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430 lines
17 KiB
Plaintext
--------------------------------------------------
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BIP: 70
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Title: Payment Protocol
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Author: Gavin Andresen <gavinandresen@gmail.com>
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Status: Draft
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Type: Standards Track
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Created: 2013-07-29
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--------------------------------------------------
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[[abstract]]
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Abstract
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~~~~~~~~
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This BIP describes a protocol for communication between a merchant and
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their customer, enabling both a better customer experience and better
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security against man-in-the-middle attacks on the payment process.
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[[motivation]]
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Motivation
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~~~~~~~~~~
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The current, minimal Bitcoin payment protocol operates as follows:
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1. Customer adds items to an online shopping basket, and decides to pay
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using Bitcoin.
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2. Merchant generates a unique payment address, associates it with the
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customer's order, and asks the customer to pay.
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3. Customer copies the Bitcoin address from the merchant's web page and
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pastes it into whatever wallet they are using OR follows a bitcoin: link
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and their wallet is launched with the amount to be paid.
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4. Customer authorizes payment to the merchant's address and broadcasts
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the transaction through the Bitcoin p2p network.
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5. Merchant's server detects payment and after sufficient transaction
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confirmations considers the transaction final.
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This BIP extends the above protocol to support several new features:
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1. Human-readable, secure payment destinations-- customers will be
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asked to authorize payment to "example.com" instead of an inscrutable,
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34-character bitcoin address.
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2. Secure proof of payment, which the customer can use in case of a
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dispute with the merchant.
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3. Resistance from man-in-the-middle attacks that replace a merchant's
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bitcoin address with an attacker's address before a transaction is
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authorized with a hardware wallet.
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4. Payment received messages, so the customer knows immediately that
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the merchant has received, and has processed (or is processing) their
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payment.
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5. Refund addresses, automatically given to the merchant by the
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customer's wallet software, so merchants do not have to contact
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customers before refunding overpayments or orders that cannot be
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fulfilled for some reason.
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[[protocol]]
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Protocol
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~~~~~~~~
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This BIP describes payment protocol messages encoded using Google's
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Protocol Buffers, authenticated using X.509 certificates, and
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communicated over http/https. Future BIPs might extend this payment
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protocol to other encodings, PKI systems, or transport protocols.
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The payment protocol consists of three messages; PaymentRequest,
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Payment, and PaymentACK, and begins with the customer somehow indicating
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that they are ready to pay and the merchant's server responding with a
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PaymentRequest message:
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[[messages]]
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Messages
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~~~~~~~~
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The Protocol Buffers messages are defined in
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link:bip-0070/paymentrequest.proto[paymentrequest.proto].
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[[output]]
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Output
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^^^^^^
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Outputs are used in PaymentRequest messages to specify where a payment
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(or part of a payment) should be sent. They are also used in Payment
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messages to specify where a refund should be sent.
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---------------------------------------------
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message Output {
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optional uint64 amount = 1 [default = 0];
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optional bytes script = 2;
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}
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---------------------------------------------
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[cols=",",]
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|=======================================================================
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|amount |Number of satoshis (0.00000001 BTC) to be paid
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|script |a "TxOut" script where payment should be sent. This will
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normally be one of the standard Bitcoin transaction scripts (e.g. pubkey
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OP_CHECKSIG). This is optional to enable future extensions to this
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protocol that derive Outputs from a master public key and the
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PaymentRequest data itself.
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|=======================================================================
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[[paymentdetailspaymentrequest]]
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PaymentDetails/PaymentRequest
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Payment requests are split into two messages to support future
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extensibility. The bulk of the information is contained in the
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PaymentDetails message. It is wrapped inside a PaymentRequest message,
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which contains meta-information about the merchant and a digital
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signature.
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-------------------------------------------------------
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message PaymentDetails {
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optional string network = 1 [default = "main"];
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repeated Output outputs = 2;
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required uint64 time = 3;
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optional uint64 expires = 4;
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optional string memo = 5;
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optional string payment_url = 6;
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optional bytes merchant_data = 7;
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}
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-------------------------------------------------------
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[cols=",",]
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|=======================================================================
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|network |either "main" for payments on the production Bitcoin network,
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or "test" for payments on test network. If a client receives a
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PaymentRequest for a network it does not support it must reject the
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request.
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|outputs |one or more outputs where Bitcoins are to be sent. If the sum
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of outputs.amount is zero, the customer will be asked how much to pay,
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and the bitcoin client may choose any or all of the Outputs (if there
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are more than one) for payment. If the sum of outputs.amount is
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non-zero, then the customer will be asked to pay the sum, and the
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payment shall be split among the Outputs with non-zero amounts (if there
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are more than one; Outputs with zero amounts shall be ignored).
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|time |Unix timestamp (seconds since 1-Jan-1970 UTC) when the
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PaymentRequest was created.
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|expires |Unix timestamp (UTC) after which the PaymentRequest should be
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considered invalid.
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|memo |UTF-8 encoded, plain-text (no formatting) note that should be
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displayed to the customer, explaining what this PaymentRequest is for.
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|payment_url |Secure (usually https) location where a Payment message
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(see below) may be sent to obtain a PaymentACK.
