446e0fd7be2ffa69e9a7dcb28358a50b2b78b9f709", 240000 => "7140d1c4b4c2157ca217ee7636f24c9c73db39c4590c4e6eab2e3ea1555088aa", 383640 => "2b6809f094a9215bafc65eb3f110a35127a34be94b7d0590a096c3f126c6f364", 409004 => "487518d663d9f1fa08611d9395ad74d982b667fbdc0e77e9cf39b4f1355908a3", 456000 => "bf34f71cc6366cd487930d06be22f897e34ca6a40501ac7d401be32456372004", 541794 => "1cbccbe6920e7c258bbce1f26211084efb19764aa3224bec3f4320d77d6a2fd2", }, auxpow_chain_id: 1, }) NETWORKS[:litecoin_testnet] = NETWORKS[:litecoin].merge({ magic_head: "\xfc\xc1\xb7\xdc", address_version: "6f", p2sh_version: "c4", privkey_version: "ef", extended_privkey_version: "0436ef7d", extended_pubkey_version: "0436f6e1", default_port: 19333, dns_seeds: [ "testnet-seed.litecointools.com", "testnet-seed.ltc.xurious.com", "testnet-seed.weminemnc.com", ], genesis_hash: "f5ae71e26c74beacc88382716aced69cddf3dffff24f384e1808905e0188f68f", alert_pubkeys: ["04302390343f91cc401d56d68b123028bf52e5fca1939df127f63c6467cdf9c8e2c14b61104cf817d0b780da337893ecc4aaff1309e536162dabbdb45200ca2b0a"], known_nodes: [], checkpoints: { 546 => "a0fea99a6897f531600c8ae53367b126824fd6a847b2b2b73817a95b8e27e602", } }) NETWORKS[:dogecoin] = NETWORKS[:litecoin].merge({ project: :dogecoin, magic_head: "\xc0\xc0\xc0\xc0", message_magic: "Dogecoin Signed Message:\n", address_version: "1e", p2sh_version: "16", privkey_version: "9e", extended_privkey_version: "02fac398", extended_pubkey_version: "02facafd", default_port: 22556, protocol_version: 70003, max_money: 100_000_000_000 * COIN, min_tx_fee: COIN, min_relay_tx_fee: COIN, free_tx_bytes: 26_000, dust: COIN, per_dust_fee: true, coinbase_maturity: 30, coinbase_maturity_new: 240, reward_base: 500_000 * COIN, reward_halving: 100_000, retarget_interval: 240, retarget_time: 14400, # 4 hours retarget_time_new: 60, # 1 minute target_spacing: 60, # block interval dns_seeds: [ "seed.dogechain.info", "seed.dogecoin.com", ], genesis_hash: "1a91e3dace36e2be3bf030a65679fe821aa1d6ef92e7c9902eb318182c355691", proof_of_work_limit: 0x1e0fffff, alert_pubkeys: [], known_nodes: [ "daemons.chain.so", "bootstrap.chain.so", ], checkpoints: { 0 => "1a91e3dace36e2be3bf030a65679fe821aa1d6ef92e7c9902eb318182c355691", 42279 => "8444c3ef39a46222e87584ef956ad2c9ef401578bd8b51e8e4b9a86ec3134d3a", 42400 => "557bb7c17ed9e6d4a6f9361cfddf7c1fc0bdc394af7019167442b41f507252b4", 104679 => "35eb87ae90d44b98898fec8c39577b76cb1eb08e1261cfc10706c8ce9a1d01cf", 128370 => "3f9265c94cab7dc3bd6a2ad2fb26c8845cb41cff437e0a75ae006997b4974be6", 145000 => "cc47cae70d7c5c92828d3214a266331dde59087d4a39071fa76ddfff9b7bde72", 165393 => "7154efb4009e18c1c6a6a79fc6015f48502bcd0a1edd9c20e44cd7cbbe2eeef1", 186774 => "3c712c49b34a5f34d4b963750d6ba02b73e8a938d2ee415dcda141d89f5cb23a", 199992 => "3408ff829b7104eebaf61fd2ba2203ef2a43af38b95b353e992ef48f00ebb190", 225000 => "be148d9c5eab4a33392a6367198796784479720d06bfdd07bd547fe934eea15a", 250000 => "0e4bcfe8d970979f7e30e2809ab51908d435677998cf759169407824d4f36460", 270639 => "c587a36dd4f60725b9dd01d99694799bef111fc584d659f6756ab06d2a90d911", 299742 => "1cc89c0c8a58046bf0222fe131c099852bd9af25a80e07922918ef5fb39d6742", 