zcash-haskell/librustzcash-wrapper/src/lib.rs

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// Copyright 2022-2024 Vergara Technologies LLC
//
// This file is part of Zcash-Haskell.
//
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use std::{
marker::PhantomData,
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io::{
Write,
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Cursor
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},
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};
use nonempty::NonEmpty;
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use rand_core::OsRng;
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use f4jumble;
use borsh::{BorshDeserialize, BorshSerialize};
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use haskell_ffi::{
error::Result,
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from_haskell::{marshall_from_haskell_var, marshall_from_haskell_fixed},
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to_haskell::{marshall_to_haskell_var, marshall_to_haskell_fixed},
FromHaskell, HaskellSize, ToHaskell
};
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use secp256k1::SecretKey;
use jubjub::Fr;
use incrementalmerkletree::{
Hashable,
Level,
Position,
frontier::{
CommitmentTree,
Frontier,
NonEmptyFrontier
},
witness::IncrementalWitness
};
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use zip32::{
Scope as SaplingScope,
ChildIndex
};
use sapling_crypto::{
NOTE_COMMITMENT_TREE_DEPTH as SAPLING_DEPTH,
Node,
MerklePath,
PaymentAddress,
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Anchor as SaplingAnchor,
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value::ValueCommitment as SaplingValueCommitment,
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note::{
ExtractedNoteCommitment as SaplingNoteCommitment,
Note as SaplingNote,
Rseed
},
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keys::{
PreparedIncomingViewingKey as SaplingPreparedIncomingViewingKey,
ExpandedSpendingKey,
FullViewingKey as SaplingFullViewingKey
},
note_encryption::{
SaplingDomain,
Zip212Enforcement
},
bundle::{
GrothProofBytes,
OutputDescription,
SpendDescription,
Authorized as SaplingAuthorized,
Bundle as SaplingBundle
},
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value::NoteValue as SaplingNoteValue,
circuit::{
SpendParameters,
OutputParameters
},
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zip32::{
sapling_find_address,
DiversifierKey
}
};
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use bip0039::{Count, Mnemonic, English};
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use zcash_primitives::{
merkle_tree::{
read_commitment_tree,
write_commitment_tree,
read_incremental_witness,
write_incremental_witness,
read_frontier_v1,
read_nonempty_frontier_v1
},
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legacy::{
Script,
TransparentAddress
},
transaction::{
Transaction,
fees::zip317::FeeRule,
builder::{
Builder,
Error,
BuildConfig
},
components::{
amount::{
Amount,
NonNegativeAmount
},
transparent::{
Bundle as TransparentBundle,
TxIn,
TxOut,
OutPoint,
Authorized
}
}
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},
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memo::MemoBytes,
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consensus::{
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BranchId::Nu5,
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MainNetwork,
TestNetwork,
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BlockHeight
}
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};
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use zcash_address::{
Network,
unified::{Address, Encoding, Ufvk, Container, Fvk, Receiver},
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ZcashAddress
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};
use zcash_client_backend::encoding::decode_payment_address;
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use zcash_client_backend::keys::sapling::{
spending_key,
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ExtendedFullViewingKey,
ExtendedSpendingKey,
DiversifiableFullViewingKey
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};
use zcash_primitives::zip32::DiversifierIndex;
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use orchard::{
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Address as OrchardAddress,
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Bundle as OrchardBundle,
bundle::{
Authorized as OrchardAuthorized,
Flags
},
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Action,
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keys::{SpendingKey, FullViewingKey, PreparedIncomingViewingKey, Scope},
note::{Rho, RandomSeed, Note, Nullifier, TransmittedNoteCiphertext, ExtractedNoteCommitment},
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note_encryption::OrchardDomain,
primitives::redpallas::{VerificationKey, SpendAuth, Signature},
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tree::{
MerklePath as OrchardMerklePath,
MerkleHashOrchard,
Anchor as OrchardAnchor
},
value::{
ValueCommitment,
NoteValue
}
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};
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use bech32::{
Hrp,
Bech32,
Bech32m
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};
use wagyu_zcash_parameters::load_sapling_parameters;
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pub enum RW {}
pub const RW: PhantomData<RW> = PhantomData;
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct RawData {
hrp: Vec<u8>,
bytes: Vec<u8>
}
impl<RW> ToHaskell<RW> for RawData {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
//impl<RW> FromHaskell<RW> for RawData {
//fn from_haskell(buf: &mut &[u8], _tag: PhantomData<RW>) -> Result<Self> {
//let x = RawData::deserialize(buf)?;
//Ok(x)
//}
//}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct HrawTx {
bytes: Vec<u8>,
s: bool,
o: bool
}
impl<RW> ToHaskell<RW> for HrawTx {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct HshieldedOutput {
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pub cv: Hhex,
cmu: Hhex,
eph_key: Hhex,
enc_txt: Hhex,
out_txt: Hhex,
proof: Hhex
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}
impl<RW> FromHaskell<RW> for HshieldedOutput {
fn from_haskell(buf: &mut &[u8], _tag: PhantomData<RW>) -> Result<Self> {
let x = HshieldedOutput::deserialize(buf)?;
Ok(x)
}
}
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impl<RW> ToHaskell<RW> for HshieldedOutput {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
impl HshieldedOutput {
fn from_object(s: &OutputDescription<GrothProofBytes>) -> HshieldedOutput {
HshieldedOutput { cv: Hhex{ bytes: s.cv().to_bytes().to_vec()}, cmu: Hhex{ bytes: s.cmu().to_bytes().to_vec()}, eph_key: Hhex{ bytes: s.ephemeral_key().0.to_vec()}, enc_txt: Hhex{ bytes: s.enc_ciphertext().to_vec()}, out_txt: Hhex{ bytes: s.out_ciphertext().to_vec()}, proof: Hhex{ bytes: s.zkproof().to_vec()} }
}
pub fn pack(sp: &[OutputDescription<GrothProofBytes>]) -> Vec<HshieldedOutput> {
let mut r = Vec::new();
for s in sp {
r.push(HshieldedOutput::from_object(s));
}
return r
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}
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pub fn to_output_description(&mut self) -> Result<OutputDescription<GrothProofBytes>> {
let cv = SaplingValueCommitment::from_bytes_not_small_order(&to_array(self.cv.bytes.clone())).unwrap();
let cmu = SaplingNoteCommitment::from_bytes(&to_array(self.cmu.bytes.clone())).unwrap();
let eph_key = zcash_note_encryption::EphemeralKeyBytes::from(to_array(self.eph_key.bytes.clone()));
let x = OutputDescription::from_parts(cv, cmu, eph_key, to_array(self.enc_txt.bytes.clone()), to_array(self.out_txt.bytes.clone()), to_array(self.proof.bytes.clone()));
return Ok(x)
}
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}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct Hhex {
bytes: Vec<u8>
}
impl<RW> ToHaskell<RW> for Hhex {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct Haction {
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nf: Hhex,
rk: Hhex,
cmx: Hhex,
eph_key: Hhex,
enc_txt: Hhex,
out_txt: Hhex,
cv: Hhex,
auth: Hhex
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}
impl<RW> FromHaskell<RW> for Haction {
fn from_haskell(buf: &mut &[u8], _tag: PhantomData<RW>) -> Result<Self> {
let x = Haction::deserialize(buf)?;
Ok(x)
}
}
impl Haction {
pub fn pack(sp: &NonEmpty<Action<Signature<SpendAuth>>>) -> Vec<Haction> {
