Core/grin
0
0
Fork 0
mirror of https://github.com/mimblewimble/grin.git synced 2025-02-01 17:01:09 +03:00
Code Issues Projects Releases Packages Wiki Activity Actions

Refactor transaction building combinators (#3057)

Browse source 
* tx combinators now take operate on Result to allow for more robust errors handling
replace with_fee() and with_lock_height() with a more flexible with_features()

* pass kernel features in as arg to build::transaction()

* fix chain tests

* fix pool tests

* do not pass kernel around in the combinators
just set it once on the tx when building

* build::partial_transaction now takes a existing tx to build on
This commit is contained in:
Antioch Peverell 2019-11-01 10:56:58 +00:00 committed by GitHub
parent eadf66339d
commit 50ce7ba043
No known key found for this signature in database
GPG key ID: 4AEE18F83AFDEB23
9 changed files with 155 additions and 225 deletions
Show stats Download patch file Download diff file Expand all files Collapse all files

6
chain/tests/mine_simple_chain.rs
View file

@ -16,7 +16,7 @@ use self::chain::types::{NoopAdapter, Tip};
use self::chain::Chain; use self::chain::Chain;
use self::core::core::hash::Hashed; use self::core::core::hash::Hashed;
use self::core::core::verifier_cache::LruVerifierCache; use self::core::core::verifier_cache::LruVerifierCache;
use self::core::core::{Block, BlockHeader, OutputIdentifier, Transaction}; use self::core::core::{Block, BlockHeader, KernelFeatures, OutputIdentifier, Transaction};
use self::core::global::ChainTypes; use self::core::global::ChainTypes;
use self::core::libtx::{self, build, ProofBuilder}; use self::core::libtx::{self, build, ProofBuilder};
use self::core::pow::Difficulty; use self::core::pow::Difficulty;
@ -562,10 +562,10 @@ fn spend_in_fork_and_compact() {
let key_id31 = ExtKeychainPath::new(1, 31, 0, 0, 0).to_identifier(); let key_id31 = ExtKeychainPath::new(1, 31, 0, 0, 0).to_identifier();
let tx1 = build::transaction( let tx1 = build::transaction(
KernelFeatures::Plain { fee: 20000 },
vec![ vec![
build::coinbase_input(consensus::REWARD, key_id2.clone()), build::coinbase_input(consensus::REWARD, key_id2.clone()),
build::output(consensus::REWARD - 20000, key_id30.clone()), build::output(consensus::REWARD - 20000, key_id30.clone()),
build::with_fee(20000),
], ],
&kc, &kc,
&pb, &pb,
@ -580,10 +580,10 @@ fn spend_in_fork_and_compact() {
chain.validate(false).unwrap(); chain.validate(false).unwrap();
let tx2 = build::transaction( let tx2 = build::transaction(
KernelFeatures::Plain { fee: 20000 },
vec![ vec![
build::input(consensus::REWARD - 20000, key_id30.clone()), build::input(consensus::REWARD - 20000, key_id30.clone()),
build::output(consensus::REWARD - 40000, key_id31.clone()), build::output(consensus::REWARD - 40000, key_id31.clone()),
build::with_fee(20000),
], ],
&kc, &kc,
&pb, &pb,

