Rm unnecessary files, rename sellContract to sell etc, save trades to leveldb
This commit is contained in:
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0df6fcd04c
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138
bitcoin-xcat.py
138
bitcoin-xcat.py
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#!/usr/bin/env python3
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# Based on spend-p2sh-txout.py from python-bitcoinlib.
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# Copyright (C) 2017 The Zcash developers
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import sys
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if sys.version_info.major < 3:
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sys.stderr.write('Sorry, Python 3.x required by this example.\n')
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sys.exit(1)
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import bitcoin
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import bitcoin.rpc
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from bitcoin import SelectParams
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from bitcoin.core import b2x, lx, b2lx, COIN, COutPoint, CMutableTxOut, CMutableTxIn, CMutableTransaction, Hash160
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from bitcoin.core.script import CScript, OP_DUP, OP_IF, OP_ELSE, OP_ENDIF, OP_HASH160, OP_EQUALVERIFY, OP_CHECKSIG, SignatureHash, SIGHASH_ALL, OP_FALSE, OP_DROP, OP_CHECKLOCKTIMEVERIFY, OP_SHA256, OP_TRUE
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from bitcoin.core.scripteval import VerifyScript, SCRIPT_VERIFY_P2SH
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from bitcoin.wallet import CBitcoinAddress, CBitcoinSecret
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import hashlib
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# SelectParams('testnet')
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SelectParams('regtest')
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bitcoind = bitcoin.rpc.Proxy()
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FEE = 0.001*COIN
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# ========================= BITCOIN ADDRESSES =========================
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alice_address = input("Enter alice bitcoin address: (type 'enter' for demo)")
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bob_address = input("Enter bob bitcoin address: (type 'enter' for demo)")
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# alicepubkey = CBitcoinAddress('mshp4msfzc73ebg4VzwS6nAXj9t6KqX1wd')
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# bobpubkey = CBitcoinAddress('myRh2T5Kg7QJfGLeRzriT5zs9aoek5Jbha')
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# bitcoind.getnewaddress() returns CBitcoinAddress
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bobpubkey = bitcoind.getnewaddress()
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alicepubkey = bitcoind.getnewaddress()
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print("alicepubkey", alicepubkey)
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print("bobpubkey", bobpubkey)
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# privkey of the bob, used to sign the redeemTx
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bob_seckey = bitcoind.dumpprivkey(bobpubkey)
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# privkey of alice, used to refund tx in case of timeout
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alice_seckey = bitcoind.dumpprivkey(alicepubkey)
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# ========================= HASHLOCK SECRET PREIMAGE =========================
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secret = input("Alice: Enter secret to lock funds: (type 'enter' for demo)")
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# preimage = secret.encode('UTF-8')
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preimage = b'preimage'
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h = hashlib.sha256(preimage).digest()
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# ========================= LOCKTIME SCRIPT CREATION =========================
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lockduration = 10
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blocknum = bitcoind.getblockcount()
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redeemblocknum = blocknum + lockduration
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# Create a htlc redeemScript. Similar to a scriptPubKey the redeemScript must be
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# satisfied for the funds to be spent.
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btc_redeemScript = CScript([OP_IF, OP_SHA256, h, OP_EQUALVERIFY,OP_DUP, OP_HASH160,
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alicepubkey, OP_ELSE, redeemblocknum, OP_CHECKLOCKTIMEVERIFY, OP_DROP, OP_DUP, OP_HASH160,
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bobpubkey, OP_ENDIF,OP_EQUALVERIFY, OP_CHECKSIG])
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print("Redeem script:", b2x(btc_redeemScript))
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# ========================= TX1: CREATE BITCOIN P2SH FROM SCRIPT =========================
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txin_scriptPubKey = btc_redeemScript.to_p2sh_scriptPubKey()
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# Convert the P2SH scriptPubKey to a base58 Bitcoin address
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txin_p2sh_address = CBitcoinAddress.from_scriptPubKey(txin_scriptPubKey)
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p2sh = str(txin_p2sh_address)
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print('Bob -- Assuming Alice has created other tx on Zcash blockchain, send funds to this p2sh address:', p2sh)
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## TODO: IMPORT ZCASH XCAT FUNCTIONS
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# ========================= FUND BITCOIN P2SH =========================
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response = input("Bob -- Type 'enter' to allow zbxcat to fund the Bitcoin p2sh on your behalf:")
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send_amount = 1.0*COIN
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fund_tx = bitcoind.sendtoaddress(txin_p2sh_address, send_amount)
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print('Alice -- Bitcoin fund tx was sent, please wait for confirmation. Txid:', b2x(lx(b2x(fund_tx))))
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# ========================= PART 2: BITCOIN P2SH FUNDED, REDEEM OR REFUND =========================
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# Check that fund_tx is on the blockchain to the right address, then notify receiver
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# Importing address so we can watch it
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bitcoind.importaddress(p2sh)
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# Get details of funding transaction
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fund_txinfo = bitcoind.gettransaction(fund_tx)
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fund_details = fund_txinfo['details'] # "fund_details" is an array, for now we can assume it only has one destination address
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outputAddress = fund_details[0]['address']
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fund_vout = fund_details[0]['vout']
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if (outputAddress != p2sh):
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print('Fund tx sent to wrong address! p2sh was {0}, funding tx was sent to {1}'.format(p2sh, outputAddress))
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quit()
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# Check amount by inspecting imported address
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output_amount = bitcoind.getreceivedbyaddress(outputAddress, 0)
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if (output_amount < send_amount):
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print('Fund tx too small! Amount sent was {0}, amount expected was {1}'.format(output_amount, send_amount))
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quit()
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print("P2SH {0} successfully funded with {1}".format(p2sh, send_amount))
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print('Alice -- the fund tx has been confirmed, now you can redeem your Bitcoin with the secret!')
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# ========================= CHECKLOCKIME FOR BITCOIN TX1 =========================
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# Mock the timeout period passing for tx1 (comment this out to proceed to redeemtx)
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# bitcoind.generate(20)
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# ========================= BITCOIN REFUND CONDITION =========================
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# AFTER 24 HRS (by blocknum): If locktime for first tx has passed, tx1 is refunded to alice
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if(bitcoind.getblockcount() >= redeemblocknum):
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print("Bob -- Alice did not redeem within the timeout period, so refunding your bitcoin....... ")
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txin = CMutableTxIn(COutPoint(fund_tx, fund_vout))
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# The default nSequence of FFFFFFFF won't let you redeem when there's a CHECKTIMELOCKVERIFY
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txin.nSequence = 0
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txout = CMutableTxOut(send_amount - FEE, bobpubkey.to_scriptPubKey())
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# Create the unsigned raw transaction.
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tx = CMutableTransaction([txin], [txout])
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# nLockTime needs to be at least as large as parameter of CHECKLOCKTIMEVERIFY for script to verify
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tx.nLockTime = redeemblocknum
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# Calculate the signature hash for that transaction. Note how the script we use
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# is the redeemScript, not the scriptPubKey. EvalScript() will be evaluating the redeemScript
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sighash = SignatureHash(btc_redeemScript, tx, 0, SIGHASH_ALL)
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sig = bob_seckey.sign(sighash) + bytes([SIGHASH_ALL])
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txin.scriptSig = CScript([sig, bob_seckey.pub, OP_FALSE, btc_redeemScript])
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print("Time lock has passed, Bob redeeming his own tx:")
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print("Refund tx hex:", b2x(tx.serialize()))
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VerifyScript(txin.scriptSig, txin_scriptPubKey, tx, 0, (SCRIPT_VERIFY_P2SH,))
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txid = bitcoind.sendrawtransaction(tx)
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print("Txid of submitted refund tx: ", b2x(lx(b2x(txid))))
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quit()
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# ========================= BITCOIN REDEEM CONDITION =========================
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# BEFORE 24 HRS (by blocknum): Alice redeems bitcoin tx bob funded
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print("Alice -- Redeeming tx.....")
