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spend.rs
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spend.rs
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//! Sapling spends for `V4` and `V5` `Transaction`s.
//!
//! Zebra uses a generic spend type for `V4` and `V5` transactions.
//! The anchor change is handled using the `AnchorVariant` type trait.
use std::io;
use crate::{
block::MAX_BLOCK_BYTES,
primitives::{
redjubjub::{self, SpendAuth},
Groth16Proof,
},
serialization::{
ReadZcashExt, SerializationError, TrustedPreallocate, WriteZcashExt, ZcashDeserialize,
ZcashSerialize,
},
};
use super::{commitment, note, tree, AnchorVariant, FieldNotPresent, PerSpendAnchor, SharedAnchor};
/// A _Spend Description_, as described in [protocol specification §7.3][ps].
///
/// # Differences between Transaction Versions
///
/// In `Transaction::V4`, each `Spend` has its own anchor. In `Transaction::V5`,
/// there is a single `shared_anchor` for the entire transaction. This
/// structural difference is modeled using the `AnchorVariant` type trait.
///
/// `V4` transactions serialize the fields of spends and outputs together.
/// `V5` transactions split them into multiple arrays.
///
/// [ps]: https://zips.z.cash/protocol/protocol.pdf#spendencoding
#[derive(Clone, Debug, Serialize, Deserialize, PartialEq, Eq)]
pub struct Spend<AnchorV: AnchorVariant> {
/// A value commitment to the value of the input note.
pub cv: commitment::ValueCommitment,
/// An anchor for this spend.
///
/// The anchor is the root of the Sapling note commitment tree in a previous
/// block. This root should be in the best chain for a transaction to be
/// mined, and it must be in the relevant chain for a transaction to be
/// valid.
///
/// Some transaction versions have a shared anchor, rather than a per-spend
/// anchor.
pub per_spend_anchor: AnchorV::PerSpend,
/// The nullifier of the input note.
pub nullifier: note::Nullifier,
/// The randomized public key for `spend_auth_sig`.
pub rk: redjubjub::VerificationKeyBytes<SpendAuth>,
/// The ZK spend proof.
pub zkproof: Groth16Proof,
/// A signature authorizing this spend.
pub spend_auth_sig: redjubjub::Signature<SpendAuth>,
}
/// The serialization prefix fields of a `Spend` in Transaction V5.
///
/// In `V5` transactions, spends are split into multiple arrays, so the prefix,
/// proof, and signature must be serialised and deserialized separately.
///
/// Serialized as `SpendDescriptionV5` in [protocol specification §7.3][ps].
///
/// [ps]: https://zips.z.cash/protocol/protocol.pdf#spendencoding
#[derive(Clone, Debug, Serialize, Deserialize, PartialEq, Eq)]
pub struct SpendPrefixInTransactionV5 {
/// A value commitment to the value of the input note.
pub cv: commitment::ValueCommitment,
/// The nullifier of the input note.
pub nullifier: note::Nullifier,
/// The randomized public key for `spend_auth_sig`.
pub rk: redjubjub::VerificationKeyBytes<SpendAuth>,
}
impl From<(Spend<SharedAnchor>, tree::Root)> for Spend<PerSpendAnchor> {
/// Convert a `Spend<SharedAnchor>` and its shared anchor, into a
/// `Spend<PerSpendAnchor>`.
fn from(shared_spend: (Spend<SharedAnchor>, tree::Root)) -> Self {
Spend::<PerSpendAnchor> {
per_spend_anchor: shared_spend.1,
cv: shared_spend.0.cv,
nullifier: shared_spend.0.nullifier,
rk: shared_spend.0.rk,
zkproof: shared_spend.0.zkproof,
spend_auth_sig: shared_spend.0.spend_auth_sig,
}
}
}
impl From<(Spend<PerSpendAnchor>, FieldNotPresent)> for Spend<PerSpendAnchor> {
/// Take the `Spend<PerSpendAnchor>` from a spend + anchor tuple.
fn from(per_spend: (Spend<PerSpendAnchor>, FieldNotPresent)) -> Self {
per_spend.0
}
}
impl Spend<PerSpendAnchor> {
/// Encodes the primary inputs for the proof statement as 7 Bls12_381 base
/// field elements, to match bellman::groth16::verify_proof.
///
/// NB: jubjub::Fq is a type alias for bls12_381::Scalar.
///
/// https://zips.z.cash/protocol/protocol.pdf#cctsaplingspend
pub fn primary_inputs(&self) -> Vec<jubjub::Fq> {
let mut inputs = vec![];
let rk_affine = jubjub::AffinePoint::from_bytes(self.rk.into()).unwrap();
inputs.push(rk_affine.get_u());
inputs.push(rk_affine.get_v());
let cv_affine = jubjub::AffinePoint::from_bytes(self.cv.into()).unwrap();
inputs.push(cv_affine.get_u());
inputs.push(cv_affine.get_v());
// TODO: V4 only
inputs.push(jubjub::Fq::from_bytes(&self.per_spend_anchor.into()).unwrap());
let nullifier_limbs: [jubjub::Fq; 2] = self.nullifier.into();
inputs.push(nullifier_limbs[0]);
inputs.push(nullifier_limbs[1]);
inputs
}
}
impl Spend<SharedAnchor> {
/// Combine the prefix and non-prefix fields from V5 transaction
/// deserialization.
pub fn from_v5_parts(
prefix: SpendPrefixInTransactionV5,
zkproof: Groth16Proof,
spend_auth_sig: redjubjub::Signature<SpendAuth>,
) -> Spend<SharedAnchor> {
Spend::<SharedAnchor> {
cv: prefix.cv,
per_spend_anchor: FieldNotPresent,
nullifier: prefix.nullifier,
rk: prefix.rk,
zkproof,
spend_auth_sig,
}
}
/// Split out the prefix and non-prefix fields for V5 transaction
/// serialization.