5
chain/tests/test_coinbase_maturity.rs
View file

@ -15,6 +15,7 @@
use self::chain::types::NoopAdapter; use self::chain::types::NoopAdapter;
use self::chain::ErrorKind; use self::chain::ErrorKind;
use self::core::core::verifier_cache::LruVerifierCache; use self::core::core::verifier_cache::LruVerifierCache;
use self::core::core::KernelFeatures;
use self::core::global::{self, ChainTypes}; use self::core::global::{self, ChainTypes};
use self::core::libtx::{self, build, ProofBuilder}; use self::core::libtx::{self, build, ProofBuilder};
use self::core::pow::Difficulty; use self::core::pow::Difficulty;
@ -99,10 +100,10 @@ fn test_coinbase_maturity() {
// here we build a tx that attempts to spend the earlier coinbase output // here we build a tx that attempts to spend the earlier coinbase output
// this is not a valid tx as the coinbase output cannot be spent yet // this is not a valid tx as the coinbase output cannot be spent yet
let coinbase_txn = build::transaction( let coinbase_txn = build::transaction(
KernelFeatures::Plain { fee: 2 },
vec![ vec![
build::coinbase_input(amount, key_id1.clone()), build::coinbase_input(amount, key_id1.clone()),
build::output(amount - 2, key_id2.clone()), build::output(amount - 2, key_id2.clone()),
build::with_fee(2),
], ],
&keychain, &keychain,
&builder, &builder,
@ -182,10 +183,10 @@ fn test_coinbase_maturity() {
// here we build a tx that attempts to spend the earlier coinbase output // here we build a tx that attempts to spend the earlier coinbase output
// this is not a valid tx as the coinbase output cannot be spent yet // this is not a valid tx as the coinbase output cannot be spent yet
let coinbase_txn = build::transaction( let coinbase_txn = build::transaction(
KernelFeatures::Plain { fee: 2 },
vec![ vec![
build::coinbase_input(amount, key_id1.clone()), build::coinbase_input(amount, key_id1.clone()),
build::output(amount - 2, key_id2.clone()), build::output(amount - 2, key_id2.clone()),
build::with_fee(2),
], ],
&keychain, &keychain,
&builder, &builder,

56
core/src/core/transaction.rs
View file

@ -463,42 +463,17 @@ impl TxKernel {
/// Build an empty tx kernel with zero values. /// Build an empty tx kernel with zero values.
pub fn empty() -> TxKernel { pub fn empty() -> TxKernel {
TxKernel::with_features(KernelFeatures::Plain { fee: 0 })
}
/// Build an empty tx kernel with the provided kernel features.
pub fn with_features(features: KernelFeatures) -> TxKernel {
TxKernel { TxKernel {
features: KernelFeatures::Plain { fee: 0 }, features,
excess: Commitment::from_vec(vec![0; 33]), excess: Commitment::from_vec(vec![0; 33]),
excess_sig: secp::Signature::from_raw_data(&[0; 64]).unwrap(), excess_sig: secp::Signature::from_raw_data(&[0; 64]).unwrap(),
} }
} }
/// Builds a new tx kernel with the provided fee.
/// Will panic if we cannot safely do this on the existing kernel.
/// i.e. Do not try and set a fee on a coinbase kernel.
pub fn with_fee(self, fee: u64) -> TxKernel {
match self.features {
KernelFeatures::Plain { .. } => {
let features = KernelFeatures::Plain { fee };
TxKernel { features, ..self }
}
KernelFeatures::HeightLocked { lock_height, .. } => {
let features = KernelFeatures::HeightLocked { fee, lock_height };
TxKernel { features, ..self }
}
KernelFeatures::Coinbase => panic!("fee not supported on coinbase kernel"),
}
}
/// Builds a new tx kernel with the provided lock_height.
/// Will panic if we cannot safely do this on the existing kernel.
/// i.e. Do not try and set a lock_height on a coinbase kernel.
pub fn with_lock_height(self, lock_height: u64) -> TxKernel {
match self.features {
KernelFeatures::Plain { fee } | KernelFeatures::HeightLocked { fee, .. } => {
let features = KernelFeatures::HeightLocked { fee, lock_height };
TxKernel { features, ..self }
}
KernelFeatures::Coinbase => panic!("lock_height not supported on coinbase kernel"),
}
}
} }
/// Enum of possible tx weight verification options - /// Enum of possible tx weight verification options -
@ -684,6 +659,13 @@ impl TransactionBody {
self self
} }
/// Builds a new TransactionBody replacing any existing kernels with the provided kernel.
pub fn replace_kernel(mut self, kernel: TxKernel) -> TransactionBody {
self.kernels.clear();
self.kernels.push(kernel);
self
}
/// Total fee for a TransactionBody is the sum of fees of all fee carrying kernels. /// Total fee for a TransactionBody is the sum of fees of all fee carrying kernels.
pub fn fee(&self) -> u64 { pub fn fee(&self) -> u64 {
self.kernels self.kernels
@ -1012,8 +994,8 @@ impl Transaction {
} }
} }
/// Builds a new transaction with the provided output added. Existing /// Builds a new transaction with the provided kernel added. Existing
/// outputs, if any, are kept intact. /// kernels, if any, are kept intact.
/// Sort order is maintained. /// Sort order is maintained.
pub fn with_kernel(self, kernel: TxKernel) -> Transaction { pub fn with_kernel(self, kernel: TxKernel) -> Transaction {
Transaction { Transaction {
@ -1022,6 +1004,14 @@ impl Transaction {
} }
} }
/// Builds a new transaction replacing any existing kernels with the provided kernel.
pub fn replace_kernel(self, kernel: TxKernel) -> Transaction {
Transaction {
body: self.body.replace_kernel(kernel),
..self
}
}
/// Get inputs /// Get inputs
pub fn inputs(&self) -> &Vec<Input> { pub fn inputs(&self) -> &Vec<Input> {
&self.body.inputs &self.body.inputs