let mut r = Vec::new();
for s in sp {
r.push(Haction {nf: Hhex { bytes: s.nullifier().to_bytes().to_vec()}, rk: Hhex { bytes: <[u8; 32]>::from(s.rk()).to_vec()}, cmx: Hhex{bytes: s.cmx().to_bytes().to_vec()}, eph_key: Hhex{ bytes: s.encrypted_note().epk_bytes.to_vec()}, enc_txt: Hhex {bytes: s.encrypted_note().enc_ciphertext.to_vec()}, out_txt: Hhex {bytes: s.encrypted_note().out_ciphertext.to_vec()}, cv: Hhex {bytes: s.cv_net().to_bytes().to_vec()}, auth: Hhex { bytes: <[u8; 64]>::from(s.authorization()).to_vec()}});
}
return r
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct Hnote {
note: u64,
recipient: Vec<u8>,
memo: Vec<u8>,
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nullifier: Vec<u8>,
rho: Vec<u8>,
rseed: Hrseed
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}
impl<RW> ToHaskell<RW> for Hnote {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct Hrseed {
kind: u8,
bytes: Vec<u8>
}
impl<RW> FromHaskell<RW> for Hrseed {
fn from_haskell(buf: &mut &[u8], _tag: PhantomData<RW>) -> Result<Self> {
let x = Hrseed::deserialize(buf)?;
Ok(x)
}
}
impl<RW> ToHaskell<RW> for Hrseed {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct Hua {
net: u8,
o_rec: Vec<u8>,
s_rec: Vec<u8>,
t_rec: Vec<u8>,
to_rec: Vec<u8>
}
impl<RW> ToHaskell<RW> for Hua {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
impl Hua {
fn add_rec(&mut self, rec: &Receiver) {
if let Receiver::Orchard(x) = rec {
self.o_rec = x.to_vec();
}
if let Receiver::Sapling(y) = rec {
self.s_rec = y.to_vec();
}
if let Receiver::P2pkh(z) = rec {
self.t_rec = z.to_vec();
}
if let Receiver::P2sh(w) = rec {
self.to_rec = w.to_vec();
}
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
pub struct Htx {
txid: Vec<u8>,
locktime: u32,
expiry: u32,
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t_bundle: HTBundle,
s_bundle: HSBundle,
o_bundle: HOBundle
}
impl<RW> ToHaskell<RW> for Htx {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
pub struct HTBundle {
empty: bool,
vin: Vec<HTxIn>,
vout: Vec<HTxOut>,
coinbase: bool
}
impl<RW> ToHaskell<RW> for HTBundle {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
impl HTBundle {
pub fn from_bundle(b: &TransparentBundle<Authorized>) -> HTBundle {
HTBundle {empty: false, vin: b.vin.iter().map(HTxIn::pack).collect() , vout: b.vout.iter().map(HTxOut::pack).collect(), coinbase: b.is_coinbase()}
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
pub struct HTxIn {
outpoint: Houtpoint,
script: Vec<u8>,
sequence: u32
}
impl<RW> ToHaskell<RW> for HTxIn {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
impl HTxIn {
pub fn pack(t: &TxIn<Authorized>) -> HTxIn {
return HTxIn { outpoint: Houtpoint::pack(&t.prevout), script: t.script_sig.0.clone(), sequence: t.sequence}
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
pub struct HTxOut {
amt: i64,
script: Vec<u8>
}
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impl<RW> FromHaskell<RW> for HTxOut {
fn from_haskell(buf: &mut &[u8], _tag: PhantomData<RW>) -> Result<Self> {
let x = HTxOut::deserialize(buf)?;
Ok(x)
}
}
impl<RW> ToHaskell<RW> for HTxOut {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
impl HTxOut {
pub fn pack(t: &TxOut) -> HTxOut {
return HTxOut { amt: i64::from_le_bytes(t.value.to_i64_le_bytes()) , script: t.script_pubkey.0.clone() }
}
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pub fn unpack(&self) -> TxOut {
TxOut { value: NonNegativeAmount::from_nonnegative_i64(self.amt).unwrap(), script_pubkey: Script(self.script.clone())}
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
pub struct Houtpoint {
hash: Vec<u8>,
index: u32
}
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impl<RW> FromHaskell<RW> for Houtpoint {
fn from_haskell(buf: &mut &[u8], _tag: PhantomData<RW>) -> Result<Self> {
let x = Houtpoint::deserialize(buf)?;
Ok(x)
}
}
impl<RW> ToHaskell<RW> for Houtpoint {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
impl Houtpoint {
pub fn pack(o: &OutPoint) -> Houtpoint {
return Houtpoint {hash: o.hash().to_vec() , index: o.n() }
}
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pub fn unpack(&self) -> OutPoint {
OutPoint::new(to_array(self.hash.clone()), self.index)
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct HtransparentInput {
sk: Vec<u8>,
utxo: Houtpoint,
coin: HTxOut
}
impl<RW> FromHaskell<RW> for HtransparentInput {
fn from_haskell(buf: &mut &[u8], _tag: PhantomData<RW>) -> Result<Self> {
let x = HtransparentInput::deserialize(buf)?;
Ok(x)
}
}
impl<RW> ToHaskell<RW> for HtransparentInput {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct HSBundle {
empty: bool,
spends: Vec<Hspend>,
outputs: Vec<HshieldedOutput> ,
value: i64,
sig: Vec<u8>
}
impl<RW> ToHaskell<RW> for HSBundle {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
impl HSBundle {
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pub fn from_bundle(sb: &SaplingBundle<SaplingAuthorized, Amount>) -> HSBundle {
let sig = <[u8; 64]>::from(sb.authorization().binding_sig);
return HSBundle {empty: false, spends: Hspend::pack(sb.shielded_spends()) , outputs: HshieldedOutput::pack(sb.shielded_outputs()) , value: i64::from(sb.value_balance()) , sig: sig.to_vec()}
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}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct Hspend {
cv: Hhex,
anchor: Hhex,
nullifier: Hhex,
rk: Hhex,
proof: Hhex,
authsig: Hhex
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}
impl<RW> ToHaskell<RW> for Hspend {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
impl Hspend {
pub fn pack(sp: &[SpendDescription<SaplingAuthorized>]) -> Vec<Hspend> {
let mut r = Vec::new();
for s in sp {
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let rk = s.rk().clone();
let sig = s.spend_auth_sig().clone();
r.push(Hspend {cv: Hhex{bytes:s.cv().to_bytes().to_vec()}, anchor: Hhex{bytes:s.anchor().to_bytes().to_vec()}, nullifier: Hhex{bytes:s.nullifier().to_vec()}, rk: Hhex{bytes: <[u8; 32]>::from(rk).to_vec()}, proof: Hhex{bytes:s.zkproof().to_vec()}, authsig: Hhex{bytes: <[u8; 64]>::from(sig).to_vec()}});
}
return r
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}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct HsaplingInput {
sk: Vec<u8>,
note: Hnote,
iw: Vec<u8>
}
impl<RW> FromHaskell<RW> for HsaplingInput {
fn from_haskell(buf: &mut &[u8], _tag: PhantomData<RW>) -> Result<Self> {
let x = HsaplingInput::deserialize(buf)?;
Ok(x)
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct HorchardInput {
sk: Vec<u8>,
note: Hnote,
iw: Vec<u8>
}
impl<RW> FromHaskell<RW> for HorchardInput {
fn from_haskell(buf: &mut &[u8], _tag: PhantomData<RW>) -> Result<Self> {
let x = HorchardInput::deserialize(buf)?;
Ok(x)
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct Houtput {
kind: u8,
ovk: Vec<u8>,
to: Vec<u8>,
amt: u64,
memo: Vec<u8>,
chg: bool
}
impl<RW> FromHaskell<RW> for Houtput {
fn from_haskell(buf: &mut &[u8], _tag: PhantomData<RW>) -> Result<Self> {
let x = Houtput::deserialize(buf)?;
Ok(x)
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct HOBundle {
empty: bool,
actions: Vec<Haction>,
flags: Hflags,
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value: i64,
anchor: Hhex,
proof: Hhex,
bindingsig: Hhex
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}
impl<RW> ToHaskell<RW> for HOBundle {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
impl HOBundle {
pub fn from_bundle(b: &OrchardBundle<OrchardAuthorized, Amount>) -> HOBundle {
return HOBundle {empty: false, actions: Haction::pack(b.actions()), flags: Hflags::pack(b.flags()), value: i64::from(b.value_balance()), anchor: Hhex{ bytes: b.anchor().to_bytes().to_vec()}, proof: Hhex { bytes: b.authorization().proof().as_ref().to_vec()}, bindingsig: Hhex {bytes: <[u8; 64]>::from(b.authorization().binding_signature()).to_vec()}}
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}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct Hflags {
spends: bool,
outputs: bool
}
impl<RW> ToHaskell<RW> for Hflags {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
impl Hflags {
pub fn pack(f: &Flags) -> Hflags {
return Hflags {spends: f.spends_enabled(), outputs: f.outputs_enabled()}
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct Hufvk {
net: u8,
orchard: Vec<u8>,
sapling: Vec<u8>,
transparent: Vec<u8>
}
impl<RW> ToHaskell<RW> for Hufvk {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
impl Hufvk {
fn add_key_section(&mut self, fvk: &Fvk) {
if let Fvk::Orchard(v) = fvk {
