Merge pull request #413 from stevenroose/message-signature
Add MessageSignature type for dealing with signed messages
This commit is contained in:
commit
e7980ac8a5
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@ -12,18 +12,21 @@ readme = "README.md"
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[features]
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default = [ "secp-recovery" ]
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base64 = [ "base64-compat" ]
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fuzztarget = ["secp256k1/fuzztarget", "bitcoin_hashes/fuzztarget"]
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unstable = []
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rand = ["secp256k1/rand-std"]
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use-serde = ["serde", "bitcoin_hashes/serde", "secp256k1/serde"]
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secp-recovery = ["secp256k1/recovery"]
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secp-endomorphism = ["secp256k1/endomorphism"]
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secp-lowmemory = ["secp256k1/lowmemory"]
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secp-recovery = ["secp256k1/recovery"]
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[dependencies]
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base64-compat = { version = "1.0.0", optional = true }
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bech32 = "0.7.2"
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bitcoin_hashes = "0.9.0"
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secp256k1 = "0.19.0"
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secp256k1 = { version = "0.19.0", features = [ "recovery" ] }
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bitcoinconsensus = { version = "0.19.0-1", optional = true }
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serde = { version = "1", optional = true }
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@ -32,6 +35,6 @@ serde = { version = "1", optional = true }
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serde_derive = "<1.0.99"
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serde_json = "<1.0.45"
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serde_test = "1"
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secp256k1 = { version = "0.19.0", features = ["rand-std"] }
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secp256k1 = { version = "0.19.0", features = [ "recovery", "rand-std" ] }
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# We need to pin ryu (transitive dep from serde_json) to stay compatible with Rust 1.22.0
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ryu = "<1.0.5"
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@ -1,6 +1,6 @@
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#!/bin/sh -ex
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FEATURES="bitcoinconsensus use-serde rand"
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FEATURES="base64 bitcoinconsensus use-serde rand"
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if [ "$DO_COV" = true ]
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then
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@ -15,6 +15,8 @@ then
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fi
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# Test without any features first
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cargo test --verbose --no-default-features
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# Then test with the default features
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cargo test --verbose
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# Test each feature
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@ -40,6 +40,7 @@
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#[macro_use] pub extern crate bitcoin_hashes as hashes;
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pub extern crate secp256k1;
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pub extern crate bech32;
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#[cfg(feature = "base64")] pub extern crate base64;
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#[cfg(feature="bitcoinconsensus")] extern crate bitcoinconsensus;
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#[cfg(feature = "serde")] extern crate serde;
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206
src/util/misc.rs
206
src/util/misc.rs
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@ -17,11 +17,184 @@
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//! Various utility functions
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use hashes::{sha256d, Hash, HashEngine};
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use blockdata::opcodes;
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use consensus::{encode, Encodable};
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#[cfg(feature = "secp-recovery")]
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pub use self::message_signing::{MessageSignature, MessageSignatureError};
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static MSG_SIGN_PREFIX: &[u8] = b"\x18Bitcoin Signed Message:\n";
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#[cfg(feature = "secp-recovery")]
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mod message_signing {
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use std::{error, fmt};
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use hashes::sha256d;
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use secp256k1;
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use secp256k1::recovery::{RecoveryId, RecoverableSignature};
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use util::key::PublicKey;
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use util::address::{Address, AddressType};
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/// An error used for dealing with Bitcoin Signed Messages.
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#[derive(Debug, PartialEq, Eq)]
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pub enum MessageSignatureError {
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/// Signature is expected to be 65 bytes.
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InvalidLength,
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/// The signature is invalidly constructed.
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InvalidEncoding(secp256k1::Error),
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/// Invalid base64 encoding.
