Use the IETF transacript in bitcoin-serai, not RecommendedTranscript

This is more likely to be interoperable in the long term.
2024-11-16 17:07:35 +00:00 · 2024-09-19 21:13:08 -04:00 · 2024-09-19 21:13:08 -04:00 · 3af430d8de
commit 3af430d8de
parent dfb5a053ae
7 changed files with 21 additions and 76 deletions
--- a/Cargo.lock
+++ b/Cargo.lock
@ -1054,7 +1054,6 @@ name = "bitcoin-serai"
 version = "0.3.0"
 dependencies = [
 "bitcoin",
- "flexible-transcript",
 "hex",
 "k256",
 "modular-frost",
--- a/networks/bitcoin/Cargo.toml
+++ b/networks/bitcoin/Cargo.toml
@ -1,6 +1,6 @@
 [package]
 name = "bitcoin-serai"
-version = "0.4.0"
+version = "0.3.0"
 description = "A Bitcoin library for FROST-signing transactions"
 license = "MIT"
 repository = "https://github.com/serai-dex/serai/tree/develop/networks/bitcoin"
@ -26,8 +26,6 @@ rand_core = { version = "0.6", default-features = false }
 bitcoin = { version = "0.32", default-features = false }

 k256 = { version = "^0.13.1", default-features = false, features = ["arithmetic", "bits"] }
-
-transcript = { package = "flexible-transcript", path = "../../crypto/transcript", version = "0.3", default-features = false, features = ["recommended"], optional = true }
 frost = { package = "modular-frost", path = "../../crypto/frost", version = "0.8", default-features = false, features = ["secp256k1"], optional = true }

 hex = { version = "0.4", default-features = false, optional = true }
@ -55,8 +53,6 @@ std = [
  "bitcoin/serde",

  "k256/std",
-
-  "transcript/std",
  "frost",

  "hex/std",
--- a/networks/bitcoin/src/crypto.rs
+++ b/networks/bitcoin/src/crypto.rs
@ -40,14 +40,12 @@ mod frost_crypto {

  use bitcoin::hashes::{HashEngine, Hash, sha256::Hash as Sha256};

-  use transcript::Transcript;
-
  use k256::{elliptic_curve::ops::Reduce, U256, Scalar};

  use frost::{
    curve::{Ciphersuite, Secp256k1},
    Participant, ThresholdKeys, ThresholdView, FrostError,
-    algorithm::{Hram as HramTrait, Algorithm, Schnorr as FrostSchnorr},
+    algorithm::{Hram as HramTrait, Algorithm, IetfSchnorr as FrostSchnorr},
  };

  use super::*;
@ -82,16 +80,17 @@ mod frost_crypto {
  ///
  /// This must be used with a ThresholdKeys whose group key is even. If it is odd, this will panic.
  #[derive(Clone)]
-  pub struct Schnorr<T: Sync + Clone + Debug + Transcript>(FrostSchnorr<Secp256k1, T, Hram>);
-  impl<T: Sync + Clone + Debug + Transcript> Schnorr<T> {
+  pub struct Schnorr(FrostSchnorr<Secp256k1, Hram>);
+  impl Schnorr {
    /// Construct a Schnorr algorithm continuing the specified transcript.
-    pub fn new(transcript: T) -> Schnorr<T> {
-      Schnorr(FrostSchnorr::new(transcript))
+    #[allow(clippy::new_without_default)]
+    pub fn new() -> Schnorr {
+      Schnorr(FrostSchnorr::ietf())
    }
  }

-  impl<T: Sync + Clone + Debug + Transcript> Algorithm<Secp256k1> for Schnorr<T> {
-    type Transcript = T;
+  impl Algorithm<Secp256k1> for Schnorr {
+    type Transcript = <FrostSchnorr<Secp256k1, Hram> as Algorithm<Secp256k1>>::Transcript;
    type Addendum = ();
    type Signature = [u8; 64];

