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rust-bitcoin-unsafe-fast
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Rename SigHash -> Sighash 

Our usage of `SigHash` implies that 'sighash' is _two_ words; 'sighash'
is a well known word in the Bitcoin ecosystem it should appear in
identifiers as `Sighash`.

Rename the `SigHash` type to `Sighash`.
This commit is contained in:
Tobin Harding 2022-03-29 09:21:43 +11:00
parent 52b711c084
commit c3a167b96b
4 changed files with 49 additions and 49 deletions
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14
src/blockdata/transaction.rs
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@ -39,7 +39,7 @@ use blockdata::script::Script;
use blockdata::witness::Witness; use blockdata::witness::Witness;
use consensus::{encode, Decodable, Encodable}; use consensus::{encode, Decodable, Encodable};
use consensus::encode::MAX_VEC_SIZE; use consensus::encode::MAX_VEC_SIZE;
use hash_types::{SigHash, Txid, Wtxid}; use hash_types::{Sighash, Txid, Wtxid};
use VarInt; use VarInt;
#[cfg(doc)] #[cfg(doc)]
@ -432,15 +432,15 @@ impl Transaction {
input_index: usize, input_index: usize,
script_pubkey: &Script, script_pubkey: &Script,
sighash_u32: u32 sighash_u32: u32
) -> SigHash { ) -> Sighash {
if self.is_invalid_use_of_sighash_single(sighash_u32, input_index) { if self.is_invalid_use_of_sighash_single(sighash_u32, input_index) {
return SigHash::from_slice(&UINT256_ONE).expect("const-size array"); return Sighash::from_slice(&UINT256_ONE).expect("const-size array");
} }
let mut engine = SigHash::engine(); let mut engine = Sighash::engine();
self.encode_signing_data_to(&mut engine, input_index, script_pubkey, sighash_u32) self.encode_signing_data_to(&mut engine, input_index, script_pubkey, sighash_u32)
.expect("engines don't error"); .expect("engines don't error");
SigHash::from_engine(engine) Sighash::from_engine(engine)
} }
fn is_invalid_use_of_sighash_single(&self, sighash: u32, input_index: usize) -> bool { fn is_invalid_use_of_sighash_single(&self, sighash: u32, input_index: usize) -> bool {
@ -1223,7 +1223,7 @@ mod tests {
}; };
let script = Script::new(); let script = Script::new();
let got = tx.signature_hash(1, &script, SIGHASH_SINGLE); let got = tx.signature_hash(1, &script, SIGHASH_SINGLE);
let want = SigHash::from_slice(&UINT256_ONE).unwrap(); let want = Sighash::from_slice(&UINT256_ONE).unwrap();
assert_eq!(got, want) assert_eq!(got, want)
} }
@ -1233,7 +1233,7 @@ mod tests {
let script = Script::from(Vec::from_hex(script).unwrap()); let script = Script::from(Vec::from_hex(script).unwrap());
let mut raw_expected = Vec::from_hex(expected_result).unwrap(); let mut raw_expected = Vec::from_hex(expected_result).unwrap();
raw_expected.reverse(); raw_expected.reverse();
let expected_result = SigHash::from_slice(&raw_expected[..]).unwrap(); let expected_result = Sighash::from_slice(&raw_expected[..]).unwrap();
let actual_result = if raw_expected[0] % 2 == 0 { let actual_result = if raw_expected[0] % 2 == 0 {
// tx.signature_hash and cache.legacy_signature_hash are the same, this if helps to test // tx.signature_hash and cache.legacy_signature_hash are the same, this if helps to test

4
src/hash_types.rs
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@ -42,7 +42,7 @@ macro_rules! impl_hashencode {
hash_newtype!(Txid, sha256d::Hash, 32, doc="A bitcoin transaction hash/transaction ID."); hash_newtype!(Txid, sha256d::Hash, 32, doc="A bitcoin transaction hash/transaction ID.");
hash_newtype!(Wtxid, sha256d::Hash, 32, doc="A bitcoin witness transaction ID."); hash_newtype!(Wtxid, sha256d::Hash, 32, doc="A bitcoin witness transaction ID.");
