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Add implementation of Sapling proof API

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This commit is contained in:
Sean Bowe 2018-07-17 16:46:10 -06:00
parent 3b05f8f201
commit 0800976a57
4 changed files with 529 additions and 6 deletions
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6
Cargo.lock generated
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@ -121,7 +121,7 @@ dependencies = [
"libc 0.2.40 (registry+https://github.com/rust-lang/crates.io-index)",
"pairing 0.14.2 (registry+https://github.com/rust-lang/crates.io-index)",
"rand 0.4.2 (registry+https://github.com/rust-lang/crates.io-index)",
"sapling-crypto 0.0.1 (git+https://github.com/zcash-hackworks/sapling-crypto?rev=6abfcca25ae233922ecc18a4d2d0b5cb7aab7c8c)",
"sapling-crypto 0.0.1 (git+https://github.com/zcash-hackworks/sapling-crypto?rev=c2862a43829632d64f0654e8a9cde9680ba48076)",
]
[[package]]
@ -159,7 +159,7 @@ dependencies = [
[[package]]
name = "sapling-crypto"
version = "0.0.1"
source = "git+https://github.com/zcash-hackworks/sapling-crypto?rev=6abfcca25ae233922ecc18a4d2d0b5cb7aab7c8c#6abfcca25ae233922ecc18a4d2d0b5cb7aab7c8c"
source = "git+https://github.com/zcash-hackworks/sapling-crypto?rev=c2862a43829632d64f0654e8a9cde9680ba48076#c2862a43829632d64f0654e8a9cde9680ba48076"
dependencies = [
"bellman 0.1.0 (registry+https://github.com/rust-lang/crates.io-index)",
"blake2-rfc 0.2.18 (git+https://github.com/gtank/blake2-rfc?rev=7a5b5fc99ae483a0043db7547fb79a6fa44b88a9)",
@ -214,7 +214,7 @@ source = "registry+https://github.com/rust-lang/crates.io-index"
"checksum num_cpus 1.8.0 (registry+https://github.com/rust-lang/crates.io-index)" = "c51a3322e4bca9d212ad9a158a02abc6934d005490c054a2778df73a70aa0a30"
"checksum pairing 0.14.2 (registry+https://github.com/rust-lang/crates.io-index)" = "ceda21136251c6d5a422d3d798d8ac22515a6e8d3521bb60c59a8349d36d0d57"
"checksum rand 0.4.2 (registry+https://github.com/rust-lang/crates.io-index)" = "eba5f8cb59cc50ed56be8880a5c7b496bfd9bd26394e176bc67884094145c2c5"
"checksum sapling-crypto 0.0.1 (git+https://github.com/zcash-hackworks/sapling-crypto?rev=6abfcca25ae233922ecc18a4d2d0b5cb7aab7c8c)" = "<none>"
"checksum sapling-crypto 0.0.1 (git+https://github.com/zcash-hackworks/sapling-crypto?rev=c2862a43829632d64f0654e8a9cde9680ba48076)" = "<none>"
"checksum typenum 1.10.0 (registry+https://github.com/rust-lang/crates.io-index)" = "612d636f949607bdf9b123b4a6f6d966dedf3ff669f7f045890d3a4a73948169"
"checksum winapi 0.3.4 (registry+https://github.com/rust-lang/crates.io-index)" = "04e3bd221fcbe8a271359c04f21a76db7d0c6028862d1bb5512d85e1e2eb5bb3"
"checksum winapi-i686-pc-windows-gnu 0.4.0 (registry+https://github.com/rust-lang/crates.io-index)" = "ac3b87c63620426dd9b991e5ce0329eff545bccbbb34f3be09ff6fb6ab51b7b6"

2
Cargo.toml
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@ -27,7 +27,7 @@ rev = "7a5b5fc99ae483a0043db7547fb79a6fa44b88a9"
[dependencies.sapling-crypto]
git = "https://github.com/zcash-hackworks/sapling-crypto"
rev = "6abfcca25ae233922ecc18a4d2d0b5cb7aab7c8c"
rev = "c2862a43829632d64f0654e8a9cde9680ba48076"
[profile.release]
lto = true

62
include/librustzcash.h
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@ -60,6 +60,68 @@ extern "C" {
unsigned char *result
);
/// Computes the signature for each Spend description, given the key
/// `ask`, the re-randomization `ar`, the 32-byte sighash `sighash`,
/// and an output `result` buffer of 64-bytes for the signature.