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txin = CMutableTxIn(COutPoint(fund_tx, fund_vout))
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txout = CMutableTxOut(send_amount - FEE, alicepubkey.to_scriptPubKey())
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# Create the unsigned raw transaction.
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tx = CMutableTransaction([txin], [txout])
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# nLockTime needs to be at least as large as parameter of CHECKLOCKTIMEVERIFY for script to verify
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tx.nLockTime = redeemblocknum
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sighash = SignatureHash(btc_redeemScript, tx, 0, SIGHASH_ALL)
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sig = alice_seckey.sign(sighash) + bytes([SIGHASH_ALL])
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txin.scriptSig = CScript([sig, alice_seckey.pub, preimage, OP_TRUE, btc_redeemScript])
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print("Redeem tx hex:", b2x(tx.serialize()))
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VerifyScript(txin.scriptSig, txin_scriptPubKey, tx, 0, (SCRIPT_VERIFY_P2SH,))
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txid = bitcoind.sendrawtransaction(tx)
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print("Txid of submitted redeem tx: ", b2x(lx(b2x(txid))))
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100
btc-p2sh-htlc.py
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btc-p2sh-htlc.py
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#!/usr/bin/env python3
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# Based on spend-p2sh-txout.py from python-bitcoinlib.
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# Copyright (C) 2017 The Zcash developers
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import sys
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if sys.version_info.major < 3:
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sys.stderr.write('Sorry, Python 3.x required by this example.\n')
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sys.exit(1)
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import bitcoin
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import bitcoin.rpc
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from bitcoin import SelectParams
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from bitcoin.core import b2x, lx, b2lx, COIN, COutPoint, CMutableTxOut, CMutableTxIn, CMutableTransaction, Hash160
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from bitcoin.core.script import CScript, OP_DUP, OP_IF, OP_ELSE, OP_ENDIF, OP_HASH160, OP_EQUALVERIFY, OP_CHECKSIG, SignatureHash, SIGHASH_ALL
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from bitcoin.core.script import OP_DROP, OP_CHECKLOCKTIMEVERIFY, OP_SHA256, OP_TRUE
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from bitcoin.core.scripteval import VerifyScript, SCRIPT_VERIFY_P2SH
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from bitcoin.wallet import CBitcoinAddress, CBitcoinSecret
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import hashlib
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# SelectParams('testnet')
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# To get transactions not in your wallet, must set -txindex=1
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SelectParams('regtest')
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proxy = bitcoin.rpc.Proxy()
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# The parameters needed for the htlc - hash preimage, sender/seller address, recipient/buyer address, num of blocks for timeout
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preimage = b'preimage'
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h = hashlib.sha256(preimage).digest()
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# proxy.getnewaddress() returns CBitcoinAddress
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recipientpubkey = proxy.getnewaddress()
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senderpubkey = proxy.getnewaddress()
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# privkey of the recipient, used to sign the redeemTx
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seckey = proxy.dumpprivkey(recipientpubkey)
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lockduration = 10
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blocknum = proxy.getblockcount()
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redeemblocknum = blocknum + lockduration
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# Create a htlc redeemScript. Similar to a scriptPubKey the redeemScript must be
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# satisfied for the funds to be spent.
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txin_redeemScript = CScript([OP_IF, OP_SHA256, h, OP_EQUALVERIFY,OP_DUP, OP_HASH160,
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recipientpubkey, OP_ELSE, redeemblocknum, OP_CHECKLOCKTIMEVERIFY, OP_DROP, OP_DUP, OP_HASH160,
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senderpubkey, OP_ENDIF,OP_EQUALVERIFY, OP_CHECKSIG])
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print("redeem script:", b2x(txin_redeemScript))
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# Create P2SH scriptPubKey from redeemScript.
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txin_scriptPubKey = txin_redeemScript.to_p2sh_scriptPubKey()
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print("p2sh_scriptPubKey", b2x(txin_scriptPubKey))
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# Convert the P2SH scriptPubKey to a base58 Bitcoin address
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txin_p2sh_address = CBitcoinAddress.from_scriptPubKey(txin_scriptPubKey)
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p2sh = str(txin_p2sh_address)
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print('Pay to:', p2sh)
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# AUTOMATE Send funds to p2sh
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amount = 1.0*COIN
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# sendtoaddress return the id of the created tx
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fund_tx = proxy.sendtoaddress(txin_p2sh_address, amount)
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print('fund tx sent. It\'s id is:', b2x(lx(b2x(fund_tx))))
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print('Now redeeming.........')
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# AUTOMATE getting vout of funding tx
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txinfo = proxy.gettransaction(fund_tx)
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details = txinfo['details'][0]
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vout = details['vout']
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# Create the txin structure. scriptSig defaults to being empty.
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# The input is the p2sh funding transaction txid, vout is its index
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txin = CMutableTxIn(COutPoint(fund_tx, vout))
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# Create the txout. Pays out to recipient, so uses recipient's pubkey
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# Withdraw full amount minus fee
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default_fee = 0.001*COIN
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txout = CMutableTxOut(amount - default_fee, recipientpubkey.to_scriptPubKey())
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# Create the unsigned raw transaction.
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tx = CMutableTransaction([txin], [txout])
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# Calculate the signature hash for that transaction. Note how the script we use
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# is the redeemScript, not the scriptPubKey. EvalScript() will be evaluating the redeemScript
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sighash = SignatureHash(txin_redeemScript, tx, 0, SIGHASH_ALL)
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# Now sign it. We have to append the type of signature we want to the end, in
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# this case the usual SIGHASH_ALL.
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sig = seckey.sign(sighash) + bytes([SIGHASH_ALL])
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# Set the scriptSig of our transaction input appropriately.
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txin.scriptSig = CScript([ sig, seckey.pub, preimage, OP_TRUE, txin_redeemScript])
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print("Redeem tx hex:", b2x(tx.serialize()))
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# Verify the signature worked.
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VerifyScript(txin.scriptSig, txin_scriptPubKey, tx, 0, (SCRIPT_VERIFY_P2SH,))
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print("Now sending redeem transaction.......")
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txid = proxy.sendrawtransaction(tx)
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print("Txid of submitted redeem tx: ", b2x(lx(b2x(txid))))
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39
cli.py
39
cli.py
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return status
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def checkSellActions(trade):
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if trade.buyContract.get_status() == 'funded':
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if trade.buy.get_status() == 'funded':
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seller_redeem(trade)
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elif trade.buyContract.get_status() == 'empty':
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print("Buyer has not yet funded the contract where you offered to buy {0}, please wait for them to complete their part.".format(trade.buyContract.currency))
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elif trade.buy.get_status() == 'empty':
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print("Buyer has not yet funded the contract where you offered to buy {0}, please wait for them to complete their part.".format(trade.buy.currency))
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def checkBuyActions(trade):
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if trade.sellContract.get_status() == 'funded' and trade.buyContract.get_status() != 'redeemed':
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if trade.sell.get_status() == 'funded' and trade.buy.get_status() != 'redeemed':
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print("One active trade available, fulfilling buyer contract...")
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buyer_fulfill(trade)
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elif trade.buyContract.get_status() == 'redeemed':
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elif trade.buy.get_status() == 'redeemed':
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buyer_redeem(trade)
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print("XCAT trade complete!")
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def instantiateTrade(trade):
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return Trade(buyContract=Contract(trade['buy']), sellContract=Contract(trade['sell']))
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return Trade(buy=Contract(trade['buy']), sell=Contract(trade['sell']))
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if __name__ == '__main__':
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parser = argparse.ArgumentParser(formatter_class=argparse.RawTextHelpFormatter,
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description=textwrap.dedent('''\
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== Contracts ==
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== Trades ==
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newtrade - create a new trade
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checktrades - check for actions to be taken on existing trades
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importcontract "hexstr" - import an existing trade from a hex string
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exportcontract - export the data of an existing xcat trade as a hex string
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importtrade "hexstr" - import an existing trade from a hex string
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exporttrade - export the data of an existing xcat trade as a hex string
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'''))
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parser.add_argument("command", action="store", help="list commands")
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parser.add_argument("argument", action="store", nargs="*", help="add an argument")
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# parser.add_argument("-importcontract", type=str, action="store", help="import an existing trade from a hex string.")