hash_newtype!(BlockHash, sha256d::Hash, 32, doc="A bitcoin block hash."); hash_newtype!(BlockHash, sha256d::Hash, 32, doc="A bitcoin block hash.");
hash_newtype!(SigHash, sha256d::Hash, 32, doc="Hash of the transaction according to the signature algorithm"); hash_newtype!(Sighash, sha256d::Hash, 32, doc="Hash of the transaction according to the signature algorithm");
hash_newtype!(PubkeyHash, hash160::Hash, 20, doc="A hash of a public key."); hash_newtype!(PubkeyHash, hash160::Hash, 20, doc="A hash of a public key.");
hash_newtype!(ScriptHash, hash160::Hash, 20, doc="A hash of Bitcoin Script bytecode."); hash_newtype!(ScriptHash, hash160::Hash, 20, doc="A hash of Bitcoin Script bytecode.");
@ -61,7 +61,7 @@ hash_newtype!(FilterHeader, sha256d::Hash, 32, doc="Filter header, as defined in
impl_hashencode!(Txid); impl_hashencode!(Txid);
impl_hashencode!(Wtxid); impl_hashencode!(Wtxid);
impl_hashencode!(BlockHash); impl_hashencode!(BlockHash);
impl_hashencode!(SigHash); impl_hashencode!(Sighash);
impl_hashencode!(TxMerkleNode); impl_hashencode!(TxMerkleNode);
impl_hashencode!(WitnessMerkleNode); impl_hashencode!(WitnessMerkleNode);

62
src/util/bip143.rs
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@ -20,7 +20,7 @@
//! //!
use hashes::Hash; use hashes::Hash;
use hash_types::SigHash; use hash_types::Sighash;
use blockdata::script::Script; use blockdata::script::Script;
use blockdata::witness::Witness; use blockdata::witness::Witness;
use blockdata::transaction::{Transaction, TxIn, EcdsaSighashType}; use blockdata::transaction::{Transaction, TxIn, EcdsaSighashType};
@ -38,11 +38,11 @@ pub struct SighashComponents {
tx_version: i32, tx_version: i32,
tx_locktime: u32, tx_locktime: u32,
/// Hash of all the previous outputs /// Hash of all the previous outputs
pub hash_prevouts: SigHash, pub hash_prevouts: Sighash,
/// Hash of all the input sequence nos /// Hash of all the input sequence nos
pub hash_sequence: SigHash, pub hash_sequence: Sighash,
/// Hash of all the outputs in this transaction /// Hash of all the outputs in this transaction
pub hash_outputs: SigHash, pub hash_outputs: Sighash,
} }
#[allow(deprecated)] #[allow(deprecated)]
@ -53,27 +53,27 @@ impl SighashComponents {
/// script_sig and witnesses. /// script_sig and witnesses.
pub fn new(tx: &Transaction) -> SighashComponents { pub fn new(tx: &Transaction) -> SighashComponents {
let hash_prevouts = { let hash_prevouts = {
let mut enc = SigHash::engine(); let mut enc = Sighash::engine();
for txin in &tx.input { for txin in &tx.input {
txin.previous_output.consensus_encode(&mut enc).expect("engines don't error"); txin.previous_output.consensus_encode(&mut enc).expect("engines don't error");
} }
SigHash::from_engine(enc) Sighash::from_engine(enc)
}; };
let hash_sequence = { let hash_sequence = {
let mut enc = SigHash::engine(); let mut enc = Sighash::engine();
for txin in &tx.input { for txin in &tx.input {
txin.sequence.consensus_encode(&mut enc).expect("engines don't error"); txin.sequence.consensus_encode(&mut enc).expect("engines don't error");
} }
SigHash::from_engine(enc) Sighash::from_engine(enc)
}; };
let hash_outputs = { let hash_outputs = {
let mut enc = SigHash::engine(); let mut enc = Sighash::engine();
for txout in &tx.output { for txout in &tx.output {
txout.consensus_encode(&mut enc).expect("engines don't error"); txout.consensus_encode(&mut enc).expect("engines don't error");
} }
SigHash::from_engine(enc) Sighash::from_engine(enc)
}; };
SighashComponents { SighashComponents {
@ -87,8 +87,8 @@ impl SighashComponents {
/// Compute the BIP143 sighash for a `SIGHASH_ALL` signature for the given /// Compute the BIP143 sighash for a `SIGHASH_ALL` signature for the given
/// input. /// input.
