Merge rust-bitcoin/rust-bitcoin#1084: Add PublicKey::to_sort_key method for use with sorting by key

24f0441d54 Add PublicKey::to_sort_key method for use with sorting by key (junderw)

Pull request description:

  Replaces #524

  See previous PR for reasoning.

  This solution is a little more straightforward. The name and documentation should be enough to prevent misuse.

  We can also impl a to_sort_key for any CompressedKey added later. (or just impl Ord in a BIP67 compliant way)

  TODO:

  - [x] Add more sorting test vectors. Ideas of edge cases to test are welcome.

ACKs for top commit:
  apoelstra:
    ACK 24f0441d54
  tcharding:
    ACK 24f0441d54
  Kixunil:
    ACK 24f0441d54

Tree-SHA512: 92d68cccaf32e224dd7328edeb3481dd7dcefb2f9090b7381e135e897c21f79ade922815cc766c5adb7ba751b71b51a773d103af6ba13fc081e1f5bfb846b201
This commit is contained in:
Andrew Poelstra 2022-07-13 13:01:33 +00:00
commit 758dbfa1da
No known key found for this signature in database
GPG Key ID: C588D63CE41B97C1
1 changed files with 209 additions and 2 deletions

View File

@ -172,6 +172,72 @@ impl PublicKey {
buf buf
} }
/// Serialize the public key into a `SortKey`.
///
/// `SortKey` is not too useful by itself, but it can be used to sort a
/// `[PublicKey]` slice using `sort_unstable_by_key`, `sort_by_cached_key`,
/// `sort_by_key`, or any of the other `*_by_key` methods on slice.
/// Pass the method into the sort method directly. (ie. `PublicKey::to_sort_key`)
///
/// This method of sorting is in line with Bitcoin Core's implementation of
/// sorting keys for output descriptors such as `sortedmulti()`.
///
/// If every `PublicKey` in the slice is `compressed == true` then this will sort
/// the keys in a
/// [BIP67](https://github.com/bitcoin/bips/blob/master/bip-0067.mediawiki)
/// compliant way.
///
/// # Example: Using with `sort_unstable_by_key`
///
/// ```rust
/// use std::str::FromStr;
/// use bitcoin::PublicKey;
///
/// let pk = |s| PublicKey::from_str(s).unwrap();
///
/// let mut unsorted = [
/// pk("04c4b0bbb339aa236bff38dbe6a451e111972a7909a126bc424013cba2ec33bc38e98ac269ffe028345c31ac8d0a365f29c8f7e7cfccac72f84e1acd02bc554f35"),
/// pk("038f47dcd43ba6d97fc9ed2e3bba09b175a45fac55f0683e8cf771e8ced4572354"),
/// pk("028bde91b10013e08949a318018fedbd896534a549a278e220169ee2a36517c7aa"),
/// pk("04c4b0bbb339aa236bff38dbe6a451e111972a7909a126bc424013cba2ec33bc3816753d96001fd7cba3ce5372f5c9a0d63708183033538d07b1e532fc43aaacfa"),
/// pk("032b8324c93575034047a52e9bca05a46d8347046b91a032eff07d5de8d3f2730b"),
/// pk("045d753414fa292ea5b8f56e39cfb6a0287b2546231a5cb05c4b14ab4b463d171f5128148985b23eccb1e2905374873b1f09b9487f47afa6b1f2b0083ac8b4f7e8"),
/// pk("0234dd69c56c36a41230d573d68adeae0030c9bc0bf26f24d3e1b64c604d293c68"),
/// ];
/// let sorted = [
/// // These first 4 keys are in a BIP67 compatible sorted order
/// // (since they are compressed)
/// pk("0234dd69c56c36a41230d573d68adeae0030c9bc0bf26f24d3e1b64c604d293c68"),
/// pk("028bde91b10013e08949a318018fedbd896534a549a278e220169ee2a36517c7aa"),