167
core/src/libtx/build.rs
View file

@ -22,10 +22,16 @@
//! _transaction_ function. //! _transaction_ function.
//! //!
//! Example: //! Example:
//! build::transaction(vec![input_rand(75), output_rand(42), output_rand(32), //! build::transaction(
//! with_fee(1)]) //! KernelFeatures::Plain{ fee: 2 },
//! vec![
//! input_rand(75),
//! output_rand(42),
//! output_rand(32),
//! ]
//! )
use crate::core::{Input, Output, OutputFeatures, Transaction, TxKernel}; use crate::core::{Input, KernelFeatures, Output, OutputFeatures, Transaction, TxKernel};
use crate::keychain::{BlindSum, BlindingFactor, Identifier, Keychain}; use crate::keychain::{BlindSum, BlindingFactor, Identifier, Keychain};
use crate::libtx::proof::{self, ProofBuild}; use crate::libtx::proof::{self, ProofBuild};
use crate::libtx::{aggsig, Error}; use crate::libtx::{aggsig, Error};
@ -44,11 +50,12 @@ where
} }
/// Function type returned by the transaction combinators. Transforms a /// Function type returned by the transaction combinators. Transforms a
/// (Transaction, BlindSum) pair into another, provided some context. /// (Transaction, BlindSum) tuple into another, given the provided context.
/// Will return an Err if seomthing went wrong at any point during transaction building.
pub type Append<K, B> = dyn for<'a> Fn( pub type Append<K, B> = dyn for<'a> Fn(
&'a mut Context<'_, K, B>, &'a mut Context<'_, K, B>,
(Transaction, TxKernel, BlindSum), Result<(Transaction, BlindSum), Error>,
) -> (Transaction, TxKernel, BlindSum); ) -> Result<(Transaction, BlindSum), Error>;
/// Adds an input with the provided value and blinding key to the transaction /// Adds an input with the provided value and blinding key to the transaction
/// being built. /// being built.
@ -58,17 +65,21 @@ where
B: ProofBuild, B: ProofBuild,
{ {
Box::new( Box::new(
move |build, (tx, kern, sum)| -> (Transaction, TxKernel, BlindSum) { move |build, acc| -> Result<(Transaction, BlindSum), Error> {
let commit = build if let Ok((tx, sum)) = acc {
let commit =
build
.keychain .keychain
.commit(value, &key_id, &SwitchCommitmentType::Regular) .commit(value, &key_id, &SwitchCommitmentType::Regular)?;
.unwrap(); // TODO: proper support for different switch commitment schemes // TODO: proper support for different switch commitment schemes
let input = Input::new(features, commit); let input = Input::new(features, commit);
( Ok((
tx.with_input(input), tx.with_input(input),
kern,
sum.sub_key_id(key_id.to_value_path(value)), sum.sub_key_id(key_id.to_value_path(value)),
) ))
} else {
acc
}
}, },
) )
} }
@ -105,11 +116,13 @@ where
B: ProofBuild, B: ProofBuild,
{ {
Box::new( Box::new(
move |build, (tx, kern, sum)| -> (Transaction, TxKernel, BlindSum) { move |build, acc| -> Result<(Transaction, BlindSum), Error> {
let (tx, sum) = acc?;
// TODO: proper support for different switch commitment schemes // TODO: proper support for different switch commitment schemes
let switch = &SwitchCommitmentType::Regular; let switch = &SwitchCommitmentType::Regular;
let commit = build.keychain.commit(value, &key_id, switch).unwrap(); let commit = build.keychain.commit(value, &key_id, switch)?;
debug!("Building output: {}, {:?}", value, commit); debug!("Building output: {}, {:?}", value, commit);
@ -121,44 +134,16 @@ where
switch, switch,
commit, commit,
None, None,
) )?;
.unwrap();
( Ok((
tx.with_output(Output { tx.with_output(Output {
features: OutputFeatures::Plain, features: OutputFeatures::Plain,