self.orchard = v.to_vec();
}
if let Fvk::Sapling(w) = fvk {
self.sapling = w.to_vec();
}
if let Fvk::P2pkh(x) = fvk {
self.transparent = x.to_vec();
}
}
}
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#[derive(Debug, BorshSerialize, BorshDeserialize)]
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pub struct Hsvk {
vk: Vec<u8>,
ovk: Vec<u8>
}
impl<RW> ToHaskell<RW> for Hsvk {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
#[derive(BorshSerialize, BorshDeserialize)]
pub struct Hfrontier {
position: u64,
leaf: Hhex,
ommers: Vec<Hhex>
}
impl<RW> ToHaskell<RW> for Hfrontier {
fn to_haskell<W: Write>(&self, writer: &mut W, _tag: PhantomData<RW>) -> Result<()> {
self.serialize(writer)?;
Ok(())
}
}
impl<RW> FromHaskell<RW> for Hfrontier {
fn from_haskell(buf: &mut &[u8], _tag: PhantomData<RW>) -> Result<Self> {
let x = Hfrontier::deserialize(buf)?;
Ok(x)
}
}
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fn to_array<T, const N: usize>(v: Vec<T>) -> [T; N] {
v.try_into().unwrap_or_else(|v: Vec<T>| panic!("Expected a Vec of length {} but it was {}", N, v.len()))
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_f4jumble(
input: *const u8,
input_len: usize,
out: *mut u8,
out_len: &mut usize) {
let input: Vec<u8> = marshall_from_haskell_var(input, input_len, RW);
let result = f4jumble::f4jumble(&input).unwrap();
marshall_to_haskell_var(&result, out, out_len, RW);
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_f4unjumble(
input: *const u8,
input_len: usize,
out: *mut u8,
out_len: &mut usize) {
let input: Vec<u8> = marshall_from_haskell_var(input, input_len, RW);
let result = f4jumble::f4jumble_inv(&input).unwrap();
marshall_to_haskell_var(&result, out, out_len, RW);
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_ua_decode(
input: *const u8,
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input_len: usize,
out: *mut u8,
out_len: &mut usize) {
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let input: String = marshall_from_haskell_var(input, input_len, RW);
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let dec_addy = Address::decode(&input);
match dec_addy {
Ok((n, ua)) => {
let x = match n {
Network::Main => 1,
Network::Test => 2,
Network::Regtest => 3
};
let mut hk = Hua { net: x, o_rec: vec![0], s_rec: vec![0], t_rec: vec![0], to_rec: vec![0] };
let recvs = ua.items();
recvs.iter().for_each(|k| hk.add_rec(k));
marshall_to_haskell_var(&hk, out, out_len, RW);
}
Err(_e) => {
let hk0 = Hua { net: 0, o_rec: vec![0], s_rec: vec![0], t_rec: vec![0], to_rec: vec![0]};
marshall_to_haskell_var(&hk0, out, out_len, RW);
}
}
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//marshall_to_haskell_var(&result, out, out_len, RW);
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_shielded_decode(
input: *const u8,
input_len: usize) -> bool {
let input: String = marshall_from_haskell_var(input, input_len, RW);
ZcashAddress::try_from_encoded(&input).is_ok()
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_bech32decode(
input: *const u8,
input_len: usize,
out: *mut u8,
out_len: &mut usize
) {
let input: String = marshall_from_haskell_var(input, input_len, RW);
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let decoded_bytes = bech32::decode(&input);
match decoded_bytes {
Ok((hrp, bytes)) => {
let rd = RawData {hrp: hrp.as_bytes().to_vec(), bytes};
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marshall_to_haskell_var(&rd, out, out_len, RW);
}
Err(_e) => {
let rd1 = RawData {hrp: "fail".into(), bytes: vec![0]};
marshall_to_haskell_var(&rd1, out, out_len, RW);
}
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_bech32m_encode(
hr: *const u8,
hr_len: usize,
b: *const u8,
b_len: usize,
out: *mut u8,
out_len: &mut usize
) {
let hr: String = marshall_from_haskell_var(hr, hr_len, RW);
let hrp = Hrp::parse(&hr).unwrap();
let b: Vec<u8> = marshall_from_haskell_var(b, b_len, RW);
let string = bech32::encode::<Bech32m>(hrp, &b).unwrap();
marshall_to_haskell_var(&string, out, out_len, RW);
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_svk_decode(
input: *const u8,
input_len: usize
) -> bool {
let input: Vec<u8> = marshall_from_haskell_var(input, input_len, RW);
let svk = ExtendedFullViewingKey::read(&*input);
match svk {
Ok(_k) => {
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true
}
Err(e) => {
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print!("{:?}", e);
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false
}
}
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}
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#[no_mangle]
pub extern "C" fn rust_wrapper_svk_check_address(
key_input: *const u8,
key_input_len: usize,
address_input: *const u8,
address_input_len: usize
) -> bool {
let key_input: Vec<u8> = marshall_from_haskell_var(key_input, key_input_len, RW);
let address_input: Vec<u8> = marshall_from_haskell_var(address_input, address_input_len, RW);
let svk = ExtendedFullViewingKey::read(&*key_input);
let sa = PaymentAddress::from_bytes(&to_array(address_input)).unwrap();
match svk {
Ok(k) => {
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let (_div_index, def_address) = k.default_address();
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sa == def_address
}
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Err(_e) => {
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false
}
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_ufvk_check_address(
key_input: *const u8,
key_input_len: usize,
address_input: *const u8,
address_input_len: usize
) -> bool {
let key: String = marshall_from_haskell_var(key_input, key_input_len, RW);
let addy: String = marshall_from_haskell_var(address_input, address_input_len, RW);
let dec_key = Ufvk::decode(&key);
let dec_addy = Address::decode(&addy);
match dec_key {
Ok((n, ufvk)) => {
let i = ufvk.items();
if let Fvk::Orchard(k) = i[0] {
let orch_key = FullViewingKey::from_bytes(&k).unwrap();
let orch_addy = orch_key.address_at(0u32, Scope::External).to_raw_address_bytes();
match dec_addy {
Ok((n, recs)) => {
let j = recs.items();
j[0] == Receiver::Orchard(orch_addy)
},
Err(_e) => {
false
}
}
} else {
false
}
},
Err(_e) => {
false
}
}
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_ufvk_decode(
input: *const u8,
input_len: usize,
out: *mut u8,
out_len: &mut usize
) {
let input: String = marshall_from_haskell_var(input, input_len, RW);
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let dec_key = Ufvk::decode(&input);
match dec_key {
Ok((n, ufvk)) => {
let x = match n {
Network::Main => 1,
Network::Test => 2,
Network::Regtest => 3
};
let mut hk = Hufvk { net: x, orchard: vec![0], sapling: vec![0], transparent: vec![0] };
let fvks = ufvk.items();
fvks.iter().for_each(|k| hk.add_key_section(k));
marshall_to_haskell_var(&hk, out, out_len, RW);
}
Err(_e) => {
let hk0 = Hufvk { net: 0, orchard: vec![0], sapling: vec![0], transparent: vec![0] };
marshall_to_haskell_var(&hk0, out, out_len, RW);
}
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_sapling_esk_decrypt(
key: *const u8,
key_len: usize,
note: *const u8,
note_len: usize,
external: bool,
net: bool,
pos: u64,
out: *mut u8,
out_len: &mut usize
){
let sk: Vec<u8> = marshall_from_haskell_var(key, key_len, RW);
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let mut note_input: HshieldedOutput = marshall_from_haskell_var(note,note_len,RW);
let esk = ExtendedSpendingKey::from_bytes(&sk);
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let main_domain = SaplingDomain::new(Zip212Enforcement::On);
//let test_domain = SaplingDomain::for_height(TestNetwork, BlockHeight::from_u32(2000000));
let scope = if external {
SaplingScope::External
} else {
SaplingScope::Internal
};
match esk {
Ok(k) => {
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let action = note_input.to_output_description();
match action {
Ok(action2) => {
let dfvk = k.to_diversifiable_full_viewing_key();
let ivk = dfvk.to_ivk(scope);
let nk = dfvk.to_nk(scope);
let pivk = SaplingPreparedIncomingViewingKey::new(&ivk);
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let result = zcash_note_encryption::try_note_decryption(&main_domain, &pivk, &action2);
match result {
Some((n, r, m)) => {
let nullifier = n.nf(&nk, pos);
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let rseed = match n.rseed() {
Rseed::BeforeZip212(x) => {
Hrseed {kind: 1, bytes: x.to_bytes().to_vec()}
},
Rseed::AfterZip212(y) => {
Hrseed {kind: 2, bytes: y.to_vec()}
}
};