/// pk("032b8324c93575034047a52e9bca05a46d8347046b91a032eff07d5de8d3f2730b"),
/// pk("038f47dcd43ba6d97fc9ed2e3bba09b175a45fac55f0683e8cf771e8ced4572354"),
/// // Uncompressed keys are not BIP67 compliant, but are sorted
/// // after compressed keys in Bitcoin Core using `sortedmulti()`
/// pk("045d753414fa292ea5b8f56e39cfb6a0287b2546231a5cb05c4b14ab4b463d171f5128148985b23eccb1e2905374873b1f09b9487f47afa6b1f2b0083ac8b4f7e8"),
/// pk("04c4b0bbb339aa236bff38dbe6a451e111972a7909a126bc424013cba2ec33bc3816753d96001fd7cba3ce5372f5c9a0d63708183033538d07b1e532fc43aaacfa"),
/// pk("04c4b0bbb339aa236bff38dbe6a451e111972a7909a126bc424013cba2ec33bc38e98ac269ffe028345c31ac8d0a365f29c8f7e7cfccac72f84e1acd02bc554f35"),
/// ];
///
/// unsorted.sort_unstable_by_key(PublicKey::to_sort_key);
///
/// assert_eq!(unsorted, sorted);
/// ```
pub fn to_sort_key(&self) -> SortKey {
if self.compressed {
let bytes = self.inner.serialize();
let mut res = [0; 32];
res[..].copy_from_slice(&bytes[1..33]);
SortKey(bytes[0], res, [0; 32])
} else {
let bytes = self.inner.serialize_uncompressed();
let mut res_left = [0; 32];
let mut res_right = [0; 32];
res_left[..].copy_from_slice(&bytes[1..33]);
res_right[..].copy_from_slice(&bytes[33..65]);
SortKey(bytes[0], res_left, res_right)
}
}
/// Deserialize a public key from a slice /// Deserialize a public key from a slice
pub fn from_slice(data: &[u8]) -> Result<PublicKey, Error> { pub fn from_slice(data: &[u8]) -> Result<PublicKey, Error> {
let compressed = match data.len() { let compressed = match data.len() {
@ -198,6 +264,10 @@ impl PublicKey {
} }
} }
/// An opaque return type for PublicKey::to_sort_key
#[derive(Debug, Hash, PartialEq, Eq, PartialOrd, Ord, Clone, Copy)]
pub struct SortKey(u8, [u8; 32], [u8; 32]);
impl fmt::Display for PublicKey { impl fmt::Display for PublicKey {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
if self.compressed { if self.compressed {
@ -475,10 +545,10 @@ impl<'de> ::serde::Deserialize<'de> for PublicKey {
#[cfg(test)] #[cfg(test)]
mod tests { mod tests {
use crate::io; use crate::io;
use super::{PrivateKey, PublicKey}; use super::{PrivateKey, PublicKey, SortKey};
use secp256k1::Secp256k1; use secp256k1::Secp256k1;
use std::str::FromStr; use std::str::FromStr;
use crate::hashes::hex::ToHex; use crate::hashes::hex::{FromHex, ToHex};
use crate::network::constants::Network::Testnet; use crate::network::constants::Network::Testnet;
use crate::network::constants::Network::Bitcoin; use crate::network::constants::Network::Bitcoin;
use crate::util::address::Address; use crate::util::address::Address;
@ -629,4 +699,141 @@ mod tests {
assert!(PublicKey::read_from(io::Cursor::new(&[0; 65][..])).is_err()); assert!(PublicKey::read_from(io::Cursor::new(&[0; 65][..])).is_err());
assert!(PublicKey::read_from(io::Cursor::new(&[4; 64][..])).is_err()); assert!(PublicKey::read_from(io::Cursor::new(&[4; 64][..])).is_err());
} }
#[test]
fn pubkey_to_sort_key() {
let key1 = PublicKey::from_str("02ff12471208c14bd580709cb2358d98975247d8765f92bc25eab3b2763ed605f8").unwrap();
let key2 = PublicKey {
inner: key1.inner,