323141 => "60c9f919f9b271add6ef5671e9538bad296d79f7fdc6487ba702bf2ba131d31d", 339202 => "8c29048df5ae9df38a67ea9470fdd404d281a3a5c6f33080cd5bf14aa496ab03" }, auxpow_chain_id: 0x0062, # Doge-specific hard-fork cutoffs difficulty_change_block: 145000, maturity_change_block: 145000, auxpow_start_block: 371337 }) NETWORKS[:dogecoin_testnet] = NETWORKS[:dogecoin].merge({ project: :dogecoin, magic_head: "\xfc\xc1\xb7\xdc", address_version: "71", p2sh_version: "c4", privkey_version: "f1", extended_privkey_version: "0432a243", extended_pubkey_version: "0432a9a8", default_port: 44556, protocol_version: 70003, min_tx_fee: COIN, min_relay_tx_fee: COIN, dust: COIN, per_dust_fee: true, free_tx_bytes: 26_000, coinbase_maturity: 30, coinbase_maturity_new: 240, reward_base: 500_000 * COIN, reward_halving: 100_000, retarget_interval: 240, retarget_time: 14400, # 4 hours retarget_time_new: 60, # 1 minute target_spacing: 60, # block interval max_money: 100_000_000_000 * COIN, dns_seeds: [ "testdoge-seed.lionservers.de", ], genesis_hash: "bb0a78264637406b6360aad926284d544d7049f45189db5664f3c4d07350559e", proof_of_work_limit: 0x1e0fffff, alert_pubkeys: [], known_nodes: [ "localhost", "testnets.chain.so", ], checkpoints: { 546 => "ac537cfeda975e45040e9938d08e40a16e0fbd6388d02d9b4928b8ae0108c626", }, auxpow_chain_id: 0x0062, # Doge-specific hard-fork cutoffs difficulty_change_block: 145000, maturity_change_block: 145000, reset_target_block: 157500, auxpow_start_block: 158100 }) NETWORKS[:namecoin] = NETWORKS[:bitcoin].merge({ project: :namecoin, magic_head: "\xF9\xBE\xB4\xFE", address_version: "34", default_port: 8334, protocol_version: 35000, min_tx_fee: 50_000, per_dust_fee: true, dns_seeds: [ "nmc.seed.quisquis.de", "dnsseed.namecoin.webbtc.com", ], genesis_hash: "000000000062b72c5e2ceb45fbc8587e807c155b0da735e6483dfba2f0a9c770", known_nodes: [ "bitcoin.tunl.in", "namecoin.webbtc.com", "178.32.31.41", "78.47.86.43", "69.164.206.88", ], checkpoints: { 0 => "000000000062b72c5e2ceb45fbc8587e807c155b0da735e6483dfba2f0a9c770", 19200 => "d8a7c3e01e1e95bcee015e6fcc7583a2ca60b79e5a3aa0a171eddd344ada903d", 24000 => "425ab0983cf04f43f346a4ca53049d0dc2db952c0a68eb0b55c3bb64108d5371", 97778 => "7553b1e43da01cfcda4335de1caf623e941d43894bd81c2af27b6582f9d83c6f", 165000 => "823d7a54ebab04d14c4ba3508f6b5f25977406f4d389539eac0174d52c6b4b62", }, auxpow_chain_id: 1 }) NETWORKS[:namecoin_testnet] = NETWORKS[:namecoin].merge({ magic_head: "\xFA\xBF\xB5\xFE", default_port: 18334, genesis_hash: "00000007199508e34a9ff81e6ec0c477a4cccff2a4767a8eee39c11db367b008", dns_seeds: [ "dnsseed.test.namecoin.webbtc.com", ], known_nodes: [ "test.namecoin.webbtc.com", "nmctest.net", "192.99.247.234"], checkpoints: { } }) NETWORKS[:namecoin_regtest] = NETWORKS[:namecoin_testnet].merge({ magic_head: "\xFA\xBF\xB5\xDA", default_port: 18445, genesis_hash: "0f9188f13cb7b2c71f2a335e3a4fc328bf5beb436012afca590b1a11466e2206", dns_seeds: [], known_nodes: [], proof_of_work_limit: 0x207fffff, checkpoints: { }, address_versions: { pubkey_hash: "6f", script_hash: "c4" }, privkey_version: "ef", }) end