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|merchant_data |Arbitrary data that may be used by the merchant to
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identify the PaymentRequest. May be omitted if the merchant does not
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need to associate Payments with PaymentRequest or if they associate each
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PaymentRequest with a separate payment address.
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|=======================================================================
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The payment_url specified in the PaymentDetails should remain valid at
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least until the PaymentDetails expires (or as long as possible if the
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PaymentDetails does not expire). Note that this is irrespective of any
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state change in the underlying payment request; for example cancellation
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of an order should not invalidate the payment_url, as it is important
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that the merchant's server can record mis-payments in order to refund
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the payment.
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A PaymentRequest is PaymentDetails optionally tied to a merchant's
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identity:
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------------------------------------------------------------------
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message PaymentRequest {
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optional uint32 payment_details_version = 1 [default = 1];
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optional string pki_type = 2 [default = "none"];
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optional bytes pki_data = 3;
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required bytes serialized_payment_details = 4;
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optional bytes signature = 5;
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}
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------------------------------------------------------------------
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[cols=",",]
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|=======================================================================
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|payment_details_version |See below for a discussion of
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versioning/upgrading.
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|pki_type |public-key infrastructure (PKI) system being used to identify
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the merchant. All implementation should support "none", "x509+sha256"
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and "x509+sha1".
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|pki_data |PKI-system data that identifies the merchant and can be used
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to create a digital signature. In the case of X.509 certificates,
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pki_data contains one or more X.509 certificates (see Certificates
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section below).
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|serialized_payment_details |A protocol-buffer serialized PaymentDetails
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message.
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|signature |digital signature over a hash of the protocol buffer
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serialized variation of the PaymentRequest message, with all fields
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serialized in numerical order (all current protocol buffer
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implementations serialize fields in numerical order) and signed using
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the public key in pki_data. Before serialization, the signature field
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must be set to an empty value so that the field is included in the
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signed PaymentRequest hash but contains no data.
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|=======================================================================
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When a Bitcoin wallet application receives a PaymentRequest, it must
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authorize payment by doing the following:
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1. Validate the merchant's identity and signature using the PKI system,
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if the pki_type is not "none".
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2. Validate that customer's system unix time (UTC) is before
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PaymentDetails.expires. If it is not, then the payment request must be
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rejected.
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3. Display the merchant's identity and ask the customer if they would
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like to submit payment (e.g. display the "Common Name" in the first
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X.509 certificate).
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PaymentRequest messages larger than 50,000 bytes should be rejected by
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the wallet application, to mitigate denial-of-service attacks.
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[[payment]]
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Payment
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^^^^^^^
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Payment messages are sent after the customer has authorized payment:
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-----------------------------------------
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message Payment {
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optional bytes merchant_data = 1;
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repeated bytes transactions = 2;
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repeated Output refund_to = 3;
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optional string memo = 4;
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}
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-----------------------------------------
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[cols=",",]
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|=======================================================================
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|merchant_data |copied from PaymentDetails.merchant_data. Merchants may
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use invoice numbers or any other data they require to match Payments to
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PaymentRequests. Note that malicious clients may modify the
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merchant_data, so should be authenticated in some way (for example,
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signed with a merchant-only key).
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|transactions |One or more valid, signed Bitcoin transactions that fully
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pay the PaymentRequest
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|refund_to |One or more outputs where the merchant may return funds, if
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necessary. The merchant may return funds using these outputs for up to 2
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months after the time of the payment request. After that time has
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expired, parties must negotiate if returning of funds becomes necessary.
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|memo |UTF-8 encoded, plain-text note from the customer to the merchant.
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|=======================================================================
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If the customer authorizes payment, then the Bitcoin client:
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1. Creates and signs one or more transactions that satisfy (pay in
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full) PaymentDetails.outputs
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2. Validate that customer's system unix time (UTC) is still before
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PaymentDetails.expires. If it is not, the payment should be cancelled.
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3. Broadcast the transactions on the Bitcoin p2p network.
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4. If PaymentDetails.payment_url is specified, POST a Payment message
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to that URL. The Payment message is serialized and sent as the body of
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the POST request.
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Errors communicating with the payment_url server should be communicated
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to the user. In the scenario where the merchant's server receives
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multiple identical Payment messages for an individual PaymentRequest, it
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must acknowledge each. The second and further PaymentACK messages sent
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from the merchant's server may vary by memo field to indicate current
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state of the Payment (for example number of confirmations seen on the
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network). This is required in order to ensure that in case of a
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transport level failure during transmission, recovery is possible by the
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Bitcoin client re-sending the Payment message.
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PaymentDetails.payment_url should be secure against man-in-the-middle
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attacks that might alter Payment.refund_to (if using HTTP, it must be
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TLS-protected).
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Wallet software sending Payment messages via HTTP must set appropriate
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Content-Type and Accept headers, as specified in BIP 71:
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-----------------------------------------
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Content-Type: application/bitcoin-payment
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Accept: application/bitcoin-paymentack
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-----------------------------------------
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When the merchant's server receives the Payment message, it must
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determine whether or not the transactions satisfy conditions of payment.