commit, commit,
proof: rproof, proof: rproof,
}), }),
kern,
sum.add_key_id(key_id.to_value_path(value)), sum.add_key_id(key_id.to_value_path(value)),
) ))
},
)
}
/// Sets the fee on the transaction being built.
pub fn with_fee<K, B>(fee: u64) -> Box<Append<K, B>>
where
K: Keychain,
B: ProofBuild,
{
Box::new(
move |_build, (tx, kern, sum)| -> (Transaction, TxKernel, BlindSum) {
(tx, kern.with_fee(fee), sum)
},
)
}
/// Sets the lock_height on the transaction being built.
pub fn with_lock_height<K, B>(lock_height: u64) -> Box<Append<K, B>>
where
K: Keychain,
B: ProofBuild,
{
Box::new(
move |_build, (tx, kern, sum)| -> (Transaction, TxKernel, BlindSum) {
(tx, kern.with_lock_height(lock_height), sum)
}, },
) )
} }
@ -172,53 +157,32 @@ where
B: ProofBuild, B: ProofBuild,
{ {
Box::new( Box::new(
move |_build, (tx, kern, sum)| -> (Transaction, TxKernel, BlindSum) { move |_build, acc| -> Result<(Transaction, BlindSum), Error> {
(tx, kern, sum.add_blinding_factor(excess.clone())) acc.map(|(tx, sum)| (tx, sum.add_blinding_factor(excess.clone())))
},
)
}
/// Sets a known tx "offset". Used in final step of tx construction.
pub fn with_offset<K, B>(offset: BlindingFactor) -> Box<Append<K, B>>
where
K: Keychain,
B: ProofBuild,
{
Box::new(
move |_build, (tx, kern, sum)| -> (Transaction, TxKernel, BlindSum) {
(tx.with_offset(offset.clone()), kern, sum)
}, },
) )
} }
/// Sets an initial transaction to add to when building a new transaction. /// Sets an initial transaction to add to when building a new transaction.
/// We currently only support building a tx with a single kernel with pub fn initial_tx<K, B>(tx: Transaction) -> Box<Append<K, B>>
/// build::transaction()
pub fn initial_tx<K, B>(mut tx: Transaction) -> Box<Append<K, B>>
where where
K: Keychain, K: Keychain,
B: ProofBuild, B: ProofBuild,
{ {
assert_eq!(tx.kernels().len(), 1);
let kern = tx.kernels_mut().remove(0);
Box::new( Box::new(
move |_build, (_, _, sum)| -> (Transaction, TxKernel, BlindSum) { move |_build, acc| -> Result<(Transaction, BlindSum), Error> {
(tx.clone(), kern.clone(), sum) acc.map(|(_, sum)| (tx.clone(), sum))
}, },
) )
} }
/// Builds a new transaction by combining all the combinators provided in a /// Takes an existing transaction and partially builds on it.
/// Vector. Transactions can either be built "from scratch" with a list of
/// inputs or outputs or from a pre-existing transaction that gets added to.
/// ///
/// Example: /// Example:
/// let (tx1, sum) = build::transaction(vec![input_rand(4), output_rand(1), /// let (tx, sum) = build::transaction(tx, vec![input_rand(4), output_rand(1))], keychain)?;
/// with_fee(1)], keychain).unwrap();
/// let (tx2, _) = build::transaction(vec![initial_tx(tx1), with_excess(sum),
/// output_rand(2)], keychain).unwrap();
/// ///
pub fn partial_transaction<K, B>( pub fn partial_transaction<K, B>(
tx: Transaction,
elems: Vec<Box<Append<K, B>>>, elems: Vec<Box<Append<K, B>>>,
keychain: &K, keychain: &K,
builder: &B, builder: &B,
@ -228,22 +192,16 @@ where
B: ProofBuild, B: ProofBuild,
{ {
let mut ctx = Context { keychain, builder }; let mut ctx = Context { keychain, builder };
let (tx, kern, sum) = elems.iter().fold( let (tx, sum) = elems
(Transaction::empty(), TxKernel::empty(), BlindSum::new()), .iter()
|acc, elem| elem(&mut ctx, acc), .fold(Ok((tx, BlindSum::new())), |acc, elem| elem(&mut ctx, acc))?;
);
let blind_sum = ctx.keychain.blind_sum(&sum)?; let blind_sum = ctx.keychain.blind_sum(&sum)?;