compressed: false,
};
let expected1 = SortKey(
2,
<[u8; 32]>::from_hex(
"ff12471208c14bd580709cb2358d98975247d8765f92bc25eab3b2763ed605f8",
).unwrap(),
[0_u8; 32],
);
let expected2 = SortKey(
4,
<[u8; 32]>::from_hex(
"ff12471208c14bd580709cb2358d98975247d8765f92bc25eab3b2763ed605f8",
).unwrap(),
<[u8; 32]>::from_hex(
"1794e7f3d5e420641a3bc690067df5541470c966cbca8c694bf39aa16d836918",
).unwrap(),
);
assert_eq!(key1.to_sort_key(), expected1);
assert_eq!(key2.to_sort_key(), expected2);
}
#[test]
fn pubkey_sort() {
struct Vector {
input: Vec<PublicKey>,
expect: Vec<PublicKey>,
}
let fmt = |v: Vec<_>| v.into_iter()
.map(|s| PublicKey::from_str(s).unwrap())
.collect::<Vec<_>>();
let vectors = vec![
// Start BIP67 vectors
// Vector 1
Vector {
input: fmt(vec![
"02ff12471208c14bd580709cb2358d98975247d8765f92bc25eab3b2763ed605f8",
"02fe6f0a5a297eb38c391581c4413e084773ea23954d93f7753db7dc0adc188b2f",
]),
expect: fmt(vec![
"02fe6f0a5a297eb38c391581c4413e084773ea23954d93f7753db7dc0adc188b2f",
"02ff12471208c14bd580709cb2358d98975247d8765f92bc25eab3b2763ed605f8",
]),
},
// Vector 2 (Already sorted, no action required)
Vector {
input: fmt(vec![
"02632b12f4ac5b1d1b72b2a3b508c19172de44f6f46bcee50ba33f3f9291e47ed0",
"027735a29bae7780a9755fae7a1c4374c656ac6a69ea9f3697fda61bb99a4f3e77",
"02e2cc6bd5f45edd43bebe7cb9b675f0ce9ed3efe613b177588290ad188d11b404",
]),
expect: fmt(vec![
"02632b12f4ac5b1d1b72b2a3b508c19172de44f6f46bcee50ba33f3f9291e47ed0",
"027735a29bae7780a9755fae7a1c4374c656ac6a69ea9f3697fda61bb99a4f3e77",
"02e2cc6bd5f45edd43bebe7cb9b675f0ce9ed3efe613b177588290ad188d11b404",
]),
},
// Vector 3
Vector {
input: fmt(vec![
"030000000000000000000000000000000000004141414141414141414141414141",
"020000000000000000000000000000000000004141414141414141414141414141",
"020000000000000000000000000000000000004141414141414141414141414140",
"030000000000000000000000000000000000004141414141414141414141414140",
]),
expect: fmt(vec![
"020000000000000000000000000000000000004141414141414141414141414140",
"020000000000000000000000000000000000004141414141414141414141414141",
"030000000000000000000000000000000000004141414141414141414141414140",
"030000000000000000000000000000000000004141414141414141414141414141",
]),
},
// Vector 4: (from bitcore)
Vector {
input: fmt(vec![
"022df8750480ad5b26950b25c7ba79d3e37d75f640f8e5d9bcd5b150a0f85014da",
"03e3818b65bcc73a7d64064106a859cc1a5a728c4345ff0b641209fba0d90de6e9",
"021f2f6e1e50cb6a953935c3601284925decd3fd21bc445712576873fb8c6ebc18",
]),
expect: fmt(vec![
"021f2f6e1e50cb6a953935c3601284925decd3fd21bc445712576873fb8c6ebc18",
"022df8750480ad5b26950b25c7ba79d3e37d75f640f8e5d9bcd5b150a0f85014da",
"03e3818b65bcc73a7d64064106a859cc1a5a728c4345ff0b641209fba0d90de6e9",
]),
},
// Non-BIP67 vectors
Vector {
input: fmt(vec![
"02c690d642c1310f3a1ababad94e3930e4023c930ea472e7f37f660fe485263b88",
"0234dd69c56c36a41230d573d68adeae0030c9bc0bf26f24d3e1b64c604d293c68",
"041a181bd0e79974bd7ca552e09fc42ba9c3d5dbb3753741d6f0ab3015dbfd9a22d6b001a32f5f51ac6f2c0f35e73a6a62f59e848fa854d3d21f3f231594eeaa46",
