2016-12-11 19:30:54 +01:00
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// Copyright 2015, 2016 Parity Technologies (UK) Ltd.
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2016-06-20 10:06:49 +02:00
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// This file is part of Parity.
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// Parity is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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// Parity is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License
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// along with Parity. If not, see <http://www.gnu.org/licenses/>.
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2016-06-20 00:10:34 +02:00
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use std::ops::{Deref, DerefMut};
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2016-08-15 15:09:00 +02:00
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use std::cmp::PartialEq;
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2016-06-20 00:10:34 +02:00
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use std::{mem, fmt};
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use std::str::FromStr;
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2016-08-26 10:40:00 +02:00
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use std::hash::{Hash, Hasher};
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2016-06-20 00:10:34 +02:00
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use secp256k1::{Message as SecpMessage, RecoverableSignature, RecoveryId, Error as SecpError};
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use secp256k1::key::{SecretKey, PublicKey};
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use rustc_serialize::hex::{ToHex, FromHex};
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2016-08-24 18:35:21 +02:00
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use bigint::hash::{H520, H256, FixedHash};
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2016-06-20 10:02:02 +02:00
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use {Secret, Public, SECP256K1, Error, Message, public_to_address, Address};
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2016-06-20 00:10:34 +02:00
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#[repr(C)]
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pub struct Signature([u8; 65]);
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impl Signature {
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/// Get a slice into the 'r' portion of the data.
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pub fn r(&self) -> &[u8] {
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&self.0[0..32]
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}
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/// Get a slice into the 's' portion of the data.
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pub fn s(&self) -> &[u8] {
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&self.0[32..64]
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}
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/// Get the recovery byte.
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pub fn v(&self) -> u8 {
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self.0[64]
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}
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2016-08-24 18:35:21 +02:00
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/// Create a signature object from the sig.
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pub fn from_rsv(r: &H256, s: &H256, v: u8) -> Signature {
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let mut sig = [0u8; 65];
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sig[0..32].copy_from_slice(&r);
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sig[32..64].copy_from_slice(&s);
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sig[64] = v;
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Signature(sig)
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}
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/// Check if this is a "low" signature.
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pub fn is_low_s(&self) -> bool {
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H256::from_slice(self.s()) <= "7FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF5D576E7357A4501DDFE92F46681B20A0".into()
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}
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/// Check if each component of the signature is in range.
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pub fn is_valid(&self) -> bool {
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self.v() <= 1 &&
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H256::from_slice(self.r()) < "fffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141".into() &&
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H256::from_slice(self.r()) >= 1.into() &&
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H256::from_slice(self.s()) < "fffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141".into() &&
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H256::from_slice(self.s()) >= 1.into()
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}
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2016-06-20 00:10:34 +02:00
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}
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// manual implementation large arrays don't have trait impls by default.
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// remove when integer generics exist
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impl PartialEq for Signature {
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fn eq(&self, other: &Self) -> bool {
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&self.0[..] == &other.0[..]
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}
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}
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2016-09-29 16:20:56 +02:00
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// manual implementation required in Rust 1.13+, see `std::cmp::AssertParamIsEq`.
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impl Eq for Signature { }
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2016-06-20 00:10:34 +02:00
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// also manual for the same reason, but the pretty printing might be useful.
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impl fmt::Debug for Signature {
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fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
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f.debug_struct("Signature")
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.field("r", &self.0[0..32].to_hex())
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.field("s", &self.0[32..64].to_hex())
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.field("v", &self.0[64..65].to_hex())
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.finish()
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}
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}
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impl fmt::Display for Signature {
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fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
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write!(f, "{}", self.to_hex())
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}
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}
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impl FromStr for Signature {
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type Err = Error;
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fn from_str(s: &str) -> Result<Self, Self::Err> {
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match s.from_hex() {
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Ok(ref hex) if hex.len() == 65 => {
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let mut data = [0; 65];
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data.copy_from_slice(&hex[0..65]);
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Ok(Signature(data))
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},
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_ => Err(Error::InvalidSignature)
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}
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}
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}
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impl Default for Signature {
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fn default() -> Self {
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Signature([0; 65])
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}
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}
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2016-08-26 10:40:00 +02:00
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impl Hash for Signature {
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fn hash<H: Hasher>(&self, state: &mut H) {
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H520::from(self.0).hash(state);
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}
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}
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2016-08-26 11:27:54 +02:00
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impl Clone for Signature {
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fn clone(&self) -> Self {
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Signature(self.0)
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}
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}
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2016-06-20 00:10:34 +02:00
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impl From<[u8; 65]> for Signature {
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fn from(s: [u8; 65]) -> Self {
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Signature(s)
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}
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}
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impl Into<[u8; 65]> for Signature {
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fn into(self) -> [u8; 65] {
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self.0
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}
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}
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2016-08-15 15:09:00 +02:00
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impl From<Signature> for H520 {
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fn from(s: Signature) -> Self {
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H520::from(s.0)
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}
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}
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impl From<H520> for Signature {
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fn from(bytes: H520) -> Self {
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Signature(bytes.into())
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}
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}
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2016-06-20 00:10:34 +02:00
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impl Deref for Signature {
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type Target = [u8; 65];
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fn deref(&self) -> &Self::Target {
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&self.0
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}
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}
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impl DerefMut for Signature {
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fn deref_mut(&mut self) -> &mut Self::Target {
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&mut self.0
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}
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}
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pub fn sign(secret: &Secret, message: &Message) -> Result<Signature, Error> {
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let context = &SECP256K1;
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// no way to create from raw byte array.