// we only support building a tx with a single kernel via build::transaction()
assert!(tx.kernels().is_empty());
let tx = tx.with_kernel(kern);
Ok((tx, blind_sum)) Ok((tx, blind_sum))
} }
/// Builds a complete transaction. /// Builds a complete transaction.
pub fn transaction<K, B>( pub fn transaction<K, B>(
features: KernelFeatures,
elems: Vec<Box<Append<K, B>>>, elems: Vec<Box<Append<K, B>>>,
keychain: &K, keychain: &K,
builder: &B, builder: &B,
@ -253,10 +211,11 @@ where
B: ProofBuild, B: ProofBuild,
{ {
let mut ctx = Context { keychain, builder }; let mut ctx = Context { keychain, builder };
let (mut tx, mut kern, sum) = elems.iter().fold( let (mut tx, sum) = elems
(Transaction::empty(), TxKernel::empty(), BlindSum::new()), .iter()
|acc, elem| elem(&mut ctx, acc), .fold(Ok((Transaction::empty(), BlindSum::new())), |acc, elem| {
); elem(&mut ctx, acc)
})?;
let blind_sum = ctx.keychain.blind_sum(&sum)?; let blind_sum = ctx.keychain.blind_sum(&sum)?;
// Split the key so we can generate an offset for the tx. // Split the key so we can generate an offset for the tx.
@ -264,6 +223,8 @@ where
let k1 = split.blind_1; let k1 = split.blind_1;
let k2 = split.blind_2; let k2 = split.blind_2;
let mut kern = TxKernel::with_features(features);
// Construct the message to be signed. // Construct the message to be signed.
let msg = kern.msg_to_sign()?; let msg = kern.msg_to_sign()?;
@ -271,17 +232,14 @@ where
let skey = k1.secret_key(&keychain.secp())?; let skey = k1.secret_key(&keychain.secp())?;
kern.excess = ctx.keychain.secp().commit(0, skey)?; kern.excess = ctx.keychain.secp().commit(0, skey)?;
let pubkey = &kern.excess.to_pubkey(&keychain.secp())?; let pubkey = &kern.excess.to_pubkey(&keychain.secp())?;
kern.excess_sig = kern.excess_sig = aggsig::sign_with_blinding(&keychain.secp(), &msg, &k1, Some(&pubkey))?;
aggsig::sign_with_blinding(&keychain.secp(), &msg, &k1, Some(&pubkey)).unwrap();
// Store the kernel offset (k2) on the tx. // Store the kernel offset (k2) on the tx.
// Commitments will sum correctly when accounting for the offset. // Commitments will sum correctly when accounting for the offset.
tx.offset = k2.clone(); tx.offset = k2.clone();
// Set the kernel on the tx (assert this is now a single-kernel tx). // Set the kernel on the tx.
assert!(tx.kernels().is_empty()); let tx = tx.replace_kernel(kern);
let tx = tx.with_kernel(kern);
assert_eq!(tx.kernels().len(), 1);
Ok(tx) Ok(tx)
} }
@ -313,12 +271,8 @@ mod test {
let vc = verifier_cache(); let vc = verifier_cache();
let tx = transaction( let tx = transaction(
vec![ KernelFeatures::Plain { fee: 2 },
input(10, key_id1), vec![input(10, key_id1), input(12, key_id2), output(20, key_id3)],
input(12, key_id2),
output(20, key_id3),
with_fee(2),
],
&keychain, &keychain,
&builder, &builder,
) )
@ -338,12 +292,8 @@ mod test {
let vc = verifier_cache(); let vc = verifier_cache();
let tx = transaction( let tx = transaction(
vec![ KernelFeatures::Plain { fee: 2 },
input(10, key_id1), vec![input(10, key_id1), input(12, key_id2), output(20, key_id3)],
input(12, key_id2),
output(20, key_id3),
with_fee(2),
],
&keychain, &keychain,
&builder, &builder,
) )
@ -362,7 +312,8 @@ mod test {
let vc = verifier_cache(); let vc = verifier_cache();
let tx = transaction( let tx = transaction(
vec![input(6, key_id1), output(2, key_id2), with_fee(4)], KernelFeatures::Plain { fee: 4 },
vec![input(6, key_id1), output(2, key_id2)],
&keychain, &keychain,
&builder, &builder,
) )