let hn = Hnote {note: n.value().inner(), recipient: r.to_bytes().to_vec(), memo: m.as_slice().to_vec(), nullifier: nullifier.to_vec(), rho: vec![0], rseed };
marshall_to_haskell_var(&hn, out, out_len, RW);
},
None => {
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let hn0 = Hnote { note: 0, recipient: vec![0], memo: vec![0], nullifier: vec![0], rho: vec![0], rseed: Hrseed{ kind: 0, bytes: vec![0]}};
marshall_to_haskell_var(&hn0, out, out_len, RW);
}
}
},
Err(_e1) => {
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let hn0 = Hnote { note: 0, recipient: vec![0], memo: vec![0], nullifier: vec![0], rho: vec![0], rseed: Hrseed{ kind: 0, bytes: vec![0]} };
marshall_to_haskell_var(&hn0, out, out_len, RW);
}
}
},
Err(_e) => {
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let hn0 = Hnote { note: 0, recipient: vec![0], memo: vec![0], nullifier: vec![0], rho: vec![0], rseed: Hrseed{ kind: 0, bytes: vec![0]} };
marshall_to_haskell_var(&hn0, out, out_len, RW);
}
}
}
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#[no_mangle]
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pub extern "C" fn rust_wrapper_sapling_note_decrypt_v2(
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key: *const u8,
key_len: usize,
note: *const u8,
note_len: usize,
out: *mut u8,
out_len: &mut usize
){
let evk: Vec<u8> = marshall_from_haskell_var(key, key_len, RW);
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let mut note_input: HshieldedOutput = marshall_from_haskell_var(note,note_len,RW);
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let svk = ExtendedFullViewingKey::read(&*evk);
match svk {
Ok(k) => {
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let domain = SaplingDomain::new(Zip212Enforcement::On);
let action2 = note_input.to_output_description();
match action2 {
Ok(action3) => {
let fvk = k.to_diversifiable_full_viewing_key().to_ivk(SaplingScope::External);
let pivk = SaplingPreparedIncomingViewingKey::new(&fvk);
let result = zcash_note_encryption::try_note_decryption(&domain, &pivk, &action3);
match result {
Some((n, r, m)) => {
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let rseed = match n.rseed() {
Rseed::BeforeZip212(x) => {
Hrseed { kind: 1, bytes: x.to_bytes().to_vec()}
},
Rseed::AfterZip212(y) => {
Hrseed { kind: 2, bytes: y.to_vec()}
}
};
let hn = Hnote {note: n.value().inner(), recipient: r.to_bytes().to_vec(), memo: m.as_slice().to_vec(), nullifier: vec![0], rho: vec![0], rseed};
marshall_to_haskell_var(&hn, out, out_len, RW);
}
None => {
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let hn0 = Hnote { note: 0, recipient: vec![0], memo: vec![0], nullifier: vec![0], rho: vec![0], rseed: Hrseed {kind: 0, bytes: vec![0]}};
marshall_to_haskell_var(&hn0, out, out_len, RW);
}
}
},
Err(_e1) => {
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let hn0 = Hnote { note: 0, recipient: vec![0], memo: vec![0] , nullifier: vec![0], rho: vec![0], rseed: Hrseed {kind: 0, bytes: vec![0]}};
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marshall_to_haskell_var(&hn0, out, out_len, RW);
}
}
}
Err(_e) => {
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let hn0 = Hnote { note: 0, recipient: vec![0], memo: vec![0], nullifier: vec![0], rho: vec![0], rseed: Hrseed {kind: 0, bytes: vec![0]}};
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marshall_to_haskell_var(&hn0, out, out_len, RW);
}
}
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_orchard_note_decrypt(
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key: *const u8,
key_len: usize,
note: *const u8,
note_len: usize,
out: *mut u8,
out_len: &mut usize
){
let fvk_input: Vec<u8> = marshall_from_haskell_var(key, key_len, RW);
let note_input: Haction = marshall_from_haskell_var(note, note_len, RW);
let action: Action<Signature<SpendAuth>> = Action::from_parts(
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Nullifier::from_bytes(&to_array(note_input.nf.bytes)).unwrap(),
VerificationKey::try_from(to_array(note_input.rk.bytes)).unwrap(),
ExtractedNoteCommitment::from_bytes(&to_array(note_input.cmx.bytes)).unwrap(),
TransmittedNoteCiphertext {epk_bytes: to_array(note_input.eph_key.bytes), enc_ciphertext: to_array(note_input.enc_txt.bytes), out_ciphertext: to_array(note_input.out_txt.bytes)},
ValueCommitment::from_bytes(&to_array(note_input.cv.bytes)).unwrap(),
Signature::from(to_array(note_input.auth.bytes)));
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let fvk_array = to_array(fvk_input);
let domain = OrchardDomain::for_action(&action);
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let dec_fvk = FullViewingKey::from_bytes(&fvk_array);
match dec_fvk {
Some(fvk) => {
let ivk = fvk.to_ivk(Scope::External);
let pivk = PreparedIncomingViewingKey::new(&ivk);
let result = zcash_note_encryption::try_note_decryption(&domain, &pivk, &action);
match result {
Some((n, r, m)) => {
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let rho = n.rho().to_bytes().to_vec();
let rseed = Hrseed {kind: 3, bytes: n.rseed().as_bytes().to_vec()};
let hn = Hnote {note: n.value().inner(), recipient: r.to_raw_address_bytes().to_vec(), memo: m.to_vec(), nullifier: vec![0], rho, rseed};
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marshall_to_haskell_var(&hn, out, out_len, RW);
}
None => {
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let hn0 = Hnote { note: 0, recipient: vec![0], memo: vec![0], nullifier: vec![0], rho: vec![0], rseed: Hrseed {kind: 0, bytes: vec![0]}};
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marshall_to_haskell_var(&hn0, out, out_len, RW);
}
}
},
None => {
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let hn0 = Hnote { note: 0, recipient: vec![0], memo: vec![0], nullifier: vec![0], rho: vec![0], rseed: Hrseed {kind: 0, bytes: vec![0]}};
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marshall_to_haskell_var(&hn0, out, out_len, RW);
}
}
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}
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#[no_mangle]
pub extern "C" fn rust_wrapper_orchard_note_decrypt_sk(
key: *const u8,
key_len: usize,
note: *const u8,
note_len: usize,
external: bool,
out: *mut u8,
out_len: &mut usize
){
let sk_input: Vec<u8> = marshall_from_haskell_var(key, key_len, RW);
let note_input: Haction = marshall_from_haskell_var(note, note_len, RW);
let action: Action<Signature<SpendAuth>> = Action::from_parts(
Nullifier::from_bytes(&to_array(note_input.nf.bytes)).unwrap(),
VerificationKey::try_from(to_array(note_input.rk.bytes)).unwrap(),
ExtractedNoteCommitment::from_bytes(&to_array(note_input.cmx.bytes)).unwrap(),
TransmittedNoteCiphertext {epk_bytes: to_array(note_input.eph_key.bytes), enc_ciphertext: to_array(note_input.enc_txt.bytes), out_ciphertext: to_array(note_input.out_txt.bytes)},
ValueCommitment::from_bytes(&to_array(note_input.cv.bytes)).unwrap(),
Signature::from(to_array(note_input.auth.bytes)));
let sk_array = to_array(sk_input);
let domain = OrchardDomain::for_action(&action);
let dec_sk = SpendingKey::from_bytes(sk_array).unwrap();
let fvk = FullViewingKey::from(&dec_sk);
let ivk = if external {
fvk.to_ivk(Scope::External)
} else {
fvk.to_ivk(Scope::Internal)
};
let pivk = PreparedIncomingViewingKey::new(&ivk);
let result = zcash_note_encryption::try_note_decryption(&domain, &pivk, &action);
match result {
Some((n, r, m)) => {
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let rho = n.rho().to_bytes().to_vec();
let rseed = Hrseed {kind: 3, bytes: n.rseed().as_bytes().to_vec()};
let hn = Hnote {note: n.value().inner(), recipient: r.to_raw_address_bytes().to_vec(), memo: m.to_vec(), nullifier: n.nullifier(&fvk).to_bytes().to_vec(), rho, rseed};
marshall_to_haskell_var(&hn, out, out_len, RW);
}
None => {
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let hn0 = Hnote { note: 0, recipient: vec![0], memo: vec![0], nullifier: vec![0], rho: vec![0], rseed: Hrseed {kind: 0, bytes: vec![0]}};
marshall_to_haskell_var(&hn0, out, out_len, RW);
}
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_tx_read(
tx: *const u8,
tx_len: usize,
out: *mut u8,
out_len: &mut usize
){
let tx_input: Vec<u8> = marshall_from_haskell_var(tx, tx_len, RW);
let mut tx_reader = Cursor::new(tx_input);
let parsed_tx = Transaction::read(&mut tx_reader, Nu5);
match parsed_tx {
Ok(t) => {
let tb = t.transparent_bundle();
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let sb = t.sapling_bundle();
let ob = t.orchard_bundle();
let h1 = Htx
{ txid: t.txid().as_ref().to_vec()
, locktime: t.lock_time()