pub fn sighash_all(&self, txin: &TxIn, script_code: &Script, value: u64) -> SigHash { pub fn sighash_all(&self, txin: &TxIn, script_code: &Script, value: u64) -> Sighash {
let mut enc = SigHash::engine(); let mut enc = Sighash::engine();
self.tx_version.consensus_encode(&mut enc).expect("engines don't error"); self.tx_version.consensus_encode(&mut enc).expect("engines don't error");
self.hash_prevouts.consensus_encode(&mut enc).expect("engines don't error"); self.hash_prevouts.consensus_encode(&mut enc).expect("engines don't error");
self.hash_sequence.consensus_encode(&mut enc).expect("engines don't error"); self.hash_sequence.consensus_encode(&mut enc).expect("engines don't error");
@ -102,7 +102,7 @@ impl SighashComponents {
self.hash_outputs.consensus_encode(&mut enc).expect("engines don't error"); self.hash_outputs.consensus_encode(&mut enc).expect("engines don't error");
self.tx_locktime.consensus_encode(&mut enc).expect("engines don't error"); self.tx_locktime.consensus_encode(&mut enc).expect("engines don't error");
1u32.consensus_encode(&mut enc).expect("engines don't error"); // hashtype 1u32.consensus_encode(&mut enc).expect("engines don't error"); // hashtype
SigHash::from_engine(enc) Sighash::from_engine(enc)
} }
} }
@ -146,11 +146,11 @@ impl<R: Deref<Target = Transaction>> SigHashCache<R> {
script_code: &Script, script_code: &Script,
value: u64, value: u64,
sighash_type: EcdsaSighashType sighash_type: EcdsaSighashType
) -> SigHash { ) -> Sighash {
let mut enc = SigHash::engine(); let mut enc = Sighash::engine();
self.encode_signing_data_to(&mut enc, input_index, script_code, value, sighash_type) self.encode_signing_data_to(&mut enc, input_index, script_code, value, sighash_type)
.expect("engines don't error"); .expect("engines don't error");
SigHash::from_engine(enc) Sighash::from_engine(enc)
} }
} }
@ -188,7 +188,7 @@ impl<R: DerefMut<Target = Transaction>> SigHashCache<R> {
#[allow(deprecated)] #[allow(deprecated)]
mod tests { mod tests {
use std::str::FromStr; use std::str::FromStr;
use hash_types::SigHash; use hash_types::Sighash;
use blockdata::script::Script; use blockdata::script::Script;
use blockdata::transaction::Transaction; use blockdata::transaction::Transaction;
use consensus::encode::deserialize; use consensus::encode::deserialize;
@ -208,8 +208,8 @@ mod tests {
fn run_test_sighash_bip143(tx: &str, script: &str, input_index: usize, value: u64, hash_type: u32, expected_result: &str) { fn run_test_sighash_bip143(tx: &str, script: &str, input_index: usize, value: u64, hash_type: u32, expected_result: &str) {
let tx: Transaction = deserialize(&Vec::<u8>::from_hex(tx).unwrap()[..]).unwrap(); let tx: Transaction = deserialize(&Vec::<u8>::from_hex(tx).unwrap()[..]).unwrap();
let script = Script::from(Vec::<u8>::from_hex(script).unwrap()); let script = Script::from(Vec::<u8>::from_hex(script).unwrap());
let raw_expected = SigHash::from_hex(expected_result).unwrap(); let raw_expected = Sighash::from_hex(expected_result).unwrap();
let expected_result = SigHash::from_slice(&raw_expected[..]).unwrap(); let expected_result = Sighash::from_slice(&raw_expected[..]).unwrap();
let mut cache = SigHashCache::new(&tx); let mut cache = SigHashCache::new(&tx);
