Python CMutableTxIn.scriptSig Exemples

Langage de programmation: Python

Espace de nommage/Pack: bitcointx.core

Class/Type: CMutableTxIn

Méthode/Fonction: scriptSig

Exemples au hotexamples.com: 2

Python CMutableTxIn.scriptSig - 2 exemples trouvés. Ce sont les exemples réels les mieux notés de bitcointx.core.CMutableTxIn.scriptSig extraits de projets open source. Vous pouvez noter les exemples pour nous aider à en améliorer la qualité.

Méthodes fréquemment utilisées

Afficher Cacher

CMutableTxIn(16)

scriptSig(2)

GetHash(1)

clone(1)

serialize(1)

Méthodes fréquemment utilisées

CMutableTxIn (16)

scriptSig (2)

GetHash (1)

clone (1)

serialize (1)

Exemple #1

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txin_scriptPubKey = \ P2PKHBitcoinAddress.from_pubkey(seckey.pub).to_scriptPubKey() # Create the txout. This time we create the scriptPubKey from a Bitcoin # address. txout = CMutableTxOut( 0.001 * COIN, CBitcoinAddress('1C7zdTfnkzmr13HfA2vNm5SJYRK6nEKyq8').to_scriptPubKey()) # Create the unsigned transaction. tx = CMutableTransaction([txin], [txout]) # Calculate the signature hash for that transaction. sighash = SignatureHash(txin_scriptPubKey, 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]) # Verify the signature worked. This calls EvalScript() and actually executes # the opcodes in the scripts to see if everything worked out. If it doesn't an # exception will be raised. VerifyScript(txin.scriptSig, txin_scriptPubKey, tx, 0) # Done! Print the transaction to standard output with the bytes-to-hex # function. print(b2x(tx.serialize()))

Exemple #2

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Fichier : spend-p2sh-txout.py Projet : genme/python-bitcointx

CBitcoinAddress( '323uf9MgLaSn9T7vDaK1cGAZ2qpvYUuqSp' ).to_scriptPubKey()) # Create the unsigned transaction. tx = CMutableTransaction([txin], [txout]) # Calculate the signature hash for that transaction. Note how the script we use # is the redeemScript, not the scriptPubKey. That's because when the CHECKSIG # operation happens EvalScript() will be evaluating the redeemScript, so the # corresponding SignatureHash() function will use that same script when it # replaces the scriptSig in the transaction being hashed with the script being # executed. 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, txin_redeemScript]) # Verify the signature worked. This calls EvalScript() and actually executes # the opcodes in the scripts to see if everything worked out. If it doesn't an # exception will be raised. VerifyScript(txin.scriptSig, txin_scriptPubKey, tx, 0) # Done! Print the transaction to standard output with the bytes-to-hex # function. print(b2x(tx.serialize()))