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# parser.add_argument("-newtrade", action="store", help="create a new trade.")
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# parser.add_argument("-checktrades", action="store", help="check status of existing trades")
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# parser.add_argument("--daemon", "-d", action="store_true", help="Run as daemon process")
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args = parser.parse_args()
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# how to hold state of role
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command = args.command
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if command == 'importcontract':
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if command == 'importtrade':
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hexstr = args.argument[0]
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trade = x2s(hexstr)
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trade = instantiateTrade(ast.literal_eval(trade))
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print(trade)
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elif command == 'exportcontract':
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db.create(trade)
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# print(trade.toJ)
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elif command == 'exporttrade':
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trade = get_trade()
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hexstr = s2x(str(trade))
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print(trade)
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elif command == 'checktrades':
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trade = get_trade()
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trade = instantiateTrade(trade)
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if find_role(trade.sellContract) == 'initiator':
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if find_role(trade.sell) == 'initiator':
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role = 'seller'
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checkSellActions(trade)
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else:
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elif command == 'newtrade':
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erase_trade()
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role = 'seller'
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htlcTrade = Trade()
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print("Creating new XCAT trade...")
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seller_initiate(htlcTrade)
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trade = seller_initiate(Trade())
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# Save it to leveldb
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db.create(trade)
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elif command == "daemon":
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#TODO: implement
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print("Run as daemon process")
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28
database.py
28
database.py
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from utils import *
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import binascii
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import sys
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import json
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db = plyvel.DB('/tmp/testdb', create_if_missing=True)
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trade = get_trade()
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## txid we retrieve by
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if trade and 'sell' in trade:
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if 'fund_tx' in trade['sell']:
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txid = trade['sell']['fund_tx']
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def create(hexstr):
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trade = hex2dict(hexstr)
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txid = trade['sell']['fund_tx']
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# Takes object, saves json as bytes
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def create(trade):
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trade = trade.toJSON()
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jt = json.loads(trade)
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txid = jt['sell']['fund_tx']
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# Save trade by initiating txid
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db.put(b(txid), b(hexstr))
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db.put(b(txid), b(trade))
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def get(txid):
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return db.get(b(txid))
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# db.delete(b'hello')
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# hexstr = get(txid)
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# print(x2s(hexstr))
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#
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def print_entries():
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it = db.iterator()
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with db.iterator() as it:
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for k, v in it:
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j = json.loads(x2s(b2x(v)))
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print('val: ', j)
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print('sell: ', j['sell'])
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# print_entries()
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txid = '1171aeda64eff388b3568fa4675d0ca78852911109bbe42e0ef11ad6bf1b159e'
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entry = db.get(b(txid))
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print(entry)
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# print(it.next())
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#!/usr/bin/env python3
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# Based on spend-p2sh-txout.py from python-bitcoinlib.
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# Copyright (C) 2017 The Zcash developers
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import sys
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if sys.version_info.major < 3:
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sys.stderr.write('Sorry, Python 3.x required by this example.\n')
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sys.exit(1)
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import bitcoin
|
||||
import bitcoin.rpc
|
||||
from bitcoin import SelectParams
|
||||
from bitcoin.core import b2x, lx, COIN, COutPoint, CMutableTxOut, CMutableTxIn, CMutableTransaction, Hash160
|
||||
from bitcoin.core.script import CScript, OP_DUP, OP_IF, OP_ELSE, OP_ENDIF, OP_HASH160, OP_EQUALVERIFY, OP_CHECKSIG, SignatureHash, SIGHASH_ALL
|
||||
from bitcoin.core.script import OP_DROP, OP_CHECKLOCKTIMEVERIFY, OP_SHA256, OP_TRUE, OP_FALSE
|
||||
from bitcoin.core.scripteval import VerifyScript, SCRIPT_VERIFY_P2SH
|
||||
from bitcoin.wallet import CBitcoinAddress, CBitcoinSecret
|
||||
|
||||
import hashlib
|
||||
|
||||
# SelectParams('testnet')
|
||||
# To get transactions not in your wallet, must set -txindex=1
|
||||
SelectParams('regtest')
|
||||
proxy = bitcoin.rpc.Proxy()
|
||||
|
||||
# The parameters needed for the htlc - hash preimage, sender/seller address, recipient/buyer address, num of blocks for timeout
|
||||
preimage = b'preimage'
|
||||
h = hashlib.sha256(preimage).digest()
|
||||
|
||||
# proxy.getnewaddress() returns CBitcoinAddress
|
||||
recipientpubkey = proxy.getnewaddress()
|
||||
senderpubkey = proxy.getnewaddress()
|
||||
# privkey of the recipient, used to sign the redeemTx
|
||||
seckey = proxy.dumpprivkey(senderpubkey)
|
||||
#proxy.importprivkey(seckey)
|
||||
lockduration = 10
|
||||
blocknum = proxy.getblockcount()
|
||||
print("current block num:", blocknum)
|
||||
redeemblocknum = blocknum + lockduration
|
||||
# Create a htlc redeemScript. Similar to a scriptPubKey the redeemScript must be
|
||||
# satisfied for the funds to be spent.
|
||||
txin_redeemScript = CScript([OP_IF, OP_SHA256, h, OP_EQUALVERIFY,OP_DUP, OP_HASH160,
|
||||
recipientpubkey, OP_ELSE, redeemblocknum, OP_CHECKLOCKTIMEVERIFY, OP_DROP, OP_DUP, OP_HASH160,
|
||||
senderpubkey, OP_ENDIF,OP_EQUALVERIFY, OP_CHECKSIG])
|
||||
print("redeem script:", b2x(txin_redeemScript))
|
||||
|
||||
# Create P2SH scriptPubKey from redeemScript.
|
||||
txin_scriptPubKey = txin_redeemScript.to_p2sh_scriptPubKey()
|
||||
print("p2sh_scriptPubKey", b2x(txin_scriptPubKey))
|
||||
|
||||
# Convert the P2SH scriptPubKey to a base58 Bitcoin address
|
||||
txin_p2sh_address = CBitcoinAddress.from_scriptPubKey(txin_scriptPubKey)
|
||||
p2sh = str(txin_p2sh_address)
|
||||
print('Pay to:', p2sh)
|
||||
|
||||
# AUTOMATE Send funds to p2sh
|
||||
amount = 1.0*COIN
|
||||
fund_tx = proxy.sendtoaddress(txin_p2sh_address, amount)
|
||||
|
||||
print('Now redeeming.........')
