BIP: 322
Layer: Applications
Title: Generic Signed Message Format
Author: Karl-Johan Alm
Comments-Summary: No comments yet.
Comments-URI: https://github.com/bitcoin/bips/wiki/Comments:BIP-0322
Status: Draft
Type: Standards Track
Created: 2018-09-10
License: CC0-1.0
== Abstract ==
A standard for interoperable generic signed messages based on the Bitcoin Script format.
== Motivation ==
The current message signing standard only works for P2PKH (1...) addresses. By extending it to use a Bitcoin Script based approach, it could be made more generic without causing a too big burden on implementers, who most likely have access to Bitcoin Script interpreters already.
== Specification ==
A new structure SignatureProof is added, which is a simple serializable scriptSig & witness container.
Two actions "Sign" and "Verify" are defined along with one ''purpose'', "SignMessage", with the ability to expand in the future to add a potential "ProveFunds" purpose.
=== SignatureProof container ===
{|class="wikitable" style="text-align: center;"
|-
!Type
!Length
!Name
!Comment
|-
|Uint32||4||version||BIP322 version format; must be equal to 1; if > 1, verifier must abort the verification process
|-
|Uint8||1||entries||number of proof entries[Why support multiple proofs? It is non-trivial to check a large number of individual proofs for duplicates. Software could be written to do so, but it seems more efficient to build this check into the specification itself.]
|}
The above is followed by [entries] number of signature entries:
{|class="wikitable" style="text-align: center;"
|-
!Type
!Length
!Name
!Comment
|-
|VarInt||1-8||scriptsiglen||Number of bytes in scriptSig data
|-
|Uint8*||[scriptsiglen]||scriptsig||ScriptSig data
|-
|VarInt||1-8||witlen||Number of entries in witness stack
|-
|Uint8[]*||[witlen]||wit||Witness stack, as [witlen] uint8* vectors, each one prepended with a varint of its size
|}
In some cases, the scriptsig or wit may be empty. If both are empty, the proof is incomplete.
=== Result Codes ===
A verification call will return a result code according to the table below.
{|class="wikitable" style="text-align: center;"
|-
!Code
!Description
|-
|INCOMPLETE||One or several of the given challenges had an empty proof. The prover may need some other entity to complete the proof.
|-
|INCONCLUSIVE||One or several of the given proofs was consensus-valid but policy-invalid.
|-
|VALID||All proofs were deemed valid.
|-
|INVALID||One or more of the given proofs were invalid
|-
|ERROR||An error was encountered
|}
== Signing and Verifying ==
If the challenge consists of a single address and the address is in the P2PKH (legacy) format, sign using the legacy format (further information below). Otherwise continue as stated below.
Let there be an empty set inputs which is populated and tested at each call to one of the actions below.
=== Purpose: SignMessage ===
The "SignMessage" purpose generates a sighash based on a scriptPubKey and a message. It emits a VALID verification result code unless otherwise stated.
# Return INVALID if scriptPubKey already exists in inputs set, otherwise insert it[Why track duplicates? Because a 3-entry proof is not proving 3 entries unless they are all distinct]
# Define the message pre-image as the sequence "Bitcoin Signed Message:\n" concatenated with the message, encoded in UTF-8 using Normalization Form Compatibility Decomposition (NFKD)
# Let sighash = sha256(sha256(scriptPubKey || pre-image))
A private key may be used directly to sign a message. In this case, its P2WPKH bech32 address shall be derived, and used as the input.
=== Action: Sign ===
The "Sign" action takes as input a purpose. It returns a signature or fails.
# Obtain the sighash and scriptPubKey from the purpose; FAIL if not VALID
# Derive the private key privkey for the scriptPubKey; FAIL if not VALID
# Generate and return a signature sig with privkey=privkey, sighash=sighash
The resulting signature proof should be encoded using base64 encoding.
=== Action: Verify ===
The "Verify" action takes as input a standard flags value, a script sig, an optional witness, and a purpose.
It emits one of INCONCLUSIVE, VALID, INVALID, or ERROR.