pub fn into_v5_parts(
self,
) -> (
SpendPrefixInTransactionV5,
Groth16Proof,
redjubjub::Signature<SpendAuth>,
) {
let prefix = SpendPrefixInTransactionV5 {
cv: self.cv,
nullifier: self.nullifier,
rk: self.rk,
};
(prefix, self.zkproof, self.spend_auth_sig)
}
}
impl ZcashSerialize for Spend<PerSpendAnchor> {
fn zcash_serialize<W: io::Write>(&self, mut writer: W) -> Result<(), io::Error> {
self.cv.zcash_serialize(&mut writer)?;
writer.write_all(&self.per_spend_anchor.0[..])?;
writer.write_32_bytes(&self.nullifier.into())?;
writer.write_all(&<[u8; 32]>::from(self.rk)[..])?;
self.zkproof.zcash_serialize(&mut writer)?;
writer.write_all(&<[u8; 64]>::from(self.spend_auth_sig)[..])?;
Ok(())
}
}
impl ZcashDeserialize for Spend<PerSpendAnchor> {
fn zcash_deserialize<R: io::Read>(mut reader: R) -> Result<Self, SerializationError> {
Ok(Spend {
cv: commitment::ValueCommitment::zcash_deserialize(&mut reader)?,
per_spend_anchor: tree::Root(reader.read_32_bytes()?),
nullifier: note::Nullifier::from(reader.read_32_bytes()?),
rk: reader.read_32_bytes()?.into(),
zkproof: Groth16Proof::zcash_deserialize(&mut reader)?,
spend_auth_sig: reader.read_64_bytes()?.into(),
})
}
}
// zkproof and spend_auth_sig are deserialized separately, so we can only
// deserialize Spend<SharedAnchor> in the context of a V5 transaction.
//
// Instead, implement serialization and deserialization for the
// Spend<SharedAnchor> prefix fields, which are stored in the same array.
impl ZcashSerialize for SpendPrefixInTransactionV5 {
fn zcash_serialize<W: io::Write>(&self, mut writer: W) -> Result<(), io::Error> {
self.cv.zcash_serialize(&mut writer)?;
writer.write_32_bytes(&self.nullifier.into())?;
writer.write_all(&<[u8; 32]>::from(self.rk)[..])?;
Ok(())
}
}
impl ZcashDeserialize for SpendPrefixInTransactionV5 {
fn zcash_deserialize<R: io::Read>(mut reader: R) -> Result<Self, SerializationError> {
Ok(SpendPrefixInTransactionV5 {
cv: commitment::ValueCommitment::zcash_deserialize(&mut reader)?,
nullifier: note::Nullifier::from(reader.read_32_bytes()?),
rk: reader.read_32_bytes()?.into(),
})
}
}
/// In Transaction V5, SpendAuth signatures are serialized and deserialized in a
/// separate array.
impl ZcashSerialize for redjubjub::Signature<SpendAuth> {
fn zcash_serialize<W: io::Write>(&self, mut writer: W) -> Result<(), io::Error> {
writer.write_all(&<[u8; 64]>::from(*self)[..])?;
Ok(())
}
}
impl ZcashDeserialize for redjubjub::Signature<SpendAuth> {
fn zcash_deserialize<R: io::Read>(mut reader: R) -> Result<Self, SerializationError> {
Ok(reader.read_64_bytes()?.into())
}
}
/// The size of a spend with a per-spend anchor.
pub(crate) const ANCHOR_PER_SPEND_SIZE: u64 = SHARED_ANCHOR_SPEND_SIZE + 32;
/// The size of a spend with a shared anchor, without associated fields.
///
/// This is the size of spends in the initial array, there are another
/// 2 arrays of zkproofs and spend_auth_sigs required in the transaction format.
pub(crate) const SHARED_ANCHOR_SPEND_PREFIX_SIZE: u64 = 32 + 32 + 32;
/// The size of a spend with a shared anchor, including associated fields.
///
/// A Spend contains: a 32 byte cv, a 32 byte anchor (transaction V4 only),
/// a 32 byte nullifier, a 32 byte rk, a 192 byte zkproof (serialized separately
/// in V5), and a 64 byte spendAuthSig (serialized separately in V5).
///
/// [ps]: https://zips.z.cash/protocol/protocol.pdf#spendencoding
pub(crate) const SHARED_ANCHOR_SPEND_SIZE: u64 = SHARED_ANCHOR_SPEND_PREFIX_SIZE + 192 + 64;
/// The maximum number of sapling spends in a valid Zcash on-chain transaction V4.
impl TrustedPreallocate for Spend<PerSpendAnchor> {
fn max_allocation() -> u64 {
(MAX_BLOCK_BYTES - 1) / ANCHOR_PER_SPEND_SIZE
}
}
/// The maximum number of sapling spends in a valid Zcash on-chain transaction V5.
///
/// If a transaction contains more spends than can fit in maximally large block, it might be
/// valid on the network and in the mempool, but it can never be mined into a block. So
/// rejecting these large edge-case transactions can never break consensus.
impl TrustedPreallocate for SpendPrefixInTransactionV5 {
fn max_allocation() -> u64 {
// Since a serialized Vec<Spend> uses at least one byte for its length,
// and the associated fields are required,
// a valid max allocation can never exceed this size
(MAX_BLOCK_BYTES - 1) / SHARED_ANCHOR_SPEND_SIZE
}
}
impl TrustedPreallocate for redjubjub::Signature<SpendAuth> {
fn max_allocation() -> u64 {
// Each associated field must have a corresponding spend prefix.
SpendPrefixInTransactionV5::max_allocation()
}
}