|
||||
|
||||
print('Jumping forward till after timelock')
|
||||
proxy.generate(lockduration)
|
||||
print('block num is now:', proxy.getblockcount())
|
||||
# AUTOMATE getting vout of funding tx
|
||||
txinfo = proxy.gettransaction(fund_tx)
|
||||
details = txinfo['details'][0]
|
||||
vout = details['vout']
|
||||
|
||||
# Create the txin structure. scriptSig defaults to being empty.
|
||||
# The input is the p2sh funding transaction txid, vout is its index
|
||||
txin = CMutableTxIn(COutPoint(fund_tx, vout))
|
||||
|
||||
# The default nSequence of FFFFFFFF won't let you redeem when there's a CHECKTIMELOCKVERIFY
|
||||
txin.nSequence = 0
|
||||
|
||||
# Create the txout. Pays out to recipient, so uses recipient's pubkey
|
||||
# Withdraw full amount minus fee
|
||||
default_fee = 0.001*COIN
|
||||
txout = CMutableTxOut(amount - default_fee, senderpubkey.to_scriptPubKey())
|
||||
|
||||
# Create the unsigned raw transaction.
|
||||
tx = CMutableTransaction([txin], [txout])
|
||||
# nLockTime needs to be at least as large as parameter of CHECKLOCKTIMEVERIFY for script to verify
|
||||
tx.nLockTime=redeemblocknum
|
||||
|
||||
# Calculate the signature hash for that transaction. Note how the script we use
|
||||
# is the redeemScript, not the scriptPubKey. EvalScript() will be evaluating the redeemScript
|
||||
sighash = SignatureHash(txin_redeemScript, tx, 0, SIGHASH_ALL)
|
||||
|
||||
# Now sign it. We have to append the type of signature we want to the end, in
|
||||
# this case the usual SIGHASH_ALL.
|
||||
sig = seckey.sign(sighash) + bytes([SIGHASH_ALL])
|
||||
|
||||
# Set the scriptSig of our transaction input appropriately.
|
||||
txin.scriptSig = CScript([sig, seckey.pub, OP_FALSE, txin_redeemScript])
|
||||
|
||||
print("Redeem tx hex:", b2x(tx.serialize()))
|
||||
|
||||
# Verify the signature worked.
|
||||
VerifyScript(txin.scriptSig, txin_scriptPubKey, tx, 0, (SCRIPT_VERIFY_P2SH,))
|
||||
|
||||
print("Now sending redeem transaction.......")
|
||||
txid = proxy.sendrawtransaction(tx)
|
||||
print("Txid of submitted redeem tx: ", b2x(lx(b2x(txid))))
|
|
@ -1 +1,2 @@
|
|||
python-bitcoinlib
|
||||
plyvel
|
||||
|
|
|
@ -1 +1 @@
|
|||
Hm0Mla5n
|
||||
UYH0XxCs
|
36
test.py
36
test.py
|
@ -26,10 +26,10 @@ def initiate(trade):
|
|||
sell['fulfiller'] = fulfill_addrs[sell_currency]
|
||||
buy['fulfiller'] = fulfill_addrs[buy_currency]
|
||||
# initializing contract classes with addresses, currencies, and amounts
|
||||
trade.sellContract = Contract(sell)
|
||||
trade.buyContract = Contract(buy)
|
||||
print(trade.sellContract.__dict__)
|
||||
print(trade.buyContract.__dict__)
|
||||
trade.sell = Contract(sell)
|
||||
trade.buy = Contract(buy)
|
||||
print(trade.sell.__dict__)
|
||||
print(trade.buy.__dict__)
|
||||
|
||||
secret = generate_password()
|
||||
print("Generating secret to lock funds:", secret)
|
||||
|
@ -44,8 +44,8 @@ def initiate(trade):
|
|||
create_buy_p2sh(trade, secret, buy_locktime)
|
||||
|
||||
def fulfill(trade):
|
||||
buy = trade.buyContract
|
||||
sell = trade.sellContract
|
||||
buy = trade.buy
|
||||
sell = trade.sell
|
||||
buy_p2sh_balance = check_p2sh(buy.currency, buy.p2sh)
|
||||
sell_p2sh_balance = check_p2sh(sell.currency, sell.p2sh)
|
||||
|
||||
|
@ -57,32 +57,32 @@ def fulfill(trade):
|
|||
raise ValueError("Sell p2sh not funded, buyer cannot redeem")
|
||||
|
||||
def redeem_one(trade):
|
||||
buy = trade.buyContract
|
||||
if trade.sellContract.get_status() == 'redeemed':
|
||||
buy = trade.buy
|
||||
if trade.sell.get_status() == 'redeemed':
|
||||
raise RuntimeError("Sell contract status was already redeemed before seller could redeem buyer's tx")
|
||||
else:
|
||||
secret = get_secret()
|
||||
print("GETTING SECRET IN TEST:", secret)
|
||||
tx_type, txid = redeem_p2sh(trade.buyContract, secret)
|
||||
tx_type, txid = redeem_p2sh(trade.buy, secret)
|
||||
print("\nTX Type", tx_type)
|
||||
setattr(trade.buyContract, tx_type, txid)
|
||||
setattr(trade.buy, tx_type, txid)
|
||||
save(trade)
|
||||
print("You have redeemed {0} {1}!".format(buy.amount, buy.currency))
|
||||
|
||||
def redeem_two(trade):
|
||||
if trade.sellContract.get_status() == 'redeemed':
|
||||
if trade.sell.get_status() == 'redeemed':
|
||||
raise RuntimeError("Sell contract was redeemed before buyer could retrieve funds")
|
||||
elif trade.buyContract.get_status() == 'refunded':
|
||||
print("buyContract was refunded to buyer")
|
||||
elif trade.buy.get_status() == 'refunded':
|
||||
print("buy was refunded to buyer")
|
||||
else:
|
||||
# Buy contract is where seller disclosed secret in redeeming
|
||||
if trade.buyContract.currency == 'bitcoin':
|
||||
secret = bXcat.parse_secret(trade.buyContract.redeem_tx)
|
||||
if trade.buy.currency == 'bitcoin':
|
||||
secret = bXcat.parse_secret(trade.buy.redeem_tx)
|
||||
else:
|
||||
secret = zXcat.parse_secret(trade.buyContract.redeem_tx)
|
||||
secret = zXcat.parse_secret(trade.buy.redeem_tx)
|
||||
print("Found secret in seller's redeem tx", secret)
|
||||
redeem_tx = redeem_p2sh(trade.sellContract, secret)
|
||||
setattr(trade.sellContract, 'redeem_tx', redeem_tx)
|
||||
redeem_tx = redeem_p2sh(trade.sell, secret)
|
||||
setattr(trade.sell, 'redeem_tx', redeem_tx)
|
||||
save(trade)
|
||||
|
||||
def generate_blocks(num):
|
||||
|
|
12
trades.py
12
trades.py
|
@ -1,8 +1,14 @@
|
|||
import json
|
||||
|
||||
class Trade(object):
|
||||
def __init__(self, sellContract=None, buyContract=None):
|
||||
def __init__(self, sell=None, buy=None):
|
||||
'''Create a new trade with a sell contract and buy contract across two chains'''
|
||||
self.sellContract = sellContract
|
||||
self.buyContract = buyContract
|
||||
self.sell = sell
|
||||
self.buy = buy
|
||||
|
||||
def toJSON(self):
|
||||
return json.dumps(self, default=lambda o: o.__dict__,
|
||||
sort_keys=True, indent=4)
|
||||
|
||||
class Contract(object):
|
||||
def __init__(self, data):
|
||||
|
|
|
@ -40,7 +40,7 @@ def retrieve_password():
|
|||
return secret
|
||||
|
||||
def authorize_fund_sell(htlcTrade):
|
||||
print('To complete your sell, send {0} {1} to this p2sh: {2}'.format(htlcTrade.sellContract.amount, htlcTrade.sellContract.currency, htlcTrade.sellContract.p2sh))
|
||||
print('To complete your sell, send {0} {1} to this p2sh: {2}'.format(htlcTrade.sell.amount, htlcTrade.sell.currency, htlcTrade.sell.p2sh))
|
||||
response = input("Type 'enter' to allow this program to send funds on your behalf.")