# Obtain the sighash and scriptPubKey from the purpose; pass on result code if not VALID
# Verify Script with flags=consensus flags (currently P2SH, DERSIG, NULLDUMMY, CLTV, CSV, WITNESS), scriptSig=script sig, scriptPubKey=scriptPubKey, witness=witness, and sighash=sighash
# Return INVALID if verification fails
# Verify Script with flags=standard flags (above plus STRICTENC, MINIMALDATA, etc.), scriptSig=script sig, scriptPubKey=scriptPubKey, witness=witness, and sighash=sighash
# Return VALID if verification succeeds, otherwise return INCONCLUSIVE
=== Multiple Proofs ===
When more than one proof is created or verified, repeat the operation for each proof, retaining the inputs set. As noted, if the same input appears more than once, the operation must fail accordingly.
Note that the order of the entries in the proof must match the order of the entries given by the verifier.
* If any of the proofs are empty during a verification process, skip the verification and set the INCOMPLETE flag
* If a verification call returns ERROR or INVALID, return ERROR or INVALID immediately, ignoring as yet unverified entries
* After all verifications complete,
** return INCONCLUSIVE if any verification call returned INCONCLUSIVE
** return INCOMPLETE if the INCOMPLETE flag is set
** return VALID
== Legacy format ==
The legacy format is restricted to the legacy P2PKH address format, and restricted to one single challenge (address).
Any other input (e.g. multiple addresses, or non-P2PKH address format(s)) must be signed using the new format described above.
=== Signing ===
Given the P2PKH address a and the message m, and the pubkey-hash function pkh(P) = ripemd160(sha256(P)):
# let p be the pubkey-hash pkh(P) for the pubkey P, contained in a
# let x be the private key associated with P so that pkh(xG) = p
# let digest be SHA56d("Bitcoin Signed Message:\n"||m)
# create a compact signature sig (aka "recoverable ECDSA signature") using x on digest
The resulting proof is sig, serialized using the base64 encoding.
=== Verifying ===
Given the P2PKH address a, the message m, the compact signature sig, and the pubkey-hash function pkh(P) = ripemd160(sha256(P)):
# let p be the pubkey-hash pkh(P) for the pubkey P, contained in a
# let digest be SHA56d("Bitcoin Signed Message:\n"||m)
# attempt pubkey recovery for digest using the signature sig and store the resulting pubkey into Q
## fail verification if pubkey recovery above fails
# let q be the pubkey-hash pkh(Q) for the pubkey Q
# if p == q, the proof is valid, otherwise it is invalid
== Compatibility ==
This specification is backwards compatible with the legacy signmessage/verifymessage specification through the special case as described above.
== Rationale ==
== Reference implementation ==
# Pull request to Bitcoin Core: https://github.com/bitcoin/bitcoin/pull/16440
== Acknowledgements ==
Thanks to David Harding, Jim Posen, Kalle Rosenbaum, Pieter Wuille, and many others for their feedback on the specification.
== References ==
# Original mailing list thread: https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2018-March/015818.html
== Copyright ==
This document is licensed under the Creative Commons CC0 1.0 Universal license.
== Consensus and standard flags ==
Each flag is associated with some type of enforced rule (most often a soft fork). There are two sets of flags: consensus flags (which result in a block being rejected, if violated), and policy flags (which result in a transaction being accepted only if it is contained within an actual block, and rejected otherwise, if violated). The policy flags are a super-set of the consensus flags.
BIP322 specifies that a proof that validates for both rulesets is valid, a proof that validates for consensus rules, but not for policy rules, is "inconclusive", and a proof that does not validate for consensus rules is "invalid" (regardless of policy rule validation).
The ruleset sometimes changes. This BIP does not intend to be complete, nor does it indicate enforcement of rules, it simply lists the rules as they stand at the point of writing.