///
/// This function will fail if the provided `ask` or `ar` are invalid.
bool librustzcash_sapling_spend_sig(
const unsigned char *ask,
const unsigned char *ar,
const unsigned char *sighash,
unsigned char *result
);
/// Creates a Sapling proving context. Please free this when you're done.
void * librustzcash_sapling_proving_ctx_init();
/// This function (using the proving context) constructs a Spend proof
/// given the necessary witness information. It outputs `cv` (the value
/// commitment) and `rk` (so that you don't have to compute it) along
/// with the proof.
bool librustzcash_sapling_spend_proof(
void *ctx,
const unsigned char *ak,
const unsigned char *nsk,
const unsigned char *diversifier,
const unsigned char *rcm,
const unsigned char *ar,
const uint64_t value,
const unsigned char *anchor,
const unsigned char *witness,
unsigned char *cv,
unsigned char *rk,
unsigned char *zkproof
);
/// This function (using the proving context) constructs an Output
/// proof given the necessary witness information. It outputs `cv`
/// and the `zkproof`.
bool librustzcash_sapling_output_proof(
void *ctx,
const unsigned char *esk,
const unsigned char *diversifier,
const unsigned char *pk_d,
const unsigned char *rcm,
const uint64_t value,
unsigned char *cv,
unsigned char *zkproof
);
/// This function (using the proving context) constructs a binding
/// signature. You must provide the intended valueBalance so that
/// we can internally check consistency.
bool librustzcash_sapling_binding_sig(
void *ctx,
int64_t valueBalance,
const unsigned char *sighash,
unsigned char *result
);
/// Frees a Sapling proving context returned from
/// `librustzcash_sapling_proving_ctx_init`.
void librustzcash_sapling_proving_ctx_free(void *);
/// Creates a Sapling verification context. Please free this
/// when you're done.
void * librustzcash_sapling_verification_ctx_init();

465
src/rustzcash.rs
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@ -23,6 +23,8 @@ use sapling_crypto::{
};
use sapling_crypto::circuit::sprout::{self, TREE_DEPTH as SPROUT_TREE_DEPTH};
// TODO: make these consistent
const SAPLING_TREE_DEPTH: usize = 32;
use bellman::groth16::{
create_random_proof, prepare_verifying_key, verify_proof, Parameters, PreparedVerifyingKey,
@ -33,7 +35,7 @@ use blake2_rfc::blake2s::Blake2s;
use byteorder::{LittleEndian, ReadBytesExt, WriteBytesExt};
use rand::{OsRng, Rng};
use rand::{OsRng, Rng, Rand};
use std::io::BufReader;
use libc::{c_char, c_uchar, int64_t, size_t, uint32_t, uint64_t};
@ -41,7 +43,7 @@ use std::ffi::CStr;
use std::fs::File;
use std::slice;
use sapling_crypto::primitives::ViewingKey;
use sapling_crypto::primitives::{ValueCommitment, ViewingKey, ProofGenerationKey};
pub mod equihash;
@ -1019,3 +1021,462 @@ pub extern "system" fn librustzcash_sprout_verify(
_ => false,
}
}
pub struct SaplingProvingContext {
bsk: Fs,
bvk: edwards::Point<Bls12, Unknown>
}
#[no_mangle]
pub extern "system" fn librustzcash_sapling_output_proof(
ctx: *mut SaplingProvingContext,
esk: *const [c_uchar; 32],
diversifier: *const [c_uchar; 11],
pk_d: *const [c_uchar; 32],
rcm: *const [c_uchar; 32],
value: uint64_t,
cv: *mut [c_uchar; 32],
zkproof: *mut [c_uchar; GROTH_PROOF_SIZE]
) -> bool
{
// Grab `esk`, which the caller should have constructed for the DH key exchange.
let esk = match Fs::from_repr(read_fs(&(unsafe { &*esk })[..])) {
Ok(p) => p,
Err(_) => return false,
};
// Grab the diversifier from the caller.
let diversifier = sapling_crypto::primitives::Diversifier(unsafe { *diversifier });
// Grab pk_d from the caller.
let pk_d = match edwards::Point::<Bls12, Unknown>::read(&(unsafe { &*pk_d })[..], &JUBJUB) {
Ok(p) => p,
Err(_) => return false,
};
// pk_d should be prime order.
