Difference between revisions of "TXID"
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− | A Transaction ID or TXID is the double SHA256 hash of a | + | A Transaction ID or TXID is the '''double SHA256 hash''' or '''SHA256d''' of a serialized bitcoin [[Bitcoin Transactions|transaction]]. TXIDs are not part of the the transaction, as the hash cannot be generated until the transaction is complete. A TXID and VOUT (or ''prevout_n'') index are used to reference [[UTXO|UTXOs]] when they are added to a transaction as an input. |
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==Data== | ==Data== | ||
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===Explanation=== | ===Explanation=== | ||
− | The double SHA256 hash | + | The double SHA256 hash enables users to identify and communicate transactions efficiently. In the case of the [[Protocol|peer-to-peer protocol]] a peer communicates transaction data to another peer using a 3 message sequence. The first message is an ''inv'' message containing a transaction id. To request the full transaction the corresponding peer is responds to with a ''gettransaction'' message containing the transaction id. This is followed by a ''tx'' message containing the full serialized transaction. As a result, ''inv'' messages |
− | The double hash property can be used in another interesting way . | + | The double hash property can be used in another interesting way. the user can know that a corresponding party has a copy of the full TX by requesting the intermediate hash, which can only be generated by hashing the full transaction. This 'proof of possession' is present across Bitcoin and enables complex functionality and checking of resources when Bitcoin is being used in a fully peer to peer environment. |
Revision as of 17:24, 9 January 2020
A Transaction ID or TXID is the double SHA256 hash or SHA256d of a serialized bitcoin transaction. TXIDs are not part of the the transaction, as the hash cannot be generated until the transaction is complete. A TXID and VOUT (or prevout_n) index are used to reference UTXOs when they are added to a transaction as an input.
Data
transaction: { "inputs": [ { "prevout_hash": "b8ed28aa87b92328e26a20553ac49fcb21e1f68daeb6cf7bcf4536e40503ffa8", "prevout_n": 0, "scriptSig": "4830450221008824eee04a2fbe62d2c3ee330eb2523b2c0188240714bb1d893aced1c454fa9a02202d32dbccc2af1c4b 830795f2fa8cd569a06ee70cb9d836bbd510f0b45a47711b4121028580686976c0e6a7e44a78387913e2d7508ff2344d 5f48669ba111dcd04170a8", "sequence": 4294967294, } ], "lockTime": 598793, "outputs": [ { "scriptPubKey": "76a9146b0a9ed05da7223a1fe57e1a4d307556f7d6200788ac", "value": 1800 }, { "scriptPubKey": "76a914b993e512cb186f3f1c3f556a09716a1580eb99a188ac", "value": 90000 } ], } serialized transaction: "0100000001a8ff0305e43645cf7bcfb6ae8df6e121cb9fc43a55206ae22823b987aa28edb8000000006b4830450221008824 eee04a2fbe62d2c3ee330eb2523b2c0188240714bb1d893aced1c454fa9a02202d32dbccc2af1c4b830795f2fa8cd569a06e e70cb9d836bbd510f0b45a47711b4121028580686976c0e6a7e44a78387913e2d7508ff2344d5f48669ba111dcd04170a8fe ffffff0208070000000000001976a9146b0a9ed05da7223a1fe57e1a4d307556f7d6200788ac905f0100000000001976a914 b993e512cb186f3f1c3f556a09716a1580eb99a188ac09230900" transaction id: "d8c5c42cbd1df7e48acab76fe05f2c9e612a20996fd37f4ffd4dc251385b6ba3"
Explanation
The double SHA256 hash enables users to identify and communicate transactions efficiently. In the case of the peer-to-peer protocol a peer communicates transaction data to another peer using a 3 message sequence. The first message is an inv message containing a transaction id. To request the full transaction the corresponding peer is responds to with a gettransaction message containing the transaction id. This is followed by a tx message containing the full serialized transaction. As a result, inv messages
The double hash property can be used in another interesting way. the user can know that a corresponding party has a copy of the full TX by requesting the intermediate hash, which can only be generated by hashing the full transaction. This 'proof of possession' is present across Bitcoin and enables complex functionality and checking of resources when Bitcoin is being used in a fully peer to peer environment.