|
||||
|
||||
def get_initiator_addresses():
|
||||
|
@ -75,4 +75,4 @@ def authorize_seller_redeem(buy):
|
|||
input("Buyer funded the contract where you offered to buy {0}, type 'enter' to redeem {1} {0} from {2}.".format(buy.currency, buy.amount, buy.p2sh))
|
||||
|
||||
def authorize_buyer_redeem(trade):
|
||||
input("Seller funded the contract where you paid them in {0} to buy {1}, type 'enter' to redeem {2} {1} from {3}.".format(trade.buyContract.currency, trade.sellContract.currency, trade.sellContract.amount, trade.sellContract.p2sh))
|
||||
input("Seller funded the contract where you paid them in {0} to buy {1}, type 'enter' to redeem {2} {1} from {3}.".format(trade.buy.currency, trade.sell.currency, trade.sell.amount, trade.sell.p2sh))
|
||||
|
|
5
utils.py
5
utils.py
|
@ -25,6 +25,7 @@ def s2x(string):
|
|||
|
||||
def hex2dict(hexstr):
|
||||
jsonstr = x2s(hexstr)
|
||||
print(hexstr['fund_tx'])
|
||||
print(jsonstr)
|
||||
return json.loads(jsonstr)
|
||||
|
||||
|
@ -76,7 +77,7 @@ def save_secret(secret):
|
|||
def save(trade):
|
||||
print("Saving trade")
|
||||
trade = {
|
||||
'sell': trade.sellContract.__dict__,
|
||||
'buy': trade.buyContract.__dict__
|
||||
'sell': trade.sell.__dict__,
|
||||
'buy': trade.buy.__dict__
|
||||
}
|
||||
save_trade(trade)
|
||||
|
|
|
@ -1 +1 @@
|
|||
{"sell": {"currency": "bitcoin", "fulfiller": "mrQzUGU1dwsWRx5gsKKSDPNtrsP65vCA3Z", "initiator": "myfFr5twPYNwgeXyjCmGcrzXtCmfmWXKYp", "amount": "0.5", "redeemScript": "63a82033fb8f68c7e079a2a35cfcd8827279f8a55fa1be04c99debd8ed3e54954e08228876a9147788b4511a25fba1092e67b307a6dcdb6da125d96702bd01b17576a914c7043e62a7391596116f54f6a64c8548e97d3fd96888ac", "fund_tx": "6cca31678d7fe6461277cea7e0614844e62ccc3ae4e247ca77d62bdd741fabef", "p2sh": "2N3rA4r6VSx65FeBTcgWWcR9HaW69DYDbrp", "redeemblocknum": 445}, "buy": {"currency": "zcash", "fulfiller": "tmTjZSg4pX2Us6V5HttiwFZwj464fD2ZgpY", "initiator": "tmFRXyju7ANM7A9mg75ZjyhFW1UJEhUPwfQ", "amount": "1.12", "refund_tx": "5e34f0c634fb6207e9c85ed52528629404d25db29b68931b4e0278377ee776d6", "redeemScript": "63a82033fb8f68c7e079a2a35cfcd8827279f8a55fa1be04c99debd8ed3e54954e08228876a9143ea29256c9d2888ca23de42a8b8e69ca2ec235b16702e301b17576a914c5acca6ef39c843c7a9c3ad01b2da95fe2edf5ba6888ac", "fund_tx": "8c9f9581a8cab00836b54237b30a6d68125067e3ffe6ae04413da2bdc9146daa", "p2sh": "t2UkYvcnigZt7FFp86UvTZ78qdGeLXw7tet", "redeemblocknum": 483}}
|
||||
{"buy": {"fulfiller": "tmTjZSg4pX2Us6V5HttiwFZwj464fD2ZgpY", "initiator": "tmFRXyju7ANM7A9mg75ZjyhFW1UJEhUPwfQ", "p2sh": "t2TcYheueGfEnT2SKYMLWNXKfyzrMLKc6y2", "redeemblocknum": 113817, "currency": "zcash", "amount": 1.2, "redeemScript": "63a820b67f875a86ea6be94a1f6e44857daa739df84421ba2402dd968185b7d58371b68876a9143ea29256c9d2888ca23de42a8b8e69ca2ec235b1670399bc01b17576a914c5acca6ef39c843c7a9c3ad01b2da95fe2edf5ba6888ac"}, "sell": {"fulfiller": "mrQzUGU1dwsWRx5gsKKSDPNtrsP65vCA3Z", "initiator": "myfFr5twPYNwgeXyjCmGcrzXtCmfmWXKYp", "fund_tx": "1171aeda64eff388b3568fa4675d0ca78852911109bbe42e0ef11ad6bf1b159e", "p2sh": "2NEy1foaQU3wkMu7yygW1GZYhikeSxq6ZCq", "redeemblocknum": 911, "currency": "bitcoin", "amount": 3.5, "redeemScript": "63a820b67f875a86ea6be94a1f6e44857daa739df84421ba2402dd968185b7d58371b68876a9147788b4511a25fba1092e67b307a6dcdb6da125d967028f03b17576a914c7043e62a7391596116f54f6a64c8548e97d3fd96888ac"}}
|
91
xcat.py
91
xcat.py
|
@ -32,41 +32,41 @@ def fund_htlc(currency, p2sh, amount):
|
|||
return txid
|
||||
|
||||
def fund_buy_contract(trade):
|
||||
buy = trade.buyContract
|
||||
buy = trade.buy
|
||||
txid = fund_htlc(buy.currency, buy.p2sh, buy.amount)
|
||||
setattr(trade.buyContract, 'fund_tx', txid)
|
||||
setattr(trade.buy, 'fund_tx', txid)
|
||||
save(trade)
|
||||
return txid
|
||||
|
||||
def fund_sell_contract(trade):
|
||||
sell = trade.sellContract
|
||||
sell = trade.sell
|
||||
txid = fund_htlc(sell.currency, sell.p2sh, sell.amount)
|
||||
setattr(trade.sellContract, 'fund_tx', txid)
|
||||
setattr(trade.sell, 'fund_tx', txid)
|
||||
save(trade)
|
||||
return txid
|
||||
|
||||
def create_sell_p2sh(trade, secret, locktime):
|
||||
# CREATE SELL CONTRACT
|
||||
sell = trade.sellContract
|
||||
sell = trade.sell
|
||||
contract = create_htlc(sell.currency, sell.initiator, sell.fulfiller, secret, locktime)
|
||||
print("sell contract", contract)
|
||||
setattr(trade.sellContract, 'p2sh', contract['p2sh'])
|
||||
setattr(trade.sellContract, 'redeemScript', contract['redeemScript'])
|
||||
setattr(trade.sellContract, 'redeemblocknum', contract['redeemblocknum'])
|
||||
setattr(trade.sell, 'p2sh', contract['p2sh'])
|
||||
setattr(trade.sell, 'redeemScript', contract['redeemScript'])
|
||||
setattr(trade.sell, 'redeemblocknum', contract['redeemblocknum'])
|
||||
save(trade)
|
||||
|
||||
def create_buy_p2sh(trade, secret, locktime):
|
||||
## CREATE BUY CONTRACT
|
||||
buy = trade.buyContract
|
||||
buy = trade.buy
|
||||
print("Now creating buy contract on the {0} blockchain where you will wait for the buyer to send funds...".format(buy.currency))
|
||||
print("HTLC DETAILS", buy.currency, buy.fulfiller, buy.initiator, secret, locktime)
|
||||
buy_contract = create_htlc(buy.currency, buy.fulfiller, buy.initiator, secret, locktime)
|
||||
print("Buy contract", buy_contract)
|
||||
|
||||
setattr(trade.buyContract, 'p2sh', buy_contract['p2sh'])
|
||||
setattr(trade.buyContract, 'redeemScript', buy_contract['redeemScript'])
|
||||
setattr(trade.buyContract, 'redeemblocknum', buy_contract['redeemblocknum'])
|
||||
print("Now contact the buyer and tell them to send funds to this p2sh: ", trade.buyContract.p2sh)
|
||||
setattr(trade.buy, 'p2sh', buy_contract['p2sh'])
|
||||
setattr(trade.buy, 'redeemScript', buy_contract['redeemScript'])
|
||||
setattr(trade.buy, 'redeemblocknum', buy_contract['redeemblocknum'])
|
||||
print("Now contact the buyer and tell them to send funds to this p2sh: ", trade.buy.p2sh)
|
||||
|
||||
save(trade)
|
||||
|
||||
|
@ -86,43 +86,43 @@ def print_trade(role):
|
|||
#### Main functions determining user flow from command line
|
||||
def buyer_redeem(trade):
|
||||
userInput.authorize_buyer_redeem(trade)
|
||||
if trade.sellContract.get_status() == 'redeemed':
|
||||