--- a/networks/bitcoin/src/tests/crypto.rs
+++ b/networks/bitcoin/src/tests/crypto.rs
@ -3,7 +3,6 @@ use rand_core::OsRng;
 use secp256k1::{Secp256k1 as BContext, Message, schnorr::Signature};

 use k256::Scalar;
-use transcript::{Transcript, RecommendedTranscript};
 use frost::{
  curve::Secp256k1,
  Participant,
@ -25,8 +24,7 @@ fn test_algorithm() {
    *keys = keys.offset(Scalar::from(offset));
  }

-  let algo =
-    Schnorr::<RecommendedTranscript>::new(RecommendedTranscript::new(b"bitcoin-serai sign test"));
+  let algo = Schnorr::new();
  let sig = sign(
    &mut OsRng,
    &algo,
--- a/networks/bitcoin/src/wallet/send.rs
+++ b/networks/bitcoin/src/wallet/send.rs
@ -7,9 +7,7 @@ use thiserror::Error;

 use rand_core::{RngCore, CryptoRng};

-use transcript::{Transcript, RecommendedTranscript};
-
-use k256::{elliptic_curve::sec1::ToEncodedPoint, Scalar};
+use k256::Scalar;
 use frost::{curve::Secp256k1, Participant, ThresholdKeys, FrostError, sign::*};

 use bitcoin::{
@ -268,41 +266,15 @@ impl SignableTransaction {
  /// Create a multisig machine for this transaction.
  ///
  /// Returns None if the wrong keys are used.
-  pub fn multisig(
-    self,
-    keys: &ThresholdKeys<Secp256k1>,
-    mut transcript: RecommendedTranscript,
-  ) -> Option<TransactionMachine> {
-    transcript.domain_separate(b"bitcoin_transaction");
-    transcript.append_message(b"root_key", keys.group_key().to_encoded_point(true).as_bytes());
-
-    // Transcript the inputs and outputs
-    let tx = &self.tx;
-    for input in &tx.input {
-      transcript.append_message(b"input_hash", input.previous_output.txid);
-      transcript.append_message(b"input_output_index", input.previous_output.vout.to_le_bytes());
-    }
-    for payment in &tx.output {
-      transcript.append_message(b"output_script", payment.script_pubkey.as_bytes());
-      transcript.append_message(b"output_amount", payment.value.to_sat().to_le_bytes());
-    }
-
+  pub fn multisig(self, keys: &ThresholdKeys<Secp256k1>) -> Option<TransactionMachine> {
    let mut sigs = vec![];
-    for i in 0 .. tx.input.len() {
-      let mut transcript = transcript.clone();
-      // This unwrap is safe since any transaction with this many inputs violates the maximum
-      // size allowed under standards, which this lib will error on creation of
-      transcript.append_message(b"signing_input", u32::try_from(i).unwrap().to_le_bytes());
-
+    for i in 0 .. self.tx.input.len() {
      let offset = keys.clone().offset(self.offsets[i]);
      if p2tr_script_buf(offset.group_key())? != self.prevouts[i].script_pubkey {
        None?;
      }

-      sigs.push(AlgorithmMachine::new(
-        Schnorr::new(transcript),
-        keys.clone().offset(self.offsets[i]),
-      ));
+      sigs.push(AlgorithmMachine::new(Schnorr::new(), keys.clone().offset(self.offsets[i])));
    }

    Some(TransactionMachine { tx: self, sigs })
@ -315,7 +287,7 @@ impl SignableTransaction {
 /// This will panic if either `cache` is called or the message isn't empty.
 pub struct TransactionMachine {
  tx: SignableTransaction,
-  sigs: Vec<AlgorithmMachine<Secp256k1, Schnorr<RecommendedTranscript>>>,
+  sigs: Vec<AlgorithmMachine<Secp256k1, Schnorr>>,
 }

 impl PreprocessMachine for TransactionMachine {
@ -344,7 +316,7 @@ impl PreprocessMachine for TransactionMachine {