"032b8324c93575034047a52e9bca05a46d8347046b91a032eff07d5de8d3f2730b",
"04c4b0bbb339aa236bff38dbe6a451e111972a7909a126bc424013cba2ec33bc3816753d96001fd7cba3ce5372f5c9a0d63708183033538d07b1e532fc43aaacfa",
"028e1c947c8c0b8ed021088b8e981491ac7af2b8fabebea1abdb448424c8ed75b7",
"045d753414fa292ea5b8f56e39cfb6a0287b2546231a5cb05c4b14ab4b463d171f5128148985b23eccb1e2905374873b1f09b9487f47afa6b1f2b0083ac8b4f7e8",
"03004a8a3d242d7957c0b60fb7208d386fa6a0193aabd1f3f095ffd0ac097e447b",
"04eb0db2d71ccbb0edd8fb35092cbcae2f7fa1f06d4c170804bf52007924b569a8d2d6f6bc8fd2b3caa3253fa1bb674443743bf7fb9f94f9c0b0831a252894cfa8",
"04516cde23e14f2319423b7a4a7ae48b1dadceb5e9c123198d417d10895684c42eb05e210f90ccbc72448803a22312e3f122ff2939956ccef4f7316f836295ddd5",
"038f47dcd43ba6d97fc9ed2e3bba09b175a45fac55f0683e8cf771e8ced4572354",
"04c6bec3b07586a4b085a78cbb97e9bab6f1d3c9ebf299b65dec85213c5eacd44487de86017183120bb7ea3b6c6660c5037615fe1add2a73f800cbeeae22c60438",
"03e1a1cfa9eaff604ae237b7af31ffe4c01be22eb96f3da0e62c5850dd4b4386c1",
"028d3a2d9f1b1c5c75845944f93bc183ba23aecde53f1978b8aa1b77661be6114f",
"028bde91b10013e08949a318018fedbd896534a549a278e220169ee2a36517c7aa",
"04c4b0bbb339aa236bff38dbe6a451e111972a7909a126bc424013cba2ec33bc38e98ac269ffe028345c31ac8d0a365f29c8f7e7cfccac72f84e1acd02bc554f35",
]),
expect: fmt(vec![
"0234dd69c56c36a41230d573d68adeae0030c9bc0bf26f24d3e1b64c604d293c68",
"028bde91b10013e08949a318018fedbd896534a549a278e220169ee2a36517c7aa",
"028d3a2d9f1b1c5c75845944f93bc183ba23aecde53f1978b8aa1b77661be6114f",
"028e1c947c8c0b8ed021088b8e981491ac7af2b8fabebea1abdb448424c8ed75b7",
"02c690d642c1310f3a1ababad94e3930e4023c930ea472e7f37f660fe485263b88",
"03004a8a3d242d7957c0b60fb7208d386fa6a0193aabd1f3f095ffd0ac097e447b",
"032b8324c93575034047a52e9bca05a46d8347046b91a032eff07d5de8d3f2730b",
"038f47dcd43ba6d97fc9ed2e3bba09b175a45fac55f0683e8cf771e8ced4572354",
"03e1a1cfa9eaff604ae237b7af31ffe4c01be22eb96f3da0e62c5850dd4b4386c1",
"041a181bd0e79974bd7ca552e09fc42ba9c3d5dbb3753741d6f0ab3015dbfd9a22d6b001a32f5f51ac6f2c0f35e73a6a62f59e848fa854d3d21f3f231594eeaa46",
"04516cde23e14f2319423b7a4a7ae48b1dadceb5e9c123198d417d10895684c42eb05e210f90ccbc72448803a22312e3f122ff2939956ccef4f7316f836295ddd5",
"045d753414fa292ea5b8f56e39cfb6a0287b2546231a5cb05c4b14ab4b463d171f5128148985b23eccb1e2905374873b1f09b9487f47afa6b1f2b0083ac8b4f7e8",
// These two pubkeys are mirrored. This helps verify the sort past the x value.
"04c4b0bbb339aa236bff38dbe6a451e111972a7909a126bc424013cba2ec33bc3816753d96001fd7cba3ce5372f5c9a0d63708183033538d07b1e532fc43aaacfa",
"04c4b0bbb339aa236bff38dbe6a451e111972a7909a126bc424013cba2ec33bc38e98ac269ffe028345c31ac8d0a365f29c8f7e7cfccac72f84e1acd02bc554f35",
"04c6bec3b07586a4b085a78cbb97e9bab6f1d3c9ebf299b65dec85213c5eacd44487de86017183120bb7ea3b6c6660c5037615fe1add2a73f800cbeeae22c60438",
"04eb0db2d71ccbb0edd8fb35092cbcae2f7fa1f06d4c170804bf52007924b569a8d2d6f6bc8fd2b3caa3253fa1bb674443743bf7fb9f94f9c0b0831a252894cfa8",
]),
},
];
for mut vector in vectors {
vector.input.sort_by_cached_key(PublicKey::to_sort_key);
assert_eq!(vector.input, vector.expect);
}
}
} }