let pk_d = match pk_d.as_prime_order(&JUBJUB) {
Some(p) => p,
None => return false
};
// Construct a payment address
let payment_address = sapling_crypto::primitives::PaymentAddress {
pk_d: pk_d,
diversifier: diversifier
};
// Initialize secure RNG
let mut rng = OsRng::new().expect("should be able to construct RNG");
// The caller provides the commitment randomness for the output note
let rcm = match Fs::from_repr(read_fs(&(unsafe { &*rcm })[..])) {
Ok(p) => p,
Err(_) => return false,
};
// We construct ephemeral randomness for the value commitment. This
// randomness is not given back to the caller, but the synthetic
// blinding factor `bsk` is accumulated in the context.
let rcv = Fs::rand(&mut rng);
// Accumulate the value commitment randomness in the context
{
let mut tmp = rcv.clone();
tmp.negate(); // Outputs subtract from the total.
tmp.add_assign(&unsafe { &*ctx }.bsk);
// Update the context
unsafe { &mut *ctx }.bsk = tmp;
}
// Construct the value commitment for the proof instance
let value_commitment = sapling_crypto::primitives::ValueCommitment::<Bls12> {
value: value,
randomness: rcv
};
// We now have a full witness for the output proof.
let instance = sapling_crypto::circuit::sapling::Output {
params: &*JUBJUB,
value_commitment: Some(value_commitment.clone()),
payment_address: Some(payment_address.clone()),
commitment_randomness: Some(rcm),
esk: Some(esk.clone())
};
// Create proof
let proof = create_random_proof(instance, unsafe {SAPLING_OUTPUT_PARAMS.as_ref()}.unwrap(), &mut rng).expect("proving should not fail");
// Write the proof out to the caller
proof
.write(&mut (unsafe { &mut *zkproof })[..])
.expect("should be able to serialize a proof");
// Compute the value commitment
let value_commitment: edwards::Point<Bls12, Unknown> = value_commitment.cm(&JUBJUB).into();
// Accumulate the value commitment in the context. We do this to check internal consistency.
{
let mut tmp = value_commitment.clone();
tmp = tmp.negate(); // Outputs subtract from the total.
tmp = tmp.add(&unsafe { &*ctx }.bvk, &JUBJUB);
// Update the context
unsafe { &mut *ctx }.bvk = tmp;
}
// Write the value commitment to the caller
value_commitment
.write(&mut (unsafe { &mut *cv })[..])
.expect("should be able to serialize rcv");
true
}
#[no_mangle]
pub extern "system" fn librustzcash_sapling_spend_sig(
ask: *const [c_uchar; 32],
ar: *const [c_uchar; 32],
sighash: *const [c_uchar; 32],
result: *mut [c_uchar; 64],
) -> bool {
// The caller provides the re-randomization of `ak`.
let ar = match Fs::from_repr(read_fs(&(unsafe { &*ar })[..])) {
Ok(p) => p,
Err(_) => return false,
};
// The caller provides `ask`, the spend authorizing key.
let ask = match redjubjub::PrivateKey::<Bls12>::read(&(unsafe { &*ask })[..]) {
Ok(p) => p,
Err(_) => return false,
};
// We compute `rsk`...
let rsk = ask.randomize(ar);
// We compute `rk` from there (needed for key prefixing)
let rk = redjubjub::PublicKey::from_private(&rsk, FixedGenerators::SpendingKeyGenerator, &JUBJUB);
// Compute the signature's message for rk/spend_auth_sig
let mut data_to_be_signed = [0u8; 64];
rk.0.write(&mut data_to_be_signed[0..32]).expect("message buffer should be 32 bytes");
(&mut data_to_be_signed[32..64]).copy_from_slice(&(unsafe { &*sighash })[..]);
// Do the signing
let mut rng = OsRng::new().expect("should be able to construct RNG");
let sig = rsk.sign(&data_to_be_signed, &mut rng, FixedGenerators::SpendingKeyGenerator, &JUBJUB);
// Write out the signature
sig.write(&mut(unsafe { &mut *result })[..]).expect("result should be 64 bytes");
true
}
#[no_mangle]
pub extern "system" fn librustzcash_sapling_binding_sig(
ctx: *mut SaplingProvingContext,
value_balance: int64_t,
sighash: *const [c_uchar; 32],
result: *mut [c_uchar; 64],
) -> bool
{
// Grab the current `bsk` from the context
let bsk = redjubjub::PrivateKey::<Bls12>(unsafe { &*ctx }.bsk);
// Grab the `bvk` using DerivePublic.
let bvk = redjubjub::PublicKey::from_private(&bsk, FixedGenerators::ValueCommitmentRandomness, &JUBJUB);
// In order to check internal consistency, let's use the accumulated value
// commitments (as the verifier would) and apply valuebalance to compare
// against our derived bvk.