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If and only if they do, if should broadcast the transaction(s) on the
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Bitcoin p2p network.
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Payment messages larger than 50,000 bytes should be rejected by the
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merchant's server, to mitigate denial-of-service attacks.
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[[paymentack]]
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PaymentACK
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^^^^^^^^^^
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PaymentACK is the final message in the payment protocol; it is sent from
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the merchant's server to the bitcoin wallet in response to a Payment
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message:
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-------------------------------------
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message PaymentACK {
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required Payment payment = 1;
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optional string memo = 2;
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}
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-------------------------------------
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[cols=",",]
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|=======================================================================
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|payment |Copy of the Payment message that triggered this PaymentACK.
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Clients may ignore this if they implement another way of associating
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Payments with PaymentACKs.
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|memo |UTF-8 encoded note that should be displayed to the customer
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giving the status of the transaction (e.g. "Payment of 1 BTC for eleven
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tribbles accepted for processing.")
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|=======================================================================
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PaymentACK messages larger than 60,000 bytes should be rejected by the
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wallet application, to mitigate denial-of-service attacks. This is
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larger than the limits on Payment and PaymentRequest messages as
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PaymentACK contains a full Payment message within it.
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[[localization]]
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Localization
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~~~~~~~~~~~~
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Merchants that support multiple languages should generate
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language-specific PaymentRequests, and either associate the language
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with the request or embed a language tag in the request's merchant_data.
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They should also generate a language-specific PaymentACK based on the
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original request.
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For example: A greek-speaking customer browsing the Greek version of a
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merchant's website clicks on a "Αγορά τώρα" link, which generates a
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PaymentRequest with merchant_data set to "lang=el&basketId=11252". The
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customer pays, their bitcoin client sends a Payment message, and the
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merchant's website responds with PaymentACK.message "σας ευχαριστούμε".
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[[certificates]]
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Certificates
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~~~~~~~~~~~~
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The default PKI system is X.509 certificates (the same system used to
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authenticate web servers). The format of pki_data when pki_type is
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"x509+sha256" or "x509+sha1" is a protocol-buffer-encoded certificate
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chain:
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---------------------------------------
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message X509Certificates {
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repeated bytes certificate = 1;
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}
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---------------------------------------
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If pki_type is "x509+sha256", then the PaymentRequest message is hashed
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using the SHA256 algorithm to produce the message digest that is signed.
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If pki_type is "x509+sha1", then the SHA1 algorithm is used.
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Each certificate is a DER [ITU.X690.1994] PKIX certificate value. The
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certificate containing the public key of the entity that digitally
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signed the PaymentRequest must be the first certificate. This MUST be
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followed by additional certificates, with each subsequent certificate
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being the one used to certify the previous one, up to (but not
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including) a trusted root authority. The trusted root authority MAY be
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included. The recipient must verify the certificate chain according to
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[RFC5280] and reject the PaymentRequest if any validation failure
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occurs.
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Trusted root certificates may be obtained from the operating system; if
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validation is done on a device without an operating system, the
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http://www.mozilla.org/projects/security/certs/included/index.html[Mozilla
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root store] is recommended.
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[[extensibility]]
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Extensibility
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~~~~~~~~~~~~~
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The protocol buffers serialization format is designed to be extensible.
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In particular, new, optional fields can be added to a message and will
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be ignored (but saved/re-transmitted) by old implementations.
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PaymentDetails messages may be extended with new optional fields and
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still be considered "version 1." Old implementations will be able to
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validate signatures against PaymentRequests containing the new fields,
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but (obviously) will not be able to display whatever information is
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contained in the new, optional fields to the user.
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If it becomes necessary at some point in the future for merchants to
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produce PaymentRequest messages that are accepted *only* by new
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implementations, they can do so by defining a new PaymentDetails message
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with version=2. Old implementations should let the user know that they
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need to upgrade their software when they get an up-version
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PaymentDetails message.
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Implementations that need to extend messages in this specification shall
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use tags starting at 1000, and shall update the
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link:bip-0070/extensions.mediawiki[extensions page] via pull-req to
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avoid conflicts with other extensions.
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[[references]]
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References
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~~~~~~~~~~
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link:bip-0071.mediawiki[BIP 0071] : Payment Protocol mime types
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link:bip-0072.mediawiki[BIP 0072] : Payment Protocol bitcoin: URI
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extensions
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Public-Key Infrastructure (X.509) working group :
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http://datatracker.ietf.org/wg/pkix/charter/
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Protocol Buffers : https://developers.google.com/protocol-buffers/
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[[see-also]]
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See Also
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~~~~~~~~
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Javascript Object Signing and Encryption working group :
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http://datatracker.ietf.org/wg/jose/
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Wikipedia's page on Invoices: http://en.wikipedia.org/wiki/Invoice
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especially the list of Electronic Invoice standards
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sipa's payment protocol proposal: https://gist.github.com/1237788
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ThomasV's "Signed Aliases" proposal : http://ecdsa.org/bitcoin_URIs.html
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Homomorphic Payment Addresses and the Pay-to-Contract Protocol :
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http://arxiv.org/abs/1212.3257
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