print("You already redeemed the funds and acquired {0} {1}".format(trade.sellContract.amount, trade.sellContract.currency))
|
||||
if trade.sell.get_status() == 'redeemed':
|
||||
print("You already redeemed the funds and acquired {0} {1}".format(trade.sell.amount, trade.sell.currency))
|
||||
exit()
|
||||
else:
|
||||
# Buyer redeems seller's funded tx
|
||||
p2sh = trade.sellContract.p2sh
|
||||
currency = trade.sellContract.currency
|
||||
p2sh = trade.sell.p2sh
|
||||
currency = trade.sell.currency
|
||||
# Buy contract is where seller disclosed secret in redeeming
|
||||
if trade.buyContract.currency == 'bitcoin':
|
||||
secret = bXcat.parse_secret(trade.buyContract.redeem_tx)
|
||||
if trade.buy.currency == 'bitcoin':
|
||||
secret = bXcat.parse_secret(trade.buy.redeem_tx)
|
||||
else:
|
||||
secret = zXcat.parse_secret(trade.buyContract.redeem_tx)
|
||||
secret = zXcat.parse_secret(trade.buy.redeem_tx)
|
||||
print("Found secret in seller's redeem tx", secret)
|
||||
redeem_tx = redeem_p2sh(trade.sellContract, secret)
|
||||
setattr(trade.sellContract, 'redeem_tx', redeem_tx)
|
||||
redeem_tx = redeem_p2sh(trade.sell, secret)
|
||||
setattr(trade.sell, 'redeem_tx', redeem_tx)
|
||||
save(trade)
|
||||
exit()
|
||||
|
||||
def seller_redeem(trade):
|
||||
buy = trade.buyContract
|
||||
buy = trade.buy
|
||||
userInput.authorize_seller_redeem(buy)
|
||||
|
||||
if trade.sellContract.get_status() == 'redeemed':
|
||||
if trade.sell.get_status() == 'redeemed':
|
||||
print("You already redeemed the funds and acquired {0} {1}".format(buy.amount, buy.currency))
|
||||
exit()
|
||||
else:
|
||||
# Seller redeems buyer's funded tx (contract in p2sh)
|
||||
secret = userInput.retrieve_password()
|
||||
tx_type, txid = redeem_p2sh(trade.buyContract, secret)
|
||||
setattr(trade.buyContract, tx_type, txid)
|
||||
tx_type, txid = redeem_p2sh(trade.buy, secret)
|
||||
setattr(trade.buy, tx_type, txid)
|
||||
save(trade)
|
||||
print("You have redeemed {0} {1}!".format(buy.amount, buy.currency))
|
||||
print_trade('seller')
|
||||
|
||||
def buyer_fulfill(trade):
|
||||
buy = trade.buyContract
|
||||
sell = trade.sellContract
|
||||
buy = trade.buy
|
||||
sell = trade.sell
|
||||
buy_p2sh_balance = check_p2sh(buy.currency, buy.p2sh)
|
||||
sell_p2sh_balance = check_p2sh(sell.currency, sell.p2sh)
|
||||
|
||||
|
@ -151,16 +151,16 @@ def seller_initiate(trade):
|
|||
sell['fulfiller'] = fulfill_addrs[sell_currency]
|
||||
buy['fulfiller'] = fulfill_addrs[buy_currency]
|
||||
# initializing contract classes with addresses, currencies, and amounts
|
||||
trade.sellContract = Contract(sell)
|
||||
trade.buyContract = Contract(buy)
|
||||
print(trade.sellContract.__dict__)
|
||||
print(trade.buyContract.__dict__)
|
||||
trade.sell = Contract(sell)
|
||||
trade.buy = Contract(buy)
|
||||
print(trade.sell.__dict__)
|
||||
print(trade.buy.__dict__)
|
||||
|
||||
secret = userInput.create_password()
|
||||
# TODO: Implement locktimes and mock block passage of time
|
||||
sell_locktime = 5
|
||||
buy_locktime = 10 # Must be more than first tx
|
||||
|
||||
print("Creating pay-to-script-hash for sell contract...")
|
||||
create_sell_p2sh(trade, secret, sell_locktime)
|
||||
|
||||
userInput.authorize_fund_sell(trade)
|
||||
|
@ -169,7 +169,8 @@ def seller_initiate(trade):
|
|||
print("Sent")
|
||||
|
||||
create_buy_p2sh(trade, secret, buy_locktime)
|
||||
print_trade('seller')
|
||||
|
||||
return trade
|
||||
|
||||
if __name__ == '__main__':
|
||||
print("ZEC <-> BTC XCAT (Cross-Chain Atomic Transactions)")
|
||||
|
@ -181,9 +182,9 @@ if __name__ == '__main__':
|
|||
htlcTrade = Trade()
|
||||
print("New empty trade")
|
||||
else:
|
||||
buyContract = Contract(trade['buy'])
|
||||
sellContract = Contract(trade['sell'])
|
||||
htlcTrade = Trade(buyContract=buyContract, sellContract=sellContract)
|
||||
buy = Contract(trade['buy'])
|
||||
sell = Contract(trade['sell'])
|
||||
htlcTrade = Trade(buy=buy, sell=sell)
|
||||
|
||||
try:
|
||||
if sys.argv[1] == 'new':
|
||||
|
@ -206,29 +207,29 @@ if __name__ == '__main__':
|
|||
print("Trade exists, run script as buyer or seller to complete trade.")
|
||||
exit()
|
||||
|
||||
if htlcTrade.buyContract is not None and htlcTrade.sellContract is not None:
|
||||
if htlcTrade.sellContract.get_status() == 'redeemed' and htlcTrade.buyContract.get_status() == 'redeemed':
|
||||
if htlcTrade.buy is not None and htlcTrade.sell is not None:
|
||||
if htlcTrade.sell.get_status() == 'redeemed' and htlcTrade.buy.get_status() == 'redeemed':
|
||||
print("This trade is already complete! Trade details:")
|
||||
pprint(trade)
|
||||
exit()
|
||||
|
||||
if role == "seller":
|
||||
if htlcTrade.sellContract == None:
|
||||
if htlcTrade.sell == None:
|
||||
seller_initiate(htlcTrade)
|
||||
elif htlcTrade.buyContract.get_status() == 'funded':
|
||||
elif htlcTrade.buy.get_status() == 'funded':
|
||||
seller_redeem(htlcTrade)
|
||||
elif htlcTrade.buyContract.get_status() == 'empty':
|
||||
print("Buyer has not yet funded the contract where you offered to buy {0}, please wait for them to complete their part.".format(htlcTrade.buyContract.currency))
|
||||
elif htlcTrade.buy.get_status() == 'empty':
|
||||
print("Buyer has not yet funded the contract where you offered to buy {0}, please wait for them to complete their part.".format(htlcTrade.buy.currency))
|
||||
else:
|
||||
# Need better way of preventing buyer from having secret
|
||||
# if 'status' not in trade['buy'] and trade['sell']['status'] == 'funded':
|
||||
if htlcTrade.sellContract.get_status() == 'funded' and htlcTrade.buyContract.get_status() != 'redeemed':
|
||||
if htlcTrade.sell.get_status() == 'funded' and htlcTrade.buy.get_status() != 'redeemed':
|
||||
print("One active trade available, fulfilling buyer contract...")
|
||||
buyer_fulfill(htlcTrade)
|
||||
# How to monitor if txs are included in blocks -- should use blocknotify and a monitor daemon?
|
||||
# p2sh = trade['buy']['p2sh']
|
||||
# check_blocks(p2sh)
|
||||
elif htlcTrade.buyContract.get_status() == 'redeemed':
|
||||
elif htlcTrade.buy.get_status() == 'redeemed':
|
||||
# Seller has redeemed buyer's tx, buyer can now redeem.
|
||||
buyer_redeem(htlcTrade)
|
||||
print("XCAT trade complete!")