, expiry: u32::from(t.expiry_height())
, t_bundle: match tb {
Some(tb1) => {HTBundle::from_bundle(tb1)},
None => {HTBundle {empty: true, vin: vec![HTxIn {outpoint: Houtpoint {hash: vec![0], index: 0}, script: vec![0], sequence: 0}], vout: vec![HTxOut {amt: 0, script: vec![0]}], coinbase: false}}}
, s_bundle: match sb {
Some(sb1) => {HSBundle::from_bundle(sb1)},
None => {HSBundle{empty: true, spends: vec![Hspend{cv:Hhex { bytes: vec![0]} , anchor:Hhex { bytes: vec![0]} , nullifier:Hhex { bytes: vec![0]} , rk:Hhex { bytes: vec![0]} , proof:Hhex { bytes: vec![0]} , authsig:Hhex { bytes: vec![0]} }], outputs: vec![HshieldedOutput {cv: Hhex { bytes: vec![0]}, cmu: Hhex { bytes: vec![0]}, eph_key: Hhex { bytes: vec![0]}, enc_txt: Hhex { bytes: vec![0]}, out_txt: Hhex { bytes: vec![0]}, proof: Hhex { bytes: vec![0]}}], value: 0, sig: vec![0]}} }
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, o_bundle: match ob {
Some(ob1) => {HOBundle::from_bundle(ob1)},
None => {HOBundle{empty: true, actions: vec![Haction {nf:Hhex { bytes: vec![0]} , rk:Hhex { bytes: vec![0]} , cmx:Hhex { bytes: vec![0]} , eph_key:Hhex { bytes: vec![0]} , enc_txt:Hhex { bytes: vec![0]} , out_txt:Hhex { bytes: vec![0]} , cv:Hhex { bytes: vec![0]} , auth:Hhex { bytes: vec![0]} }], flags: Hflags{ spends:false, outputs:false}, value: 0, anchor: Hhex { bytes: vec![0]}, proof: Hhex { bytes: vec![0]} , bindingsig: Hhex { bytes: vec![0]}}}
}
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};
marshall_to_haskell_var(&h1, out, out_len, RW);
},
Err(_e) => {
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let h0 = Htx
{txid: vec![0],
locktime: 0,
expiry: 0,
t_bundle: HTBundle
{empty: true,
vin: vec![HTxIn {outpoint: Houtpoint {hash: vec![0], index: 0}, script: vec![0], sequence: 0}],
vout: vec![HTxOut {amt: 0, script: vec![0]}],
coinbase: true},
s_bundle: HSBundle{empty: true, spends: vec![Hspend{cv:Hhex { bytes: vec![0]} , anchor:Hhex { bytes: vec![0]} , nullifier:Hhex { bytes: vec![0]} , rk:Hhex { bytes: vec![0]} , proof:Hhex { bytes: vec![0]} , authsig:Hhex { bytes: vec![0]} }], outputs: vec![HshieldedOutput {cv: Hhex { bytes: vec![0]}, cmu: Hhex { bytes: vec![0]}, eph_key: Hhex { bytes: vec![0]}, enc_txt: Hhex { bytes: vec![0]}, out_txt: Hhex { bytes: vec![0]}, proof: Hhex { bytes: vec![0]}}], value: 0, sig: vec![0]},
o_bundle: HOBundle{empty: true, actions: vec![Haction {nf:Hhex { bytes: vec![0]} , rk:Hhex { bytes: vec![0]} , cmx:Hhex { bytes: vec![0]} , eph_key:Hhex { bytes: vec![0]} , enc_txt:Hhex { bytes: vec![0]} , out_txt:Hhex { bytes: vec![0]} , cv:Hhex { bytes: vec![0]} , auth:Hhex { bytes: vec![0]} }], flags: Hflags{ spends:false, outputs:false}, value: 0, anchor: Hhex { bytes: vec![0]}, proof: Hhex { bytes: vec![0]} , bindingsig: Hhex { bytes: vec![0]}}
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};
marshall_to_haskell_var(&h0, out, out_len, RW);
}
}
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_tx_parse(
tx: *const u8,
tx_len: usize,
out: *mut u8,
out_len: &mut usize
){
let tx_input: Vec<u8> = marshall_from_haskell_var(tx, tx_len, RW);
let mut tx_reader = Cursor::new(tx_input);
let parsed_tx = Transaction::read(&mut tx_reader, Nu5);
match parsed_tx {
Ok(t) => {
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let s_bundle = t.sapling_bundle();
match s_bundle {
Some(b) => {
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let s_output = HshieldedOutput::pack(b.shielded_outputs());
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marshall_to_haskell_var(&s_output, out, out_len, RW);
},
None => {
let mut z = Vec::new();
z.push(vec![0]);
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marshall_to_haskell_var(&z, out, out_len, RW);
}
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}
},
Err(_e) => {
let mut y = Vec::new();
y.push(vec![0]);
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marshall_to_haskell_var(&y, out, out_len, RW);
}
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_gen_seed_phrase(
out: *mut u8,
out_len: &mut usize
){
let mnemonic: Mnemonic<English> = Mnemonic::generate(Count::Words24);
let seed = mnemonic.phrase().as_bytes().to_vec();
marshall_to_haskell_var(&seed, out, out_len, RW);
}
#[no_mangle]
pub extern "C" fn rust_wrapper_recover_seed(
input: *const u8,
input_len: usize,
out: *mut u8,
out_len: &mut usize
){
let phrase: String = marshall_from_haskell_var(input, input_len, RW);
let mnemonic = <Mnemonic<English>>::from_phrase(phrase);
match mnemonic {
Ok(m) => {
let s = m.to_seed("").to_vec();
marshall_to_haskell_var(&s, out, out_len, RW);
},
Err(_e) => {
marshall_to_haskell_var(&vec![0], out, out_len, RW);
}
}
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_sapling_spendingkey(
seed: *const u8,
seed_len: usize,
coin_type: u32,
acc_id: u32,
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out: *mut u8,
out_len: &mut usize
){
let s: Vec<u8> = marshall_from_haskell_var(seed, seed_len, RW);
let sk = spending_key(&s, coin_type, zcash_primitives::zip32::AccountId::try_from(acc_id).unwrap());
marshall_to_haskell_var(&sk.to_bytes().to_vec(), out, out_len, RW);
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}
#[no_mangle]
pub extern "C" fn rust_wrapper_sapling_paymentaddress(
extspk: *const u8,
extspk_len: usize,
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div_ix: u32,
out: *mut u8,
out_len: &mut usize
){
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let extspk: Vec<u8> = marshall_from_haskell_var(extspk, extspk_len, RW);
if div_ix == 0 {
let sp_key = ExtendedSpendingKey::from_bytes(&extspk);
match sp_key {
Ok(sp_key_x) => {
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let (_def_div, def_address) = sp_key_x.default_address();
marshall_to_haskell_var(&def_address.to_bytes().to_vec(), out, out_len, RW);
},
Err(_e) => {
marshall_to_haskell_var(&vec![0], out, out_len, RW);
}
}
} else {
let expsk = ExpandedSpendingKey::from_spending_key(&extspk);
let fvk = SaplingFullViewingKey::from_expanded_spending_key(&expsk);
let dk = DiversifierKey::master(&extspk);
let result = sapling_find_address(&fvk, &dk, DiversifierIndex::from(div_ix));
match result {
Some((_d, p_address)) => {
marshall_to_haskell_var(&p_address.to_bytes().to_vec(), out, out_len, RW);
},
None => {
marshall_to_haskell_var(&vec![0], out, out_len, RW);
}
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}
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_sapling_chgpaymentaddress(
extspk: *const u8,
extspk_len: usize,
out: *mut u8,
out_len: &mut usize
){
let vexspk: Vec<u8> = marshall_from_haskell_var(extspk, extspk_len, RW);
let vexspkp = &vexspk;
let extspku8 : &[u8] = &vexspkp;
let extspk = match ExtendedSpendingKey::from_bytes(&extspku8) {
Ok( k ) => k,
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Err( _e ) => {
// error recovering ExtendedSpendingKey
marshall_to_haskell_var(&vec![0], out, out_len, RW);
return
}
};
let dfvk = extspk.to_diversifiable_full_viewing_key();
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let ( _divIx, cPmtAddress ) = dfvk.change_address();
marshall_to_haskell_var(&cPmtAddress.to_bytes().to_vec(), out, out_len, RW);
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_derive_orchard_spending_key(
seed: *const u8,
seed_len: usize,
coin_type: u32,
acc_id: u32,
out: *mut u8,
out_len: &mut usize
){
let s: Vec<u8> = marshall_from_haskell_var(seed, seed_len, RW);
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let sk = SpendingKey::from_zip32_seed(&s, coin_type, zip32::AccountId::try_from(acc_id).unwrap());
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match sk {
Ok(key) => {
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marshall_to_haskell_var(&key.to_bytes().to_vec(), out, out_len, RW);
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},
Err(_e) => {
marshall_to_haskell_var(&vec![0], out, out_len, RW);
}
}
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_derive_orchard_receiver(
spend_key: *const u8,
spend_key_len: usize,
add_id: u32,
scope: bool,
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out: *mut u8,
out_len: &mut usize
){
let sk_in: Vec<u8> = marshall_from_haskell_var(spend_key, spend_key_len, RW);
let sk = SpendingKey::from_bytes(sk_in[0..32].try_into().unwrap()).unwrap();
let fvk = FullViewingKey::from(&sk);
let sc = if scope {
Scope::External
} else {Scope::Internal};
let o_rec = fvk.address_at(add_id, sc);
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marshall_to_haskell_var(&o_rec.to_raw_address_bytes().to_vec(), out, out_len, RW);