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let sec: &SecretKey = unsafe { mem::transmute(secret) };
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let s = try!(context.sign_recoverable(&try!(SecpMessage::from_slice(&message[..])), sec));
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let (rec_id, data) = s.serialize_compact(context);
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let mut data_arr = [0; 65];
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// no need to check if s is low, it always is
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data_arr[0..64].copy_from_slice(&data[0..64]);
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data_arr[64] = rec_id.to_i32() as u8;
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Ok(Signature(data_arr))
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}
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2016-06-20 10:02:02 +02:00
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pub fn verify_public(public: &Public, signature: &Signature, message: &Message) -> Result<bool, Error> {
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let context = &SECP256K1;
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let rsig = try!(RecoverableSignature::from_compact(context, &signature[0..64], try!(RecoveryId::from_i32(signature[64] as i32))));
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let sig = rsig.to_standard(context);
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let pdata: [u8; 65] = {
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let mut temp = [4u8; 65];
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2016-08-10 16:29:40 +02:00
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temp[1..65].copy_from_slice(&**public);
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temp
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};
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let publ = try!(PublicKey::from_slice(context, &pdata));
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match context.verify(&try!(SecpMessage::from_slice(&message[..])), &sig, &publ) {
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Ok(_) => Ok(true),
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Err(SecpError::IncorrectSignature) => Ok(false),
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Err(x) => Err(Error::from(x))
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}
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}
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2016-06-20 10:02:02 +02:00
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pub fn verify_address(address: &Address, signature: &Signature, message: &Message) -> Result<bool, Error> {
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let public = try!(recover(signature, message));
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let recovered_address = public_to_address(&public);
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Ok(address == &recovered_address)
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}
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pub fn recover(signature: &Signature, message: &Message) -> Result<Public, Error> {
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let context = &SECP256K1;
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let rsig = try!(RecoverableSignature::from_compact(context, &signature[0..64], try!(RecoveryId::from_i32(signature[64] as i32))));
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let pubkey = try!(context.recover(&try!(SecpMessage::from_slice(&message[..])), &rsig));
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let serialized = pubkey.serialize_vec(context, false);
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let mut public = Public::default();
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public.copy_from_slice(&serialized[1..65]);
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Ok(public)
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}
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2016-06-20 00:10:34 +02:00
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#[cfg(test)]
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mod tests {
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use std::str::FromStr;
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use {Generator, Random, Message};
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2016-06-20 10:02:02 +02:00
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use super::{sign, verify_public, verify_address, recover, Signature};
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2016-06-20 00:10:34 +02:00
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#[test]
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fn signature_to_and_from_str() {
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let keypair = Random.generate().unwrap();
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let message = Message::default();
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let signature = sign(keypair.secret(), &message).unwrap();
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let string = format!("{}", signature);
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let deserialized = Signature::from_str(&string).unwrap();
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assert_eq!(signature, deserialized);
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}
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#[test]
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fn sign_and_recover_public() {
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let keypair = Random.generate().unwrap();
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let message = Message::default();
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let signature = sign(keypair.secret(), &message).unwrap();
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assert_eq!(keypair.public(), &recover(&signature, &message).unwrap());
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}
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#[test]
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fn sign_and_verify_public() {
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let keypair = Random.generate().unwrap();
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let message = Message::default();
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let signature = sign(keypair.secret(), &message).unwrap();
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assert!(verify_public(keypair.public(), &signature, &message).unwrap());
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}
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#[test]
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fn sign_and_verify_address() {
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2016-06-20 00:10:34 +02:00
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let keypair = Random.generate().unwrap();
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let message = Message::default();
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let signature = sign(keypair.secret(), &message).unwrap();
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2016-06-20 10:02:02 +02:00
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assert!(verify_address(&keypair.address(), &signature, &message).unwrap());
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2016-06-20 00:10:34 +02:00
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}
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}
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