|
||||
|
|
140
zcashcli.py
140
zcashcli.py
|
@ -1,140 +0,0 @@
|
|||
#!/usr/bin/env python3
|
||||
|
||||
# Based on spend-p2sh-txout.py from python-bitcoinlib.
|
||||
# Copyright (C) 2017 The Zcash developers
|
||||
|
||||
import sys
|
||||
if sys.version_info.major < 3:
|
||||
sys.stderr.write('Sorry, Python 3.x required by this example.\n')
|
||||
sys.exit(1)
|
||||
|
||||
import zcash
|
||||
import zcash.rpc
|
||||
from zcash import SelectParams
|
||||
from zcash.core import b2x, lx, b2lx, COIN, COutPoint, CMutableTxOut, CMutableTxIn, CMutableTransaction, Hash160
|
||||
from zcash.core.script import CScript, OP_DUP, OP_IF, OP_ELSE, OP_ENDIF, OP_HASH160, OP_EQUALVERIFY, OP_CHECKSIG, SignatureHash, SIGHASH_ALL, OP_FALSE, OP_DROP, OP_CHECKLOCKTIMEVERIFY, OP_SHA256, OP_TRUE
|
||||
from zcash.core.scripteval import VerifyScript, SCRIPT_VERIFY_P2SH
|
||||
from zcash.wallet import CBitcoinAddress, CBitcoinSecret
|
||||
import hashlib
|
||||
import binascii
|
||||
|
||||
# SelectParams('testnet')
|
||||
SelectParams('regtest')
|
||||
zcashd = zcash.rpc.Proxy()
|
||||
FEE = 0.001*COIN
|
||||
|
||||
# ========================= ZCASH ADDRESSES =========================
|
||||
alice_address = input("Enter alice zcash address: (type 'enter' for demo)")
|
||||
bob_address = input("Enter bob zcash address: (type 'enter' for demo)")
|
||||
# These mock addresses come from regtest on the server
|
||||
# alicepubkey = CBitcoinAddress('tmFUm31B9wzHWJ9jGe9L9Qb549zfC7zFsEK')
|
||||
# bobpubkey = CBitcoinAddress('tmFm8R6b22485uDYm6dryC4f8R6oXUTUe5i')
|
||||
# zcashd.getnewaddress() returns CBitcoinAddress
|
||||
bobpubkey = zcashd.getnewaddress()
|
||||
alicepubkey = zcashd.getnewaddress()
|
||||
print("alicepubkey", alicepubkey)
|
||||
print("bobpubkey", bobpubkey)
|
||||
# privkey of the bob, used to sign the redeemTx
|
||||
bob_seckey = zcashd.dumpprivkey(bobpubkey)
|
||||
# privkey of alice, used to refund tx in case of timeout
|
||||
alice_seckey = zcashd.dumpprivkey(alicepubkey)
|
||||
print("bob_seckey", bob_seckey)
|
||||
|
||||
def get_keys(funder_address, redeemer_address):
|
||||
# fundpubkey = CBitcoinAddress(funder_address)
|
||||
# redeempubkey = CBitcoinAddress(redeemer_address)
|
||||
fundpubkey = zcashd.getnewaddress()
|
||||
redeempubkey = zcashd.getnewaddress()
|
||||
return fundpubkey, redeempubkey
|
||||
|
||||
# ======= secret from Alice, other file ====
|
||||
preimage = b'preimage'
|
||||
h = hashlib.sha256(preimage).digest()
|
||||
|
||||
# ========================= LOCKTIME SCRIPT CREATION =========================
|
||||
lockduration = 20 # Must be more than first tx
|
||||
blocknum = zcashd.getblockcount()
|
||||
redeemblocknum = blocknum + lockduration
|
||||
zec_redeemScript = CScript([OP_IF, OP_SHA256, h, OP_EQUALVERIFY,OP_DUP, OP_HASH160,
|
||||
bobpubkey, OP_ELSE, redeemblocknum, OP_CHECKLOCKTIMEVERIFY, OP_DROP, OP_DUP, OP_HASH160,
|
||||
alicepubkey, OP_ENDIF,OP_EQUALVERIFY, OP_CHECKSIG])
|
||||
print("TX2 Redeem script on Zcash blockchain:", b2x(zec_redeemScript))
|
||||
|
||||
# ========================= TX1: CREATE BITCOIN P2SH FROM SCRIPT =========================
|
||||
txin_scriptPubKey = zec_redeemScript.to_p2sh_scriptPubKey()
|
||||
# Convert the P2SH scriptPubKey to a base58 Bitcoin address
|
||||
txin_p2sh_address = CBitcoinAddress.from_scriptPubKey(txin_scriptPubKey)
|
||||
p2sh = str(txin_p2sh_address)
|
||||
print('Alice -- send funds to this p2sh address to initiate atomic swap:', p2sh)
|
||||
|
||||
response = input("Alice -- Type 'enter' to allow zbxcat to fund the Zcash p2sh on your behalf:")
|
||||
send_amount = 10.0*COIN
|
||||
fund_tx = zcashd.sendtoaddress(txin_p2sh_address, send_amount)
|
||||
print('Bob -- Alice send fund tx to the Zcash p2sh. Please wait for confirmation. Txid:', b2x(lx(b2x(fund_tx))))
|
||||
|
||||
# ========================= CONFIRM ZCASH FUNDING TX TO P2SH =========================
|
||||
zcashd.importaddress(p2sh)
|
||||
|
||||
fund_txinfo = zcashd.gettransaction(fund_tx)
|
||||
fund_details = fund_txinfo['details'] # "fund_details" is an array, for now we can assume it only has one destination address
|
||||
outputAddress = fund_details[0]['address']
|
||||
fund_vout = fund_details[0]['vout']
|
||||
if (outputAddress != p2sh):
|
||||
print('Fund tx sent to wrong address! p2sh was {0}, funding tx was sent to {1}'.format(p2sh, outputAddress))
|
||||
quit()
|
||||
# Get amount in address
|
||||
output_amount = zcashd.getreceivedbyaddress(outputAddress, 0)
|
||||
if (output_amount < send_amount):
|
||||
print('Fund tx too small! Amount sent was {0}, amount expected was {1}'.format(output_amount, send_amount))
|
||||
quit()
|
||||
|
||||
print('Bob -- Alice Zcash funding tx confirmed, now send funds to the Bitcoin p2sh: (other file)')
|
||||
|
||||
# ========================= PART 2: ZCASH P2SH FUNDED, REDEEM OR REFUND =========================
|
||||
|
||||
# ================= AFTER 48 HRS: ALICE REFUNDS AFTER BOB TIMES OUT =========================
|
||||
# Mock passage of time -- comment out to test normal redeem condition
|
||||
# zcashd.generate(25)
|
||||
|
||||
if(zcashd.getblockcount() >= redeemblocknum):
|
||||
print("Alice -- Bob did not redeem the Zcash you put in escrow within the timeout period, so refunding you..... ")
|
||||
txin = CMutableTxIn(COutPoint(fund_tx, fund_vout))
|
||||
# The default nSequence of FFFFFFFF won't let you redeem when there's a CHECKTIMELOCKVERIFY
|
||||
txin.nSequence = 0
|
||||
txout = CMutableTxOut(send_amount - FEE, alicepubkey.to_scriptPubKey())
|
||||
# Create the unsigned raw transaction.
|
||||
tx = CMutableTransaction([txin], [txout])
|
||||
# nLockTime needs to be at least as large as parameter of CHECKLOCKTIMEVERIFY for script to verify
|
||||
tx.nLockTime = redeemblocknum
|
||||
# Calculate the signature hash for that transaction. Note how the script we use
|
||||
# is the redeemScript, not the scriptPubKey. EvalScript() will be evaluating the redeemScript
|
||||
sighash = SignatureHash(zec_redeemScript, tx, 0, SIGHASH_ALL)
|
||||
sig = alice_seckey.sign(sighash) + bytes([SIGHASH_ALL])
|
||||
txin.scriptSig = CScript([sig, alice_seckey.pub, OP_FALSE, zec_redeemScript])
|
||||
print("Time lock has passed, Alice redeeming her own tx:")
|
||||
print("Refund tx hex:", b2x(tx.serialize()))
|
||||
VerifyScript(txin.scriptSig, txin_scriptPubKey, tx, 0, (SCRIPT_VERIFY_P2SH,))
|
||||
txid = zcashd.sendrawtransaction(tx)
|
||||
print("Txid of submitted refund tx: ", b2x(lx(b2x(txid))))
|
||||
quit()
|
||||
|
||||
# ================= BEFORE 48 HRS: BOB REDEEMS WITH ALICE'S REVEALED SECRET =========================
|
||||
print("Bob -- Redeeming tx.....")