{
// Compute value balance
let mut value_balance = match compute_value_balance(value_balance) {
Some(a) => a,
None => return false,
};
// Subtract value_balance from current bvk to get final bvk
value_balance = value_balance.negate();
let mut tmp = unsafe { &*ctx }.bvk.clone();
tmp = tmp.add(&value_balance, &JUBJUB);
// The result should be the same, unless the provided valueBalance is wrong.
if bvk.0 != tmp {
return false;
}
}
// Construct signature message
let mut data_to_be_signed = [0u8; 64];
bvk.0.write(&mut data_to_be_signed[0..32]).expect("message buffer should be 32 bytes");
(&mut data_to_be_signed[32..64]).copy_from_slice(&(unsafe { &*sighash })[..]);
// Sign
let mut rng = OsRng::new().expect("should be able to construct RNG");
let sig = bsk.sign(&data_to_be_signed, &mut rng, FixedGenerators::ValueCommitmentRandomness, &JUBJUB);
// Write out signature
sig.write(&mut(unsafe { &mut *result })[..]).expect("result should be 64 bytes");
true
}
#[no_mangle]
pub extern "system" fn librustzcash_sapling_spend_proof(
ctx: *mut SaplingProvingContext,
ak: *const [c_uchar; 32],
nsk: *const [c_uchar; 32],
diversifier: *const [c_uchar; 11],
rcm: *const [c_uchar; 32],
ar: *const [c_uchar; 32],
value: uint64_t,
anchor: *const [c_uchar; 32],
witness: *const [c_uchar; 1 + 33 * SAPLING_TREE_DEPTH + 8],
cv: *mut [c_uchar; 32],
rk_out: *mut [c_uchar; 32],
zkproof: *mut [c_uchar; GROTH_PROOF_SIZE],
) -> bool {
let mut rng = OsRng::new().expect("should be able to construct RNG");
// We create the randomness of the value commitment
let rcv = Fs::rand(&mut rng);
// Accumulate the value commitment randomness in the context
{
let mut tmp = rcv.clone();
tmp.add_assign(&unsafe { &*ctx }.bsk);
// Update the context
unsafe { &mut *ctx }.bsk = tmp;
}
// Construct the value commitment
let value_commitment = ValueCommitment::<Bls12> {
value: value,
randomness: rcv,
};
// Grab `ak` from the caller, which should be a point.
let ak = match edwards::Point::<Bls12, Unknown>::read(&(unsafe { &*ak })[..], &JUBJUB) {
Ok(p) => p,
Err(_) => return false,
};
// `ak` should be prime order.
let ak = match ak.as_prime_order(&JUBJUB) {
Some(p) => p,
None => return false,
};
// Grab `nsk` from the caller
let nsk = match Fs::from_repr(read_fs(&(unsafe { &*nsk })[..])) {
Ok(p) => p,
Err(_) => return false,
};
// Construct the proof generation key
let proof_generation_key = ProofGenerationKey {
ak: ak.clone(),
nsk,
};
// Construct the viewing key
let viewing_key = proof_generation_key.into_viewing_key(&JUBJUB);
// Grab the diversifier from the caller
let diversifier = sapling_crypto::primitives::Diversifier(unsafe { *diversifier });
// Construct the payment address with the viewing key / diversifier
let payment_address = match viewing_key.into_payment_address(diversifier, &JUBJUB) {
Some(p) => p,
None => return false,
};
// The caller chooses the note randomness
let rcm = match Fs::from_repr(read_fs(&(unsafe { &*rcm })[..])) {
Ok(p) => p,
Err(_) => return false,
};
// The caller also chooses the re-randomization of ak
let ar = match Fs::from_repr(read_fs(&(unsafe { &*ar })[..])) {
Ok(p) => p,
Err(_) => return false,
};
// This is the result of the re-randomization, we compute it for the caller
let rk = redjubjub::PublicKey::<Bls12>(ak.into()).randomize(ar, FixedGenerators::SpendingKeyGenerator, &JUBJUB);
// Write out `rk` to the caller
rk.write(&mut unsafe { &mut *rk_out }[..]).expect("should be able to write to rk_out");
// We need to compute the anchor of the Spend.
let anchor = match Fr::from_repr(read_le(unsafe { &(&*anchor)[..] })) {
Ok(p) => p,
Err(_) => return false,
};
// The witness contains the incremental tree witness information, in a
// weird serialized format.
let mut witness = unsafe { &(&*witness)[..] };
// Skip the first byte, which should be "32" to signify the length of
// the following vector of Pedersen hashes.