let sighash_type = EcdsaSighashType::from_u32_consensus(hash_type); let sighash_type = EcdsaSighashType::from_u32_consensus(hash_type);
let actual_result = cache.signature_hash(input_index, &script, value, sighash_type); let actual_result = cache.signature_hash(input_index, &script, value, sighash_type);
@ -237,20 +237,20 @@ mod tests {
tx_version: 1, tx_version: 1,
tx_locktime: 17, tx_locktime: 17,
hash_prevouts: hex_hash!( hash_prevouts: hex_hash!(
SigHash, "96b827c8483d4e9b96712b6713a7b68d6e8003a781feba36c31143470b4efd37" Sighash, "96b827c8483d4e9b96712b6713a7b68d6e8003a781feba36c31143470b4efd37"
), ),
hash_sequence: hex_hash!( hash_sequence: hex_hash!(
SigHash, "52b0a642eea2fb7ae638c36f6252b6750293dbe574a806984b8e4d8548339a3b" Sighash, "52b0a642eea2fb7ae638c36f6252b6750293dbe574a806984b8e4d8548339a3b"
), ),
hash_outputs: hex_hash!( hash_outputs: hex_hash!(
SigHash, "863ef3e1a92afbfdb97f31ad0fc7683ee943e9abcf2501590ff8f6551f47e5e5" Sighash, "863ef3e1a92afbfdb97f31ad0fc7683ee943e9abcf2501590ff8f6551f47e5e5"
), ),
} }
); );
assert_eq!( assert_eq!(
comp.sighash_all(&tx.input[1], &witness_script, value), comp.sighash_all(&tx.input[1], &witness_script, value),
hex_hash!(SigHash, "c37af31116d1b27caf68aae9e3ac82f1477929014d5b917657d0eb49478cb670") hex_hash!(Sighash, "c37af31116d1b27caf68aae9e3ac82f1477929014d5b917657d0eb49478cb670")
); );
} }
@ -273,20 +273,20 @@ mod tests {
tx_version: 1, tx_version: 1,
tx_locktime: 1170, tx_locktime: 1170,
hash_prevouts: hex_hash!( hash_prevouts: hex_hash!(
SigHash, "b0287b4a252ac05af83d2dcef00ba313af78a3e9c329afa216eb3aa2a7b4613a" Sighash, "b0287b4a252ac05af83d2dcef00ba313af78a3e9c329afa216eb3aa2a7b4613a"
), ),
hash_sequence: hex_hash!( hash_sequence: hex_hash!(
SigHash, "18606b350cd8bf565266bc352f0caddcf01e8fa789dd8a15386327cf8cabe198" Sighash, "18606b350cd8bf565266bc352f0caddcf01e8fa789dd8a15386327cf8cabe198"
), ),
hash_outputs: hex_hash!( hash_outputs: hex_hash!(
SigHash, "de984f44532e2173ca0d64314fcefe6d30da6f8cf27bafa706da61df8a226c83" Sighash, "de984f44532e2173ca0d64314fcefe6d30da6f8cf27bafa706da61df8a226c83"
), ),
} }
); );
assert_eq!( assert_eq!(
comp.sighash_all(&tx.input[0], &witness_script, value), comp.sighash_all(&tx.input[0], &witness_script, value),
hex_hash!(SigHash, "64f3b0f4dd2bb3aa1ce8566d220cc74dda9df97d8490cc81d89d735c92e59fb6") hex_hash!(Sighash, "64f3b0f4dd2bb3aa1ce8566d220cc74dda9df97d8490cc81d89d735c92e59fb6")
); );
} }
@ -316,20 +316,20 @@ mod tests {
tx_version: 1, tx_version: 1,
tx_locktime: 0, tx_locktime: 0,
hash_prevouts: hex_hash!( hash_prevouts: hex_hash!(
SigHash, "74afdc312af5183c4198a40ca3c1a275b485496dd3929bca388c4b5e31f7aaa0" Sighash, "74afdc312af5183c4198a40ca3c1a275b485496dd3929bca388c4b5e31f7aaa0"
), ),
hash_sequence: hex_hash!( hash_sequence: hex_hash!(
SigHash, "3bb13029ce7b1f559ef5e747fcac439f1455a2ec7c5f09b72290795e70665044" Sighash, "3bb13029ce7b1f559ef5e747fcac439f1455a2ec7c5f09b72290795e70665044"
), ),
hash_outputs: hex_hash!( hash_outputs: hex_hash!(
SigHash, "bc4d309071414bed932f98832b27b4d76dad7e6c1346f487a8fdbb8eb90307cc" Sighash, "bc4d309071414bed932f98832b27b4d76dad7e6c1346f487a8fdbb8eb90307cc"
), ),
} }
); );
assert_eq!( assert_eq!(