|
||||
txin = CMutableTxIn(COutPoint(fund_tx, fund_vout))
|
||||
txout = CMutableTxOut(send_amount - FEE, bobpubkey.to_scriptPubKey())
|
||||
# Create the unsigned raw transaction.
|
||||
tx = CMutableTransaction([txin], [txout])
|
||||
# nLockTime needs to be at least as large as parameter of CHECKLOCKTIMEVERIFY for script to verify
|
||||
tx.nLockTime = redeemblocknum
|
||||
sighash = SignatureHash(zec_redeemScript, tx, 0, SIGHASH_ALL)
|
||||
sig = bob_seckey.sign(sighash) + bytes([SIGHASH_ALL])
|
||||
txin.scriptSig = CScript([sig, bob_seckey.pub, preimage, OP_TRUE, zec_redeemScript])
|
||||
print("Redeem tx hex:", b2x(tx.serialize()))
|
||||
|
||||
print("txin.scriptSig", b2x(txin.scriptSig))
|
||||
print("txin_scriptPubKey", b2x(txin_scriptPubKey))
|
||||
print('tx', tx)
|
||||
VerifyScript(txin.scriptSig, txin_scriptPubKey, tx, 0, (SCRIPT_VERIFY_P2SH,))
|
||||
|
||||
txid = zcashd.sendrawtransaction(tx)
|
||||
print("Txid of submitted redeem tx: ", b2x(lx(b2x(txid))))
|
|
@ -1,90 +0,0 @@
|
|||
#!/usr/bin/env python3
|
||||
|
||||
# Copyright (C) 2017 the python-zcashlib developers
|
||||
|
||||
import sys
|
||||
if sys.version_info.major < 3:
|
||||
sys.stderr.write('Sorry, Python 3.x required by this example.\n')
|
||||
sys.exit(1)
|
||||
|
||||
import zcash
|
||||
import zcash.rpc
|
||||
from zcash import SelectParams
|
||||
from zcash.core import b2x, lx, COIN, COutPoint, CMutableTxOut, CMutableTxIn, CMutableTransaction, Hash160
|
||||
from zcash.core.script import CScript, OP_DUP, OP_IF, OP_ELSE, OP_DROP, OP_ENDIF, OP_HASH160, OP_SHA256, OP_EQUAL, OP_EQUALVERIFY, OP_CHECKSIG, SignatureHash, SIGHASH_ALL, SIGHASH_ANYONECANPAY, OP_TRUE
|
||||
from zcash.core.scripteval import VerifyScript, SCRIPT_VERIFY_P2SH
|
||||
from zcash.wallet import CBitcoinAddress, CBitcoinSecret
|
||||
import hashlib
|
||||
|
||||
SelectParams('regtest')
|
||||
proxy = zcash.rpc.Proxy()
|
||||
|
||||
# The parameters needed for the htlc - hash preimage, sender/seller address, recipient/buyer address, num of blocks for timeout
|
||||
preimage = b'preimage'
|
||||
h = hashlib.sha256(preimage).digest()
|
||||
|
||||
# proxy.getnewaddress() returns CBitcoinAddress
|
||||
recipientpubkey = proxy.getnewaddress()
|
||||
senderpubkey = proxy.getnewaddress()
|
||||
# privkey of the recipient, used to sign the redeemTx
|
||||
seckey = proxy.dumpprivkey(recipientpubkey)
|
||||
|
||||
blocknum = 7
|
||||
# Create a htlc redeemScript. Similar to a scriptPubKey the redeemScript must be
|
||||
# satisfied for the funds to be spent.
|
||||
txin_redeemScript = CScript([OP_IF, OP_SHA256, h, OP_EQUALVERIFY,OP_DUP, OP_HASH160,
|
||||
recipientpubkey, OP_ELSE, blocknum, OP_DROP, OP_HASH160,
|
||||
senderpubkey, OP_ENDIF,OP_EQUALVERIFY, OP_CHECKSIG])
|
||||
print("redeem script:", b2x(txin_redeemScript))
|
||||
|
||||
# Create P2SH scriptPubKey from redeemScript.
|
||||
txin_scriptPubKey = txin_redeemScript.to_p2sh_scriptPubKey()
|
||||
print("p2sh_scriptPubKey", b2x(txin_scriptPubKey))
|
||||
|
||||
# Convert the P2SH scriptPubKey to a base58 Bitcoin address
|
||||
txin_p2sh_address = CBitcoinAddress.from_scriptPubKey(txin_scriptPubKey)
|
||||
p2sh = str(txin_p2sh_address)
|
||||
print('Pay to:', p2sh)
|
||||
|
||||
# AUTOMATE Send funds to p2sh
|
||||
amount = 1.0*COIN
|
||||
fund_tx = proxy.sendtoaddress(txin_p2sh_address, amount)
|
||||
|
||||
print('Now redeeming.........')
|
||||
|
||||
# AUTOMATE getting vout of funding tx
|
||||
txinfo = proxy.gettransaction(fund_tx)
|
||||
details = txinfo['details'][0]
|
||||
vout = details['vout']
|
||||
|
||||
# Create the txin structure. scriptSig defaults to being empty.
|
||||
# The input is the p2sh funding transaction txid, vout is its index
|
||||
txin = CMutableTxIn(COutPoint(fund_tx, vout))
|
||||
|
||||
# Create the txout. Pays out to recipient, so uses recipient's pubkey
|
||||
# Withdraw full amount minus fee
|
||||
default_fee = 0.001*COIN
|
||||
txout = CMutableTxOut(amount - default_fee, recipientpubkey.to_scriptPubKey())
|
||||
|
||||
# Create the unsigned raw transaction.
|
||||
tx = CMutableTransaction([txin], [txout])
|
||||
|
||||
# Calculate the signature hash for that transaction. Note how the script we use
|
||||
# is the redeemScript, not the scriptPubKey. EvalScript() will be evaluating the redeemScript
|
||||
sighash = SignatureHash(txin_redeemScript, tx, 0, SIGHASH_ALL)
|
||||
|
||||
# Now sign it. We have to append the type of signature we want to the end, in
|
||||
# this case the usual SIGHASH_ALL.
|
||||
sig = seckey.sign(sighash) + bytes([SIGHASH_ALL])
|
||||
|
||||
# Set the scriptSig of our transaction input appropriately.
|
||||
txin.scriptSig = CScript([ sig, seckey.pub, preimage, OP_TRUE, txin_redeemScript])
|
||||
|
||||
print("Redeem tx hex:", b2x(tx.serialize()))
|
||||
|
||||
# Verify the signature worked.
|
||||
VerifyScript(txin.scriptSig, txin_scriptPubKey, tx, 0, (SCRIPT_VERIFY_P2SH,))
|
||||
|
||||
print("Now sending redeem transaction.......")
|
||||
txid = proxy.sendrawtransaction(tx)
|
||||
print("Txid of submitted redeem tx: ", b2x(txid))
|
Loading…
Reference in New Issue