3
core/src/libtx/error.rs
View file

@ -44,6 +44,9 @@ pub enum ErrorKind {
/// Rangeproof error /// Rangeproof error
#[fail(display = "Rangeproof Error")] #[fail(display = "Rangeproof Error")]
RangeProof(String), RangeProof(String),
/// Other error
#[fail(display = "Other Error")]
Other(String),
} }
impl Fail for Error { impl Fail for Error {

28
core/tests/block.rs
View file

@ -24,7 +24,7 @@ use crate::core::core::Committed;
use crate::core::core::{ use crate::core::core::{
Block, BlockHeader, CompactBlock, HeaderVersion, KernelFeatures, OutputFeatures, Block, BlockHeader, CompactBlock, HeaderVersion, KernelFeatures, OutputFeatures,
}; };
use crate::core::libtx::build::{self, input, output, with_fee}; use crate::core::libtx::build::{self, input, output};
use crate::core::libtx::ProofBuilder; use crate::core::libtx::ProofBuilder;
use crate::core::{global, ser}; use crate::core::{global, ser};
use crate::keychain::{BlindingFactor, ExtKeychain, Keychain}; use crate::keychain::{BlindingFactor, ExtKeychain, Keychain};
@ -58,8 +58,9 @@ fn too_large_block() {
parts.push(output(5, pks.pop().unwrap())); parts.push(output(5, pks.pop().unwrap()));
} }
parts.append(&mut vec![input(500000, pks.pop().unwrap()), with_fee(2)]); parts.append(&mut vec![input(500000, pks.pop().unwrap())]);
let tx = build::transaction(parts, &keychain, &builder).unwrap(); let tx =
build::transaction(KernelFeatures::Plain { fee: 2 }, parts, &keychain, &builder).unwrap();
let prev = BlockHeader::default(); let prev = BlockHeader::default();
let key_id = ExtKeychain::derive_key_id(1, 1, 0, 0, 0); let key_id = ExtKeychain::derive_key_id(1, 1, 0, 0, 0);
@ -92,7 +93,8 @@ fn block_with_cut_through() {
let mut btx1 = tx2i1o(); let mut btx1 = tx2i1o();
let mut btx2 = build::transaction( let mut btx2 = build::transaction(
vec![input(7, key_id1), output(5, key_id2.clone()), with_fee(2)], KernelFeatures::Plain { fee: 2 },
vec![input(7, key_id1), output(5, key_id2.clone())],
&keychain, &keychain,
&builder, &builder,
) )
@ -477,12 +479,8 @@ fn same_amount_outputs_copy_range_proof() {
let key_id3 = keychain::ExtKeychain::derive_key_id(1, 3, 0, 0, 0); let key_id3 = keychain::ExtKeychain::derive_key_id(1, 3, 0, 0, 0);
let tx = build::transaction( let tx = build::transaction(
vec![ KernelFeatures::Plain { fee: 1 },
input(7, key_id1), vec![input(7, key_id1), output(3, key_id2), output(3, key_id3)],
output(3, key_id2),
output(3, key_id3),
with_fee(1),
],
&keychain, &keychain,
&builder, &builder,
) )
@ -527,23 +525,19 @@ fn wrong_amount_range_proof() {
let key_id3 = keychain::ExtKeychain::derive_key_id(1, 3, 0, 0, 0); let key_id3 = keychain::ExtKeychain::derive_key_id(1, 3, 0, 0, 0);
let tx1 = build::transaction( let tx1 = build::transaction(
KernelFeatures::Plain { fee: 1 },
vec![ vec![
input(7, key_id1.clone()), input(7, key_id1.clone()),
output(3, key_id2.clone()), output(3, key_id2.clone()),
output(3, key_id3.clone()), output(3, key_id3.clone()),
with_fee(1),
], ],
&keychain, &keychain,
&builder, &builder,
) )
.unwrap(); .unwrap();
let tx2 = build::transaction( let tx2 = build::transaction(
vec![ KernelFeatures::Plain { fee: 1 },
input(7, key_id1), vec![input(7, key_id1), output(2, key_id2), output(4, key_id3)],
output(2, key_id2),
output(4, key_id3),
with_fee(1),
],
&keychain, &keychain,
&builder, &builder,
) )