assert_eq!(witness[0], SAPLING_TREE_DEPTH as u8);
witness = &witness[1..];
// Begin to construct the authentication path
let mut auth_path = vec![None; SAPLING_TREE_DEPTH];
// The vector works in reverse
for i in (0..SAPLING_TREE_DEPTH).rev() {
// skip length of inner vector
assert_eq!(witness[0], 32); // the length of a pedersen hash
witness = &witness[1..];
// Grab the sibling node at this depth in the tree
let mut sibling = [0u8; 32];
sibling.copy_from_slice(&witness[0..32]);
witness = &witness[32..];
// Sibling node should be an element of Fr
let sibling = match Fr::from_repr(read_le(&sibling)) {
Ok(p) => p,
Err(_) => return false,
};
// Set the value in the auth path; we put false here
// for now (signifying the position bit) which we'll
// fill in later.
auth_path[i] = Some((sibling, false));
}
// Read the position from the witness
let mut position = witness
.read_u64::<LittleEndian>()
.expect("should have had index at the end");
// Let's compute the nullifier while we have the position
let note = sapling_crypto::primitives::Note {
value: value,
g_d: diversifier.g_d::<Bls12>(&JUBJUB).expect("was a valid diversifier before"),
pk_d: payment_address.pk_d.clone(),
r: rcm
};
let nullifier = note.nf(&viewing_key, position, &JUBJUB);
// Given the position, let's finish constructing the authentication
// path
for i in 0..SAPLING_TREE_DEPTH {
auth_path[i].as_mut().map(|p| p.1 = (position & 1) == 1);
position >>= 1;
}
// The witness should be empty now; if it wasn't, the caller would
// have provided more information than they should have, indicating
// a bug downstream
assert_eq!(witness.len(), 0);
// We now have the full witness for our circuit
let instance = sapling_crypto::circuit::sapling::Spend {
params: &*JUBJUB,
value_commitment: Some(value_commitment.clone()),
proof_generation_key: Some(proof_generation_key),
payment_address: Some(payment_address),
commitment_randomness: Some(rcm),
ar: Some(ar),
auth_path: auth_path,
anchor: Some(anchor),
};
// Create proof
let proof = create_random_proof(instance, unsafe {SAPLING_SPEND_PARAMS.as_ref()}.unwrap(), &mut rng).expect("proving should not fail");
// Try to verify the proof:
// Construct public input for circuit
let mut public_input = [Fr::zero(); 7];
{
let (x, y) = rk.0.into_xy();
public_input[0] = x;
public_input[1] = y;
}
{
let (x, y) = value_commitment.cm(&JUBJUB).into_xy();
public_input[2] = x;
public_input[3] = y;
}
public_input[4] = anchor;
// Add the nullifier through multiscalar packing
{
let nullifier = multipack::bytes_to_bits_le(&nullifier);
let nullifier = multipack::compute_multipacking::<Bls12>(&nullifier);
assert_eq!(nullifier.len(), 2);
public_input[5] = nullifier[0];
public_input[6] = nullifier[1];
}
// Verify the proof
match verify_proof(
unsafe { SAPLING_SPEND_VK.as_ref() }.unwrap(),
&proof,
&public_input[..],
) {
// No error, and proof verification successful
Ok(true) => {},
// Any other case
_ => {return false;},
}
// Compute value commitment
let value_commitment: edwards::Point<Bls12, Unknown> = value_commitment.cm(&JUBJUB).into();
// Accumulate the value commitment in the context
{
let mut tmp = value_commitment.clone();
tmp = tmp.add(&unsafe { &*ctx }.bvk, &JUBJUB);
// Update the context
unsafe { &mut *ctx }.bvk = tmp;
}
// Write value commitment to caller
value_commitment
.write(&mut unsafe { &mut *cv }[..])
.expect("should be able to serialize cv");
// Write proof out to caller
proof
.write(&mut (unsafe { &mut *zkproof })[..])
.expect("should be able to serialize a proof");
true
}
#[no_mangle]
pub extern "system" fn librustzcash_sapling_proving_ctx_init(
) -> *mut SaplingProvingContext {
let ctx = Box::new(SaplingProvingContext {
bsk: Fs::zero(),
bvk: edwards::Point::zero()
});
Box::into_raw(ctx)
}
#[no_mangle]
pub extern "system" fn librustzcash_sapling_proving_ctx_free(
ctx: *mut SaplingProvingContext,
) {
drop(unsafe { Box::from_raw(ctx) });
}