}
#[no_mangle]
pub extern "C" fn rust_wrapper_bech32_encode(
hr: *const u8,
hr_len: usize,
b: *const u8,
b_len: usize,
out: *mut u8,
out_len: &mut usize
) {
let hr: String = marshall_from_haskell_var(hr, hr_len, RW);
let hrp = Hrp::parse(&hr).unwrap();
let b: Vec<u8> = marshall_from_haskell_var(b, b_len, RW);
let string = bech32::encode::<Bech32>(hrp, &b).unwrap();
marshall_to_haskell_var(&string, out, out_len, RW);
}
#[no_mangle]
pub extern "C" fn rust_wrapper_read_sapling_frontier(
tree: *const u8,
tree_len: usize,
out: *mut u8,
out_len: &mut usize
){
let tree_in: Vec<u8> = marshall_from_haskell_var(tree, tree_len, RW);
let tree_reader = Cursor::new(tree_in);
let comm_tree: CommitmentTree<Node, SAPLING_DEPTH> = read_commitment_tree(tree_reader).unwrap();
//let comm_tree: Frontier<MerkleHashOrchard, 32> = read_frontier_v1(tree_reader).unwrap();
let frontier: Frontier<Node, SAPLING_DEPTH> = comm_tree.to_frontier();
match frontier.value() {
Some(f1) => {
let (pos, leaf, omm) = f1.clone().into_parts();
let f = Hfrontier { position: <u64>::from(pos), leaf: Hhex { bytes: leaf.to_bytes().to_vec()}, ommers: omm.iter().map(|&x| Hhex { bytes: x.to_bytes().to_vec()}).collect()};
marshall_to_haskell_var(&f, out, out_len, RW);
},
None => {
let f0 = Hfrontier { position: 0, leaf: Hhex { bytes: vec![0]}, ommers: vec![Hhex { bytes: vec![0]}]};
marshall_to_haskell_var(&f0, out, out_len, RW);
}
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_read_sapling_commitment_tree(
tree: *const u8,
tree_len: usize,
node: *const u8,
node_len: usize,
out: *mut u8,
out_len: &mut usize
){
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let tree_in: Hfrontier = marshall_from_haskell_var(tree, tree_len, RW);
let leaf = Node::from_bytes(to_array(tree_in.leaf.bytes)).unwrap();
let mut comm_tree = NonEmptyFrontier::from_parts(Position::from(tree_in.position), leaf, tree_in.ommers.iter().map(|x| Node::from_bytes(to_array(x.bytes.clone())).unwrap() ).collect()).unwrap();
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let node_in: Vec<u8> = marshall_from_haskell_var(node, node_len, RW);
let sap_note_comm = SaplingNoteCommitment::from_bytes(&to_array(node_in));
if sap_note_comm.is_some().into() {
let n = Node::from_cmu(&sap_note_comm.unwrap());
comm_tree.append(n);
let (pos, leaf, omm) = comm_tree.into_parts();
let f = Hfrontier { position: <u64>::from(pos), leaf: Hhex { bytes: leaf.to_bytes().to_vec()}, ommers: omm.iter().map(|&x| Hhex { bytes: x.to_bytes().to_vec()}).collect()};
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marshall_to_haskell_var(&f, out, out_len, RW);
} else {
let f0 = Hfrontier { position: 0, leaf: Hhex { bytes: vec![0]}, ommers: vec![Hhex { bytes: vec![0]}]};
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marshall_to_haskell_var(&f0, out, out_len, RW);
}
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_read_sapling_witness(
tree: *const u8,
tree_len: usize,
out: *mut u8,
out_len: &mut usize
){
let tree_in: Hfrontier = marshall_from_haskell_var(tree, tree_len, RW);
let leaf = Node::from_bytes(to_array(tree_in.leaf.bytes)).unwrap();
let frontier: Frontier<Node, SAPLING_DEPTH> = Frontier::from_parts(Position::from(tree_in.position), leaf, tree_in.ommers.iter().map(|x| Node::from_bytes(to_array(x.bytes.clone())).unwrap() ).collect()).unwrap();
let ct: CommitmentTree<Node, SAPLING_DEPTH> = CommitmentTree::from_frontier(&frontier);
let inc_wit = IncrementalWitness::from_tree(ct);
let mut out_bytes: Vec<u8> = Vec::new();
let result = write_incremental_witness(&inc_wit, &mut out_bytes);
match result {
Ok(()) => {
let h = Hhex { bytes: out_bytes};
marshall_to_haskell_var(&h, out, out_len, RW);
},
Err(_e) => {
let h0 = Hhex { bytes: vec![0]};
marshall_to_haskell_var(&h0, out, out_len, RW);
}
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_read_sapling_position(
wit: *const u8,
wit_len: usize,
) -> u64 {
let wit_in: Vec<u8> = marshall_from_haskell_var(wit, wit_len, RW);
let wit_reader = Cursor::new(wit_in);
let iw: IncrementalWitness<Node, SAPLING_DEPTH> = read_incremental_witness(wit_reader).unwrap();
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let pos = iw.witnessed_position();
return u64::from(pos);
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_update_sapling_witness(
wit: *const u8,
wit_len: usize,
cmus: *const u8,
cmus_len: usize,
out: *mut u8,
out_len: &mut usize
) {
let wit_in: Vec<u8> = marshall_from_haskell_var(wit, wit_len, RW);
let wit_reader = Cursor::new(wit_in);
let mut iw: IncrementalWitness<Node, SAPLING_DEPTH> = read_incremental_witness(wit_reader).unwrap();
let cmu: Vec<Vec<u8>> = marshall_from_haskell_var(cmus, cmus_len, RW);
for c in cmu {
let sap_note_comm = SaplingNoteCommitment::from_bytes(&to_array(c));
if sap_note_comm.is_some().into() {
let n = Node::from_cmu(&sap_note_comm.unwrap());
iw.append(n);
}
}
let mut out_bytes: Vec<u8> = Vec::new();
let result = write_incremental_witness(&iw, &mut out_bytes);
match result {
Ok(()) => {
let h = Hhex { bytes: out_bytes};
marshall_to_haskell_var(&h, out, out_len, RW);
},
Err(_e) => {
let h0 = Hhex { bytes: vec![0]};
marshall_to_haskell_var(&h0, out, out_len, RW);
}
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_read_orchard_frontier(
tree: *const u8,
tree_len: usize,
out: *mut u8,
out_len: &mut usize
){
let tree_in: Vec<u8> = marshall_from_haskell_var(tree, tree_len, RW);
let tree_reader = Cursor::new(tree_in);
let comm_tree = read_commitment_tree(tree_reader);
//let comm_tree = read_frontier_v1(tree_reader);
//let frontier: Frontier<MerkleHashOrchard, 32> = comm_tree.to_frontier();
match comm_tree {
Ok::<CommitmentTree<MerkleHashOrchard, 32>, _>(f1) => {
let frontier = f1.to_frontier();
match frontier.value() {
Some(f2) => {
let (pos, leaf, omm) = f2.clone().into_parts();
let f = Hfrontier { position: <u64>::from(pos), leaf: Hhex { bytes: leaf.to_bytes().to_vec()}, ommers: omm.iter().map(|&x| Hhex { bytes: x.to_bytes().to_vec()}).collect()};
marshall_to_haskell_var(&f, out, out_len, RW);
},
None => {
let f0 = Hfrontier { position: 0, leaf: Hhex { bytes: vec![0]}, ommers: vec![Hhex { bytes: vec![0]}]};
marshall_to_haskell_var(&f0, out, out_len, RW);
}
}
},
Err(_e) => {
let f0 = Hfrontier { position: 0, leaf: Hhex { bytes: vec![0]}, ommers: vec![Hhex { bytes: vec![0]}]};
marshall_to_haskell_var(&f0, out, out_len, RW);
}
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_read_orchard_tree_anchor(
tree: *const u8,
tree_len: usize,
out: *mut u8,
out_len: &mut usize
){
let tree_in: Hfrontier = marshall_from_haskell_var(tree, tree_len, RW);
let leaf = MerkleHashOrchard::from_bytes(&to_array(tree_in.leaf.bytes)).unwrap();
let comm_tree: NonEmptyFrontier<MerkleHashOrchard> = NonEmptyFrontier::from_parts(Position::from(tree_in.position), leaf, tree_in.ommers.iter().map(|x| MerkleHashOrchard::from_bytes(&to_array(x.bytes.clone())).unwrap() ).collect()).unwrap();
let root = comm_tree.root(None);
let h = Hhex { bytes: root.to_bytes().to_vec() };
marshall_to_haskell_var(&h, out, out_len, RW);
}
#[no_mangle]
pub extern "C" fn rust_wrapper_read_orchard_witness_anchor(
wit: *const u8,
wit_len: usize,
out: *mut u8,
out_len: &mut usize
) {
let wit_in: Vec<u8> = marshall_from_haskell_var(wit, wit_len, RW);
let wit_reader = Cursor::new(wit_in);
let iw: IncrementalWitness<MerkleHashOrchard, 32> = read_incremental_witness(wit_reader).unwrap();
let root = iw.root();
let h = Hhex { bytes: root.to_bytes().to_vec() };
marshall_to_haskell_var(&h, out, out_len, RW);
}
#[no_mangle]
pub extern "C" fn rust_wrapper_read_orchard_node(
cmx: *const u8,
cmx_len: usize,
out: *mut u8,
out_len: &mut usize
){
let node_in: Vec<u8> = marshall_from_haskell_var(cmx, cmx_len, RW);
let orchard_note_comm = ExtractedNoteCommitment::from_bytes(&to_array(node_in));
if orchard_note_comm.is_some().into() {
let n = MerkleHashOrchard::from_cmx(&orchard_note_comm.unwrap());
let h = Hhex { bytes: n.to_bytes().to_vec()};
marshall_to_haskell_var(&h, out, out_len, RW);
} else {
let h0 = Hhex { bytes: vec![0] };
marshall_to_haskell_var(&h0, out, out_len, RW);
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_combine_orchard_nodes(
level: u8,
left: *const u8,
left_len: usize,
right: *const u8,
right_len: usize,
out: *mut u8,
out_len: &mut usize
){
let left_in: Vec<u8> = marshall_from_haskell_var(left, left_len, RW);
let right_in: Vec<u8> = marshall_from_haskell_var(right, right_len, RW);
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if left_in.len() == 1 {