29
core/tests/common.rs
View file

@ -15,12 +15,9 @@
//! Common test functions //! Common test functions
use crate::keychain::{Identifier, Keychain}; use crate::keychain::{Identifier, Keychain};
use grin_core::core::{ use grin_core::core::{Block, BlockHeader, KernelFeatures, Transaction};
block::{Block, BlockHeader},
Transaction,
};
use grin_core::libtx::{ use grin_core::libtx::{
build::{self, input, output, with_fee}, build::{self, input, output},
proof::{ProofBuild, ProofBuilder}, proof::{ProofBuild, ProofBuilder},
reward, reward,
}; };
@ -36,12 +33,8 @@ pub fn tx2i1o() -> Transaction {
let key_id3 = keychain::ExtKeychain::derive_key_id(1, 3, 0, 0, 0); let key_id3 = keychain::ExtKeychain::derive_key_id(1, 3, 0, 0, 0);
build::transaction( build::transaction(
vec![ KernelFeatures::Plain { fee: 2 },
input(10, key_id1), vec![input(10, key_id1), input(11, key_id2), output(19, key_id3)],
input(11, key_id2),
output(19, key_id3),
with_fee(2),
],
&keychain, &keychain,
&builder, &builder,
) )
@ -56,7 +49,8 @@ pub fn tx1i1o() -> Transaction {
let key_id2 = keychain::ExtKeychain::derive_key_id(1, 2, 0, 0, 0); let key_id2 = keychain::ExtKeychain::derive_key_id(1, 2, 0, 0, 0);
build::transaction( build::transaction(
vec![input(5, key_id1), output(3, key_id2), with_fee(2)], KernelFeatures::Plain { fee: 2 },
vec![input(5, key_id1), output(3, key_id2)],
&keychain, &keychain,
&builder, &builder,
) )
@ -74,12 +68,8 @@ pub fn tx1i2o() -> Transaction {
let key_id3 = keychain::ExtKeychain::derive_key_id(1, 3, 0, 0, 0); let key_id3 = keychain::ExtKeychain::derive_key_id(1, 3, 0, 0, 0);
build::transaction( build::transaction(
vec![ KernelFeatures::Plain { fee: 2 },
input(6, key_id1), vec![input(6, key_id1), output(3, key_id2), output(1, key_id3)],
output(3, key_id2),
output(1, key_id3),
with_fee(2),
],
&keychain, &keychain,
&builder, &builder,
) )
@ -124,7 +114,8 @@ where
B: ProofBuild, B: ProofBuild,
{ {
build::transaction( build::transaction(
vec![input(v, key_id1), output(3, key_id2), with_fee(2)], KernelFeatures::Plain { fee: 2 },
vec![input(v, key_id1), output(3, key_id2)],
keychain, keychain,
builder, builder,
) )