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InvalidBase64,
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}
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impl fmt::Display for MessageSignatureError {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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match *self {
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MessageSignatureError::InvalidLength => write!(f, "length not 65 bytes"),
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MessageSignatureError::InvalidEncoding(ref e) => write!(f, "invalid encoding: {}", e),
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MessageSignatureError::InvalidBase64 => write!(f, "invalid base64"),
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}
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}
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}
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impl error::Error for MessageSignatureError {
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fn cause(&self) -> Option<&dyn error::Error> {
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match *self {
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MessageSignatureError::InvalidEncoding(ref e) => Some(e),
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_ => None,
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}
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}
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}
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#[doc(hidden)]
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impl From<secp256k1::Error> for MessageSignatureError {
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fn from(e: secp256k1::Error) -> MessageSignatureError {
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MessageSignatureError::InvalidEncoding(e)
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}
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}
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/// A signature on a Bitcoin Signed Message.
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///
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/// In order to use the `to_base64` and `from_base64` methods, as well as the
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/// `fmt::Display` and `str::FromStr` implementations, the `base64` feature
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/// must be enabled.
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#[derive(Copy, Clone, PartialEq, Eq, Debug)]
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pub struct MessageSignature {
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/// The inner recoverable signature.
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pub signature: RecoverableSignature,
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/// Whether or not this signature was created with a compressed key.
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pub compressed: bool,
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}
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impl MessageSignature {
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/// Create a new [MessageSignature].
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pub fn new(signature: RecoverableSignature, compressed: bool) -> MessageSignature {
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MessageSignature {
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signature: signature,
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compressed: compressed,
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}
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}
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/// Serialize to bytes.
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pub fn serialize(&self) -> [u8; 65] {
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let (recid, raw) = self.signature.serialize_compact();
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let mut serialized = [0u8; 65];
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serialized[0] = 27;
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serialized[0] += recid.to_i32() as u8;
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if self.compressed {
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serialized[0] += 4;
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}
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serialized[1..].copy_from_slice(&raw[..]);
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serialized
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}
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/// Create from a byte slice.
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pub fn from_slice(bytes: &[u8]) -> Result<MessageSignature, MessageSignatureError> {
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if bytes.len() != 65 {
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return Err(MessageSignatureError::InvalidLength);
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}
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// We just check this here so we can safely subtract further.
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if bytes[0] < 27 {
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return Err(MessageSignatureError::InvalidEncoding(secp256k1::Error::InvalidRecoveryId));
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};
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let recid = RecoveryId::from_i32(((bytes[0] - 27) & 0x03) as i32)?;
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Ok(MessageSignature {
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signature: RecoverableSignature::from_compact(&bytes[1..], recid)?,
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compressed: ((bytes[0] - 27) & 0x04) != 0,
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})
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}
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/// Attempt to recover a public key from the signature and the signed message.
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///
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/// To get the message hash from a message, use [signed_msg_hash].
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pub fn recover_pubkey<C: secp256k1::Verification>(
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&self,
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secp_ctx: &secp256k1::Secp256k1<C>,
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msg_hash: sha256d::Hash
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) -> Result<PublicKey, secp256k1::Error> {
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let msg = secp256k1::Message::from_slice(&msg_hash[..])?;
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let pubkey = secp_ctx.recover(&msg, &self.signature)?;
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Ok(PublicKey {
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key: pubkey,
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compressed: self.compressed,
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})
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}
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/// Verify that the signature signs the message and was signed by the given address.
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///
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/// To get the message hash from a message, use [signed_msg_hash].
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pub fn is_signed_by_address<C: secp256k1::Verification>(
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&self,
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secp_ctx: &secp256k1::Secp256k1<C>,
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address: &Address,
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msg_hash: sha256d::Hash
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) -> Result<bool, secp256k1::Error> {
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let pubkey = self.recover_pubkey(&secp_ctx, msg_hash)?;
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Ok(match address.address_type() {
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Some(AddressType::P2pkh) => {
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*address == Address::p2pkh(&pubkey, address.network)
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}
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Some(AddressType::P2sh) => false,
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Some(AddressType::P2wpkh) => false,
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Some(AddressType::P2wsh) => false,
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None => false,
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})
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}
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#[cfg(feature = "base64")]
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/// Convert a signature from base64 encoding.