comp.sighash_all(&tx.input[0], &witness_script, value), comp.sighash_all(&tx.input[0], &witness_script, value),
hex_hash!(SigHash, "185c0be5263dce5b4bb50a047973c1b6272bfbd0103a89444597dc40b248ee7c") hex_hash!(Sighash, "185c0be5263dce5b4bb50a047973c1b6272bfbd0103a89444597dc40b248ee7c")
); );
} }
#[test] #[test]

18
src/util/sighash.rs
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@ -31,7 +31,7 @@ use core::borrow::Borrow;
use hashes::{sha256, sha256d, Hash}; use hashes::{sha256, sha256d, Hash};
use io; use io;
use util::taproot::{TapLeafHash, TAPROOT_ANNEX_PREFIX, TapSighashHash}; use util::taproot::{TapLeafHash, TAPROOT_ANNEX_PREFIX, TapSighashHash};
use SigHash; use Sighash;
use {Script, Transaction, TxOut}; use {Script, Transaction, TxOut};
use super::taproot::LeafVersion; use super::taproot::LeafVersion;
@ -593,9 +593,9 @@ impl<R: Deref<Target=Transaction>> SighashCache<R> {
if sighash != EcdsaSighashType::Single && sighash != EcdsaSighashType::None { if sighash != EcdsaSighashType::Single && sighash != EcdsaSighashType::None {
self.segwit_cache().outputs.consensus_encode(&mut writer)?; self.segwit_cache().outputs.consensus_encode(&mut writer)?;
} else if sighash == EcdsaSighashType::Single && input_index < self.tx.output.len() { } else if sighash == EcdsaSighashType::Single && input_index < self.tx.output.len() {
let mut single_enc = SigHash::engine(); let mut single_enc = Sighash::engine();
self.tx.output[input_index].consensus_encode(&mut single_enc)?; self.tx.output[input_index].consensus_encode(&mut single_enc)?;
SigHash::from_engine(single_enc).consensus_encode(&mut writer)?; Sighash::from_engine(single_enc).consensus_encode(&mut writer)?;
} else { } else {
zero_hash.consensus_encode(&mut writer)?; zero_hash.consensus_encode(&mut writer)?;
} }
@ -612,8 +612,8 @@ impl<R: Deref<Target=Transaction>> SighashCache<R> {
script_code: &Script, script_code: &Script,
value: u64, value: u64,
sighash_type: EcdsaSighashType, sighash_type: EcdsaSighashType,
) -> Result<SigHash, Error> { ) -> Result<Sighash, Error> {
let mut enc = SigHash::engine(); let mut enc = Sighash::engine();
self.segwit_encode_signing_data_to( self.segwit_encode_signing_data_to(
&mut enc, &mut enc,
input_index, input_index,
@ -621,7 +621,7 @@ impl<R: Deref<Target=Transaction>> SighashCache<R> {
value, value,
sighash_type, sighash_type,
)?; )?;
Ok(SigHash::from_engine(enc)) Ok(Sighash::from_engine(enc))
} }
/// Encode the legacy signing data for any flag type into a given object implementing a /// Encode the legacy signing data for any flag type into a given object implementing a
@ -651,10 +651,10 @@ impl<R: Deref<Target=Transaction>> SighashCache<R> {
input_index: usize, input_index: usize,
script_pubkey: &Script, script_pubkey: &Script,
sighash_type: u32, sighash_type: u32,
) -> Result<SigHash, Error> { ) -> Result<Sighash, Error> {
let mut enc = SigHash::engine(); let mut enc = Sighash::engine();
self.legacy_encode_signing_data_to(&mut enc, input_index, script_pubkey, sighash_type)?; self.legacy_encode_signing_data_to(&mut enc, input_index, script_pubkey, sighash_type)?;
Ok(SigHash::from_engine(enc)) Ok(Sighash::from_engine(enc))
} }
#[inline] #[inline]