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117 lines
4.3 KiB
Plaintext
117 lines
4.3 KiB
Plaintext
--------------------------------------------------
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BIP: 11
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Title: M-of-N Standard Transactions
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Author: Gavin Andresen <gavinandresen@gmail.com>
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Status: Accepted
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Type: Standards Track
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Created: 2011-10-18
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Post-History: 2011-10-02
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--------------------------------------------------
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[[abstract]]
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Abstract
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~~~~~~~~
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This BIP proposes M-of-N-signatures required transactions as a new
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'standard' transaction type.
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[[motivation]]
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Motivation
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~~~~~~~~~~
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Enable secured wallets, escrow transactions, and other use cases where
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redeeming funds requires more than a single signature.
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A couple of motivating use cases:
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* A wallet secured by a "wallet protection service" (WPS). 2-of-2
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signatures required transactions will be used, with one signature coming
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from the (possibly compromised) computer with the wallet and the second
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signature coming from the WPS. When sending protected bitcoins, the
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user's bitcoin client will contact the WPS with the proposed transaction
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and it can then contact the user for confirmation that they initiated
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the transaction and that the transaction details are correct. Details
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for how clients and WPS's communicate are outside the scope of this BIP.
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Side note: customers should insist that their wallet protection service
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provide them with copies of the private key(s) used to secure their
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wallets that they can safely store off-line, so that their coins can be
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spent even if the WPS goes out of business.
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* Three-party escrow (buyer, seller and trusted dispute agent). 2-of-3
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signatures required transactions will be used. The buyer and seller and
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agent will each provide a public key, and the buyer will then send coins
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into a 2-of-3 CHECKMULTISIG transaction and send the seller and the
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agent the transaction id. The seller will fulfill their obligation and
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then ask the buyer to co-sign a transaction ( already signed by seller )
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that sends the tied-up coins to him (seller). +
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If the buyer and seller cannot agree, then the agent can, with the
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cooperation of either buyer or seller, decide what happens to the
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tied-up coins. Details of how buyer, seller, and agent communicate to
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gather signatures or public keys are outside the scope of this BIP.
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[[specification]]
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Specification
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~~~~~~~~~~~~~
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A new standard transaction type (scriptPubKey) that is relayed by
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clients and included in mined blocks:
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` m {pubkey}...{pubkey} n OP_CHECKMULTISIG`
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But only for n less than or equal to 3.
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OP_CHECKMULTISIG transactions are redeemed using a standard scriptSig:
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` OP_0 ...signatures...`
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(OP_0 is required because of a bug in OP_CHECKMULTISIG; it pops one too
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many items off the execution stack, so a dummy value must be placed on
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the stack).
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The current Satoshi bitcoin client does not relay or mine transactions
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with scriptSigs larger than 200 bytes; to accomodate 3-signature
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transactions, this will be increased to 500 bytes.
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[[rationale]]
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Rationale
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~~~~~~~~~
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OP_CHECKMULTISIG is already an enabled opcode, and is the most
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straightforward way to support several important use cases.
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One argument against using OP_CHECKMULTISIG is that old clients and
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miners count it as "20 sigops" for purposes of computing how many
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signature operations are in a block, and there is a hard limit of 20,000
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sigops per block-- meaning a maximum of 1,000 multisig transactions per
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block. Creating multisig transactions using multiple OP_CHECKSIG
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operations allows more of them per block.
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The counter-argument is that these new multi-signature transactions will
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be used in combination with OP_EVAL (see the OP_EVAL BIP), and *will* be
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counted accurately. And in any case, as transaction volume rises the
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hard-coded maximum block size will have to be addressed, and the rules
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for counting number-of-signature-operations-in-a-block can be addressed
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at that time.
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A weaker argument is OP_CHECKMULTISIG should not be used because it pops
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one too many items off the stack during validation. Adding an extra OP_0
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placeholder to the scriptSig adds only 1 byte to the transaction, and
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any alternative that avoids OP_CHECKMULTISIG adds at least several bytes
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of opcodes.
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[[implementation]]
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Implementation
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~~~~~~~~~~~~~~
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OP_CHECKMULTISIG is already supported by old clients and miners as a
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non-standard transaction type.
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https://github.com/gavinandresen/bitcoin-git/tree/op_eval
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[[post-history]]
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Post History
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~~~~~~~~~~~~
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* https://bitcointalk.org/index.php?topic=46538[OP_EVAL proposal]
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