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pub fn from_base64(s: &str) -> Result<MessageSignature, MessageSignatureError> {
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let bytes = ::base64::decode(s).map_err(|_| MessageSignatureError::InvalidBase64)?;
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MessageSignature::from_slice(&bytes)
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}
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#[cfg(feature = "base64")]
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/// Convert to base64 encoding.
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pub fn to_base64(&self) -> String {
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::base64::encode(&self.serialize()[..])
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}
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}
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#[cfg(feature = "base64")]
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impl fmt::Display for MessageSignature {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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let bytes = self.serialize();
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// This avoids the allocation of a String.
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write!(f, "{}", ::base64::display::Base64Display::with_config(
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&bytes[..], ::base64::STANDARD))
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}
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}
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#[cfg(feature = "base64")]
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impl ::std::str::FromStr for MessageSignature {
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type Err = MessageSignatureError;
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fn from_str(s: &str) -> Result<MessageSignature, MessageSignatureError> {
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MessageSignature::from_base64(s)
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}
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}
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}
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/// Search for `needle` in the vector `haystack` and remove every
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/// instance of it, returning the number of instances removed.
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/// Loops through the vector opcode by opcode, skipping pushed data.
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@ -59,7 +232,6 @@ pub fn script_find_and_remove(haystack: &mut Vec<u8>, needle: &[u8]) -> usize {
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/// Hash message for signature using Bitcoin's message signing format
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pub fn signed_msg_hash(msg: &str) -> sha256d::Hash {
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let mut engine = sha256d::Hash::engine();
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engine.input(MSG_SIGN_PREFIX);
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let msg_len = encode::VarInt(msg.len() as u64);
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@ -119,5 +291,37 @@ mod tests {
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let hash = signed_msg_hash("test");
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assert_eq!(hash.to_hex(), "a6f87fe6d58a032c320ff8d1541656f0282c2c7bfcc69d61af4c8e8ed528e49c");
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}
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#[test]
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#[cfg(all(feature = "secp-recovery", feature = "base64"))]
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fn test_message_signature() {
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use std::str::FromStr;
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use secp256k1;
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let secp = secp256k1::Secp256k1::new();
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let message = "rust-bitcoin MessageSignature test";
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let msg_hash = super::signed_msg_hash(&message);
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let msg = secp256k1::Message::from_slice(&msg_hash).unwrap();
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let privkey = secp256k1::SecretKey::new(&mut secp256k1::rand::thread_rng());
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let secp_sig = secp.sign_recoverable(&msg, &privkey);
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let signature = super::MessageSignature {
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signature: secp_sig,
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compressed: true,
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};
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assert_eq!(signature.to_base64(), signature.to_string());
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let signature2 = super::MessageSignature::from_str(&signature.to_string()).unwrap();
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let pubkey = signature2.recover_pubkey(&secp, msg_hash).unwrap();
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assert_eq!(pubkey.compressed, true);
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assert_eq!(pubkey.key, secp256k1::PublicKey::from_secret_key(&secp, &privkey));
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let p2pkh = ::Address::p2pkh(&pubkey, ::Network::Bitcoin);
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assert_eq!(signature2.is_signed_by_address(&secp, &p2pkh, msg_hash), Ok(true));
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let p2wpkh = ::Address::p2wpkh(&pubkey, ::Network::Bitcoin).unwrap();
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assert_eq!(signature2.is_signed_by_address(&secp, &p2wpkh, msg_hash), Ok(false));
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let p2shwpkh = ::Address::p2shwpkh(&pubkey, ::Network::Bitcoin).unwrap();
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assert_eq!(signature2.is_signed_by_address(&secp, &p2shwpkh, msg_hash), Ok(false));
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}
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}
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