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Edited ch06.asciidoc with Atlas code editor
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@ -521,15 +521,15 @@ A digital signature is a _mathematical scheme_ that consists of two parts. The f
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In bitcoin's implementation of the ECDSA algorithm, the "message" being signed is the transaction, or more accurately a hash of a specific subset of the data in the transaction (see <<sighash_types>>). The signing key is the user's private key. The result is the signature:
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In bitcoin's implementation of the ECDSA algorithm, the "message" being signed is the transaction, or more accurately a hash of a specific subset of the data in the transaction (see <<sighash_types>>). The signing key is the user's private key. The result is the signature:
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latexmath:[\(Sig = F_sig(F_hash(m), dA\)]
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latexmath:[\(Sig = F_{sig}(F_{hash}(m), dA\)]
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where:
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where:
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* dA is the signing private key
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* _dA_ is the signing private key
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* m is the transaction (or parts of it)
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* _m_ is the transaction (or parts of it)
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* F~hash~ is the hashing function
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* _F_~hash~ is the hashing function
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* F~sig~ is the signing algorithm
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* _F_~sig~ is the signing algorithm
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* Sig is the resulting signature
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* _Sig_ is the resulting signature
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More details on the mathematics of ECDSA can be found in <<ecdsa_math>>.
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More details on the mathematics of ECDSA can be found in <<ecdsa_math>>.
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