 pub struct TransactionSignMachine {
  tx: SignableTransaction,
-  sigs: Vec<AlgorithmSignMachine<Secp256k1, Schnorr<RecommendedTranscript>>>,
+  sigs: Vec<AlgorithmSignMachine<Secp256k1, Schnorr>>,
 }

 impl SignMachine<Transaction> for TransactionSignMachine {
@ -424,7 +396,7 @@ impl SignMachine<Transaction> for TransactionSignMachine {

 pub struct TransactionSignatureMachine {
  tx: Transaction,
-  sigs: Vec<AlgorithmSignatureMachine<Secp256k1, Schnorr<RecommendedTranscript>>>,
+  sigs: Vec<AlgorithmSignatureMachine<Secp256k1, Schnorr>>,
 }

 impl SignatureMachine<Transaction> for TransactionSignatureMachine {
--- a/networks/bitcoin/tests/wallet.rs
+++ b/networks/bitcoin/tests/wallet.rs
@ -2,8 +2,6 @@ use std::collections::HashMap;

 use rand_core::{RngCore, OsRng};

-use transcript::{Transcript, RecommendedTranscript};
-
 use k256::{
  elliptic_curve::{
    group::{ff::Field, Group},
@ -94,12 +92,7 @@ fn sign(
 ) -> Transaction {
  let mut machines = HashMap::new();
  for i in (1 ..= THRESHOLD).map(|i| Participant::new(i).unwrap()) {
-    machines.insert(
-      i,
-      tx.clone()
-        .multisig(&keys[&i].clone(), RecommendedTranscript::new(b"bitcoin-serai Test Transaction"))
-        .unwrap(),
-    );
+    machines.insert(i, tx.clone().multisig(&keys[&i].clone()).unwrap());
  }
  sign_without_caching(&mut OsRng, machines, &[])
 }
--- a/processor/src/networks/bitcoin.rs
+++ b/processor/src/networks/bitcoin.rs
@ -4,7 +4,6 @@ use async_trait::async_trait;

 use scale::{Encode, Decode};

-use transcript::{Transcript, RecommendedTranscript};
 use ciphersuite::group::ff::PrimeField;
 use k256::{ProjectivePoint, Scalar};
 use frost::{
@ -249,7 +248,6 @@ impl EventualityTrait for Eventuality {

 #[derive(Clone, Debug)]
 pub struct SignableTransaction {
-  transcript: RecommendedTranscript,
  actual: BSignableTransaction,
 }
 impl PartialEq for SignableTransaction {
@ -820,7 +818,7 @@ impl Network for Bitcoin {
  async fn signable_transaction(
    &self,
    block_number: usize,
-    plan_id: &[u8; 32],
+    _plan_id: &[u8; 32],
    _key: ProjectivePoint,
    inputs: &[Output],
    payments: &[Payment<Self>],
@ -829,12 +827,8 @@ impl Network for Bitcoin {
  ) -> Result<Option<(Self::SignableTransaction, Self::Eventuality)>, NetworkError> {
    Ok(self.make_signable_transaction(block_number, inputs, payments, change, false).await?.map(
      |signable| {
-        let mut transcript =
-          RecommendedTranscript::new(b"Serai Processor Bitcoin Transaction Transcript");
-        transcript.append_message(b"plan", plan_id);
-
        let eventuality = Eventuality(signable.txid());
-        (SignableTransaction { transcript, actual: signable }, eventuality)
+        (SignableTransaction { actual: signable }, eventuality)
      },
    ))
  }
@ -844,13 +838,7 @@ impl Network for Bitcoin {
    keys: ThresholdKeys<Self::Curve>,
    transaction: Self::SignableTransaction,
  ) -> Result<Self::TransactionMachine, NetworkError> {
-    Ok(
-      transaction
-        .actual
-        .clone()
-        .multisig(&keys, transaction.transcript)
-        .expect("used the wrong keys"),
-    )
+    Ok(transaction.actual.clone().multisig(&keys).expect("used the wrong keys"))
  }

  async fn publish_completion(&self, tx: &Transaction) -> Result<(), NetworkError> {