=== Consensus rules ===
* P2SH: evaluate P2SH ([https://github.com/bitcoin/bips/blob/master/bip-0016.mediawiki BIP16]) subscripts
* DERSIG: enforce strict DER ([https://github.com/bitcoin/bips/blob/master/bip-0066.mediawiki BIP66]) compliance
* NULLDUMMY: enforce NULLDUMMY ([https://github.com/bitcoin/bips/blob/master/bip-0147.mediawiki BIP147])
* CHECKLOCKTIMEVERIFY: enable CHECKLOCKTIMEVERIFY ([https://github.com/bitcoin/bips/blob/master/bip-0065.mediawiki BIP65])
* CHECKSEQUENCEVERIFY: enable CHECKSEQUENCEVERIFY ([https://github.com/bitcoin/bips/blob/master/bip-0112.mediawiki BIP112])
* WITNESS: enable WITNESS ([https://github.com/bitcoin/bips/blob/master/bip-0141.mediawiki BIP141])
=== Policy rules ===
All of the above, plus (subject to change):
* STRICTENC: non-strict DER signature or undefined hashtype
* MINIMALDATA: require minimal encodings for all push operations
* DISCOURAGE_UPGRADABLE_NOPS: discourage use of NOPs reserved for upgrades
* CLEANSTACK: require that only a single stack element remains after evaluation
* MINIMALIF: Segwit script only: require the argument of OP_IF/NOTIF to be exactly 0x01 or empty vector
* NULLFAIL: signature(s) must be empty vector if a CHECK(MULTI)SIG operation failed
* LOW_S: signature with S > order/2 in a checksig operation
* DISCOURAGE_UPGRADABLE_WITNESS_PROGRAM: v1-16 witness programs are non-standard (i.e. forbidden)
* WITNESS_PUBKEYTYPE: public keys in segregated witness scripts must be compressed
* CONST_SCRIPTCODE: OP_CODESEPARATOR and FindAndDelete fail any non-segwit scripts
== Test vectors ==
== Native segwit test vector ==
* address = bcrt1qe7nte4zk4ayly5tc53dtdjupgkz0lr8azx3rzz
* message = hello
* sighash = 790eef86c204f0bff969ff822121317aa34eff0215dbd30ccf031e7b2f3f0cc1 (sha256d("Bitcoin Signed Message:\n:hello"))
A possible proof is:
* HEX: 01000000010002473044022075b4fb40421d55c55462879cb352a85eeb3af2138d3f02902c9143f12870f5f70220119c2995c1661138142f3899c1fd6d1af7e790e0e081be72db9ce7bf5b5b932901210290beccd02b73eca57467b2b6f1e47161a9b76a5e67586e7c1dee9ea6e2dcd869
* Base64: AQAAAAEAAkcwRAIgdbT7QEIdVcVUYoecs1KoXus68hONPwKQLJFD8Shw9fcCIBGcKZXBZhE4FC84mcH9bRr355Dg4IG+ctuc579bW5MpASECkL7M0Ctz7KV0Z7K28eRxYam3al5nWG58He6epuLc2Gk=
Split into components:
{|class="wikitable" style="text-align: center;"
|-
!Type
!Length
!Name
!Value
!Comment
|-
|Uint32||4||flags||01000000||proof format version
|-
|Uint8||1||entries||01||1 entry
|-
|VarInt||1-8||scriptsiglen||00||0 byte scriptsig
|-
|VarInt||1-8||wit entries||02||2 witness stack entries
|-
|VarInt||1-8||entry1len||47||71 byte entry
|-
|Uint8[71]||71||entry1||3044022075b4fb40421d55c55462879cb352a85eeb3af213
8d3f02902c9143f12870f5f70220119c2995c1661138142f
3899c1fd6d1af7e790e0e081be72db9ce7bf5b5b932901||Witness stack item 1
|-
|VarInt||1-8||entry2len||21||33 byte entry
|-
|Uint8[33]||33||entry2||0290beccd02b73eca57467b2b6f1e47161a9b76a5e67586e
7c1dee9ea6e2dcd869||Witness stack item 2
|}
The above test vector is for a bech32 P2WPKH (native segwit) address. (Once BIP solidifies, will add test vector for other types.)