let n = MerkleHashOrchard::combine(Level::new(level), &MerkleHashOrchard::empty_leaf(), &MerkleHashOrchard::empty_leaf());
let h = Hhex { bytes: n.to_bytes().to_vec() };
marshall_to_haskell_var(&h, out, out_len, RW);
} else {
let left_node = MerkleHashOrchard::from_bytes(&to_array(left_in));
if left_node.is_some().into() {
if right_in.len() > 1 {
let right_node = MerkleHashOrchard::from_bytes(&to_array(right_in));
if right_node.is_some().into() {
let n = MerkleHashOrchard::combine(Level::new(level), &left_node.unwrap(), &right_node.unwrap());
let h = Hhex { bytes: n.to_bytes().to_vec() };
marshall_to_haskell_var(&h, out, out_len, RW);
} else {
let h0 = Hhex { bytes: vec![0] };
marshall_to_haskell_var(&h0, out, out_len, RW);
}
} else {
let n = MerkleHashOrchard::combine(Level::new(level), &left_node.unwrap(), &MerkleHashOrchard::empty_leaf());
let h = Hhex { bytes: n.to_bytes().to_vec() };
marshall_to_haskell_var(&h, out, out_len, RW);
}
} else {
let h0 = Hhex { bytes: vec![0] };
marshall_to_haskell_var(&h0, out, out_len, RW);
}
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_read_orchard_commitment_tree(
tree: *const u8,
tree_len: usize,
node: *const u8,
node_len: usize,
out: *mut u8,
out_len: &mut usize
){
let tree_in: Hfrontier = marshall_from_haskell_var(tree, tree_len, RW);
//let tree_reader = Cursor::new(tree_in);
//let mut comm_tree: CommitmentTree<MerkleHashOrchard, 32> = read_commitment_tree(tree_reader).unwrap();
//let mut comm_tree: Frontier<MerkleHashOrchard, 32> = read_frontier_v1(tree_reader).unwrap();
let leaf = MerkleHashOrchard::from_bytes(&to_array(tree_in.leaf.bytes)).unwrap();
let mut comm_tree: NonEmptyFrontier<MerkleHashOrchard> = NonEmptyFrontier::from_parts(Position::from(tree_in.position), leaf, tree_in.ommers.iter().map(|x| MerkleHashOrchard::from_bytes(&to_array(x.bytes.clone())).unwrap() ).collect()).unwrap();
let node_in: Vec<u8> = marshall_from_haskell_var(node, node_len, RW);
let orchard_note_comm = ExtractedNoteCommitment::from_bytes(&to_array(node_in));
if orchard_note_comm.is_some().into() {
let n = MerkleHashOrchard::from_cmx(&orchard_note_comm.unwrap());
comm_tree.append(n);
let (pos, leaf, omm) = comm_tree.into_parts();
let f = Hfrontier { position: <u64>::from(pos), leaf: Hhex { bytes: leaf.to_bytes().to_vec()}, ommers: omm.iter().map(|&x| Hhex { bytes: x.to_bytes().to_vec()}).collect()};
marshall_to_haskell_var(&f, out, out_len, RW);
} else {
let f0 = Hfrontier { position: 0, leaf: Hhex { bytes: vec![0]}, ommers: vec![Hhex { bytes: vec![0]}]};
marshall_to_haskell_var(&f0, out, out_len, RW);
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_read_orchard_witness(
tree: *const u8,
tree_len: usize,
out: *mut u8,
out_len: &mut usize
){
let tree_in: Hfrontier = marshall_from_haskell_var(tree, tree_len, RW);
let leaf = MerkleHashOrchard::from_bytes(&to_array(tree_in.leaf.bytes)).unwrap();
let frontier: Frontier<MerkleHashOrchard, 32> = Frontier::from_parts(Position::from(tree_in.position), leaf, tree_in.ommers.iter().map(|x| MerkleHashOrchard::from_bytes(&to_array(x.bytes.clone())).unwrap() ).collect()).unwrap();
let ct: CommitmentTree<MerkleHashOrchard, 32> = CommitmentTree::from_frontier(&frontier);
let inc_wit = IncrementalWitness::from_tree(ct);
let mut out_bytes: Vec<u8> = Vec::new();
let result = write_incremental_witness(&inc_wit, &mut out_bytes);
match result {
Ok(()) => {
let h = Hhex { bytes: out_bytes};
marshall_to_haskell_var(&h, out, out_len, RW);
},
Err(_e) => {
let h0 = Hhex { bytes: vec![0]};
marshall_to_haskell_var(&h0, out, out_len, RW);
}
}
}
#[no_mangle]
pub extern "C" fn rust_wrapper_read_orchard_position(
wit: *const u8,
wit_len: usize,
) -> u64 {
let wit_in: Vec<u8> = marshall_from_haskell_var(wit, wit_len, RW);
let wit_reader = Cursor::new(wit_in);
let iw: IncrementalWitness<MerkleHashOrchard, 32> = read_incremental_witness(wit_reader).unwrap();
let path = iw.path();
match path {
Some(p) => {
let pos = p.position();
return u64::from(pos);
},
None => {
return 0;
}
}
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_update_orchard_witness(
wit: *const u8,
wit_len: usize,
cm: *const u8,
cm_len: usize,
out: *mut u8,
out_len: &mut usize
) {
let wit_in: Vec<u8> = marshall_from_haskell_var(wit, wit_len, RW);
let wit_reader = Cursor::new(wit_in);
let mut iw: IncrementalWitness<MerkleHashOrchard, 32> = read_incremental_witness(wit_reader).unwrap();
let cmu: Vec<Vec<u8>> = marshall_from_haskell_var(cm, cm_len, RW);
for c in cmu {
let orchard_note_comm = ExtractedNoteCommitment::from_bytes(&to_array(c));
if orchard_note_comm.is_some().into() {
let n = MerkleHashOrchard::from_cmx(&orchard_note_comm.unwrap());
iw.append(n);
}
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}
let mut out_bytes: Vec<u8> = Vec::new();
let result = write_incremental_witness(&iw, &mut out_bytes);
match result {
Ok(()) => {
let h = Hhex { bytes: out_bytes};
marshall_to_haskell_var(&h, out, out_len, RW);
},
Err(_e) => {
let h0 = Hhex { bytes: vec![0]};
marshall_to_haskell_var(&h0, out, out_len, RW);
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}
}
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_decode_sapling_address(
sapling: *const u8,
sapling_len: usize,
out: *mut u8,
out_len: &mut usize){
let sapling_address_from_haskell : Vec<u8> = marshall_from_haskell_var(sapling, sapling_len, RW);
let sapling_address = std::str::from_utf8(&sapling_address_from_haskell).unwrap();
let mut netid = 0;
match sapling_address.find("1") {
Some(ix) => {
let netstr = &sapling_address[0..ix];
if netstr == "zs" {
netid = 1
} else {
if netstr == "ztestsapling" {
netid = 2
}
}
match decode_payment_address(netstr, sapling_address) {
Ok( t )=> {
let address_to_bytes = t.to_bytes();
let mut out_bytes_temp : [u8;44] = [0;44];
out_bytes_temp[0] = netid;
let mut iy = 1;
for ix in 0..43 {
out_bytes_temp[iy] = address_to_bytes[ix];
iy += 1;
}
let out_bytes: Vec<u8> = out_bytes_temp.to_vec();
marshall_to_haskell_var(&out_bytes, out, out_len, RW);
}
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Err(_e) => {
let h = vec![0];
marshall_to_haskell_var(&h, out, out_len, RW);
}
}
}
None => {
let h = vec![0];
marshall_to_haskell_var(&h, out, out_len, RW);
}
}
}
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#[no_mangle]
pub extern "C" fn rust_wrapper_create_transaction(
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sap_wit: *const u8,
sap_wit_len: usize,
orch_wit: *const u8,
orch_wit_len: usize,
t_input: *const u8,
t_input_len: usize,
s_input: *const u8,
s_input_len: usize,
o_input: *const u8,
o_input_len: usize,
out_list: *const u8,
out_list_len: usize,
net: bool,
bl_height: u32,
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build: bool,
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out: *mut u8,
out_len: &mut usize){
//let sap_wit_in: Vec<u8> = marshall_from_haskell_var(sap_wit, sap_wit_len, RW);
//let sap_wit_reader = Cursor::new(sap_wit_in);
//let sap_iw = read_commitment_tree::<Node, Cursor<Vec<u8>>, SAPLING_DEPTH>(sap_wit_reader);
let sap_input: Vec<HsaplingInput> = marshall_from_haskell_var(s_input, s_input_len, RW);
let sap_anchor =
if sap_input.is_empty() {
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None
} else {
let si = &sap_input[0];
let swit_reader = Cursor::new(&si.iw);
let iw: IncrementalWitness<Node, SAPLING_DEPTH> = read_incremental_witness(swit_reader).unwrap();
Some(SaplingAnchor::from(iw.root()))
};
//let sap_anchor = match sap_iw {
//Ok(s_iw) => {
//Some(SaplingAnchor::from(s_iw.root()))
//},
//Err(_e) => {
//None
//}
//};
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//println!("{:?}", sap_anchor);
//let orch_wit_in: Vec<u8> = marshall_from_haskell_var(orch_wit, orch_wit_len, RW);
//let orch_wit_reader = Cursor::new(orch_wit_in);
//let orch_iw = read_commitment_tree::<MerkleHashOrchard, Cursor<Vec<u8>>, 32>(orch_wit_reader);
let orch_input: Vec<HorchardInput> = marshall_from_haskell_var(o_input, o_input_len, RW);
//let orch_anchor = match orch_iw {
//Ok(o_iw) => {
//Some(OrchardAnchor::from(o_iw.root()))
//},
//Err(_e) => {
//None
//}
//};
let orch_anchor =
if orch_input.is_empty() {
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None
} else {
let oi = &orch_input[0];
let wit_reader = Cursor::new(&oi.iw);
let iw: IncrementalWitness<MerkleHashOrchard, 32> = read_incremental_witness(wit_reader).unwrap();
Some(OrchardAnchor::from(iw.root()))
};
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let build_config = BuildConfig::Standard {sapling_anchor: sap_anchor, orchard_anchor: orch_anchor};
let mut main_builder = Builder::new(MainNetwork, BlockHeight::from(bl_height), build_config);
let mut test_builder = Builder::new(TestNetwork, BlockHeight::from(bl_height), build_config);
let trans_input: Vec<HtransparentInput> = marshall_from_haskell_var(t_input, t_input_len, RW);
for t_in in trans_input {
if t_in.sk.len() > 1 {
let k = SecretKey::from_slice(&t_in.sk).unwrap();
if net {
match main_builder.add_transparent_input(k, t_in.utxo.unpack(), t_in.coin.unpack()) {
Ok(()) => {
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//println!("added t-input in main");
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continue;
},
Err(_e) => { println!("Error reading transparent input"); }
}
} else {
match test_builder.add_transparent_input(k, t_in.utxo.unpack(), t_in.coin.unpack()) {
Ok(()) => {
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//println!("added t-input in test");
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continue;
},
Err(_e) => { println!("Error reading transparent input"); }
}
}
}
}
for s_in in sap_input {
if s_in.sk.len() > 1 {
let sp_key = ExtendedSpendingKey::from_bytes(&s_in.sk);
match sp_key {
Ok(sk) => {
let pay_addr = PaymentAddress::from_bytes(&to_array(s_in.note.recipient)).unwrap();
let rseed = if s_in.note.rseed.kind == 1 {
Rseed::BeforeZip212(Fr::from_bytes(&to_array(s_in.note.rseed.bytes)).unwrap())
} else {
Rseed::AfterZip212(to_array(s_in.note.rseed.bytes))
};
let note = SaplingNote::from_parts(pay_addr, SaplingNoteValue::from_raw(s_in.note.note), rseed);
let wit_reader = Cursor::new(s_in.iw);
let iw: IncrementalWitness<Node, SAPLING_DEPTH> = read_incremental_witness(wit_reader).unwrap();
let merkle_path = iw.path().unwrap();
if net {
let mb = main_builder.add_sapling_spend::<String>(&sk, note, merkle_path);
match mb {
Ok(()) => {
continue;
},
Err(_e) => {
let x = Hhex {bytes: vec![5]};
marshall_to_haskell_var(&x, out, out_len, RW);
}
}
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} else {
let tb = test_builder.add_sapling_spend::<String>(&sk, note, merkle_path);
match tb {
Ok(()) => {
continue;
},
Err(_e) => {
let x = Hhex {bytes: vec![5]};
marshall_to_haskell_var(&x, out, out_len, RW);
}
}
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}
},
Err(_e) => {
let x = Hhex {bytes: vec![5]};
marshall_to_haskell_var(&x, out, out_len, RW);
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}
}
}
}
for o_in in orch_input {
if o_in.sk.len() > 1 {
let sp_key = SpendingKey::from_bytes(o_in.sk[0..32].try_into().unwrap()).unwrap();
let pay_addr = OrchardAddress::from_raw_address_bytes(&to_array(o_in.note.recipient)).unwrap();
let rho = Rho::from_bytes(&to_array(o_in.note.rho)).unwrap();
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let rseed = RandomSeed::from_bytes(to_array(o_in.note.rseed.bytes), &rho).unwrap();
let val = NoteValue::from_raw(o_in.note.note);
let note = Note::from_parts(pay_addr, val, rho, rseed).unwrap();
let wit_reader = Cursor::new(o_in.iw);
let iw: IncrementalWitness<MerkleHashOrchard, 32> = read_incremental_witness(wit_reader).unwrap();
let merkle_path = OrchardMerklePath::from(iw.path().unwrap());
if net {
let mb = main_builder.add_orchard_spend::<String>(&sp_key, note, merkle_path);
match mb {
Ok(()) => {
continue;
},
Err(_e) => {
let x = Hhex {bytes: vec![7]};
marshall_to_haskell_var(&x, out, out_len, RW);
}
}
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} else {
let tb = test_builder.add_orchard_spend::<String>(&sp_key, note, merkle_path);
match tb {
Ok(()) => {
continue;
},
Err(_e) => {
let x = Hhex {bytes: vec![7]};
marshall_to_haskell_var(&x, out, out_len, RW);
}
}
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}
}
}
let outputs: Vec<Houtput> = marshall_from_haskell_var(out_list, out_list_len, RW);
for output in outputs {
match output.kind {
1 => {
let recipient = TransparentAddress::PublicKeyHash(to_array(output.to));
let val = NonNegativeAmount::from_u64(output.amt).unwrap();
if net {
let _mb = main_builder.add_transparent_output(&recipient, val);
} else {
let _tb = test_builder.add_transparent_output(&recipient, val);
}
},
2 => {
let recipient = TransparentAddress::ScriptHash(to_array(output.to));
let val = NonNegativeAmount::from_u64(output.amt).unwrap();
if net {
let _mb = main_builder.add_transparent_output(&recipient, val);
} else {
let _tb = test_builder.add_transparent_output(&recipient, val);
}
},
3 => {
let ovk = Some(ExpandedSpendingKey::from_spending_key(&output.ovk).ovk);
let recipient = PaymentAddress::from_bytes(&to_array(output.to)).unwrap();
let val = NonNegativeAmount::from_u64(output.amt).unwrap();
let memo = MemoBytes::from_bytes(&output.memo).unwrap();
if net {
let _mb = main_builder.add_sapling_output::<String>(ovk, recipient, val, memo);
} else {
let _tb = test_builder.add_sapling_output::<String>(ovk, recipient, val, memo);
}
},
4 => {
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let sk = SpendingKey::from_bytes(output.ovk[0..32].try_into().unwrap()).unwrap();
let ovk = if output.chg {
Some(FullViewingKey::from(&sk).to_ovk(Scope::Internal))
} else {
Some(FullViewingKey::from(&sk).to_ovk(Scope::External))
};
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let recipient = OrchardAddress::from_raw_address_bytes(&to_array(output.to)).unwrap();
let val = output.amt;
let memo = MemoBytes::from_bytes(&output.memo).unwrap();
if net {
let _mb = main_builder.add_orchard_output::<String>(ovk, recipient, val, memo);
} else {
let _tb = test_builder.add_orchard_output::<String>(ovk, recipient, val, memo);
}
},
_ => {
continue;
}
}
}
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if build {
let (spend_params_in, output_params_in) = load_sapling_parameters();
//let spend_params_in: Vec<u8> = marshall_from_haskell_var(sapspend, sapspend_len, RW);
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let spend_params_reader = Cursor::new(spend_params_in);
let spend_prover = SpendParameters::read(spend_params_reader, false).unwrap();
//let output_params_in: Vec<u8> = marshall_from_haskell_var(sapoutput, sapoutput_len, RW);
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let output_params_reader = Cursor::new(output_params_in);
let output_prover = OutputParameters::read(output_params_reader, false).unwrap();
let result = if net {
main_builder.build(OsRng, &spend_prover, &output_prover, &FeeRule::standard())
} else {
test_builder.build(OsRng, &spend_prover, &output_prover, &FeeRule::standard())
};
match result {
Ok(r) => {
let mut out_bytes: Vec<u8> = Vec::new();
let _t = r.transaction().write_v5(&mut out_bytes);
let h = Hhex {bytes: out_bytes};
marshall_to_haskell_var(&h, out, out_len, RW);
},
Err(e) => {
match e {
Error::InsufficientFunds(y) => {
let x = Hhex {bytes: vec![0]};
marshall_to_haskell_var(&x, out, out_len, RW);
},
Error::ChangeRequired(y1) => {
let x = Hhex {bytes: vec![1]};
marshall_to_haskell_var(&x, out, out_len, RW);
},
Error::Fee(_y2) => {
let x = Hhex {bytes: vec![2]};
marshall_to_haskell_var(&x, out, out_len, RW);
},
Error::Balance(y3) => {
let x = Hhex {bytes: vec![3]};
marshall_to_haskell_var(&x, out, out_len, RW);
},
Error::TransparentBuild(y4) => {
let x = Hhex {bytes: vec![4]};
marshall_to_haskell_var(&x, out, out_len, RW);
},
Error::SaplingBuild(y5) => {
let x = Hhex {bytes: vec![5]};
marshall_to_haskell_var(&x, out, out_len, RW);
},
Error::OrchardBuild(y7) => {
let x = Hhex {bytes: vec![6]};
marshall_to_haskell_var(&x, out, out_len, RW);
},
Error::OrchardSpend(y8) => {
let x = Hhex {bytes: vec![7]};
marshall_to_haskell_var(&x, out, out_len, RW);
},
Error::OrchardRecipient(y9) => {
let x = Hhex {bytes: vec![8]};
marshall_to_haskell_var(&x, out, out_len, RW);
},
Error::SaplingBuilderNotAvailable => {
let x = Hhex {bytes: vec![9]};
marshall_to_haskell_var(&x, out, out_len, RW);
},
Error::OrchardBuilderNotAvailable => {
let x = Hhex {bytes: vec![10]};
marshall_to_haskell_var(&x, out, out_len, RW);
}
}
}
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}
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} else {
let result = if net {
main_builder.get_fee(&FeeRule::standard())
} else {
test_builder.get_fee(&FeeRule::standard())
};
match result {
Ok(r) => {
let x = Hhex {bytes: r.to_i64_le_bytes().to_vec()};
marshall_to_haskell_var(&x, out, out_len, RW);
},
Err(e) => {
let x = Hhex {bytes: vec![2]};
marshall_to_haskell_var(&x, out, out_len, RW);
}
}
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}
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}