55
core/tests/core.rs
View file

@ -20,10 +20,10 @@ use self::core::core::block::BlockHeader;
use self::core::core::block::Error::KernelLockHeight; use self::core::core::block::Error::KernelLockHeight;
use self::core::core::hash::{Hashed, ZERO_HASH}; use self::core::core::hash::{Hashed, ZERO_HASH};
use self::core::core::verifier_cache::{LruVerifierCache, VerifierCache}; use self::core::core::verifier_cache::{LruVerifierCache, VerifierCache};
use self::core::core::{aggregate, deaggregate, KernelFeatures, Output, Transaction, Weighting}; use self::core::core::{
use self::core::libtx::build::{ aggregate, deaggregate, KernelFeatures, Output, Transaction, TxKernel, Weighting,
self, initial_tx, input, output, with_excess, with_fee, with_lock_height,
}; };
use self::core::libtx::build::{self, initial_tx, input, output, with_excess};
use self::core::libtx::ProofBuilder; use self::core::libtx::ProofBuilder;
use self::core::ser; use self::core::ser;
use self::keychain::{BlindingFactor, ExtKeychain, Keychain}; use self::keychain::{BlindingFactor, ExtKeychain, Keychain};
@ -99,6 +99,7 @@ fn test_zero_commit_fails() {
// blinding should fail as signing with a zero r*G shouldn't work // blinding should fail as signing with a zero r*G shouldn't work
build::transaction( build::transaction(
KernelFeatures::Plain { fee: 0 },
vec![input(10, key_id1.clone()), output(10, key_id1.clone())], vec![input(10, key_id1.clone()), output(10, key_id1.clone())],
&keychain, &keychain,
&builder, &builder,
@ -120,12 +121,8 @@ fn build_tx_kernel() {
// first build a valid tx with corresponding blinding factor // first build a valid tx with corresponding blinding factor
let tx = build::transaction( let tx = build::transaction(
vec![ KernelFeatures::Plain { fee: 2 },
input(10, key_id1), vec![input(10, key_id1), output(5, key_id2), output(3, key_id3)],
output(5, key_id2),
output(3, key_id3),
with_fee(2),
],
&keychain, &keychain,
&builder, &builder,
) )
@ -373,12 +370,8 @@ fn hash_output() {
let key_id3 = ExtKeychain::derive_key_id(1, 3, 0, 0, 0); let key_id3 = ExtKeychain::derive_key_id(1, 3, 0, 0, 0);
let tx = build::transaction( let tx = build::transaction(
vec![ KernelFeatures::Plain { fee: 1 },
input(75, key_id1), vec![input(75, key_id1), output(42, key_id2), output(32, key_id3)],
output(42, key_id2),
output(32, key_id3),
with_fee(1),
],
&keychain, &keychain,
&builder, &builder,
) )
@ -439,11 +432,10 @@ fn tx_build_exchange() {
// Alice builds her transaction, with change, which also produces the sum // Alice builds her transaction, with change, which also produces the sum
// of blinding factors before they're obscured. // of blinding factors before they're obscured.
let (tx, sum) = build::partial_transaction( let tx = Transaction::empty()
vec![in1, in2, output(1, key_id3), with_fee(2)], .with_kernel(TxKernel::with_features(KernelFeatures::Plain { fee: 2 }));
&keychain, let (tx, sum) =
&builder, build::partial_transaction(tx, vec![in1, in2, output(1, key_id3)], &keychain, &builder)
)
.unwrap(); .unwrap();
(tx, sum) (tx, sum)
@ -453,6 +445,7 @@ fn tx_build_exchange() {
// blinding factors. He adds his output, finalizes the transaction so it's // blinding factors. He adds his output, finalizes the transaction so it's
// ready for broadcast. // ready for broadcast.
let tx_final = build::transaction( let tx_final = build::transaction(
KernelFeatures::Plain { fee: 2 },
vec![ vec![
initial_tx(tx_alice), initial_tx(tx_alice),
with_excess(blind_sum), with_excess(blind_sum),
@ -547,12 +540,11 @@ fn test_block_with_timelocked_tx() {
// first check we can add a timelocked tx where lock height matches current // first check we can add a timelocked tx where lock height matches current
// block height and that the resulting block is valid // block height and that the resulting block is valid
let tx1 = build::transaction( let tx1 = build::transaction(
vec![ KernelFeatures::HeightLocked {
input(5, key_id1.clone()), fee: 2,
output(3, key_id2.clone()), lock_height: 1,
with_fee(2), },
with_lock_height(1), vec![input(5, key_id1.clone()), output(3, key_id2.clone())],
],
&keychain, &keychain,
&builder, &builder,
) )
@ -572,12 +564,11 @@ fn test_block_with_timelocked_tx() {
// now try adding a timelocked tx where lock height is greater than current // now try adding a timelocked tx where lock height is greater than current
// block height // block height
let tx1 = build::transaction( let tx1 = build::transaction(
vec![ KernelFeatures::HeightLocked {
input(5, key_id1.clone()), fee: 2,
output(3, key_id2.clone()), lock_height: 2,
with_fee(2), },
with_lock_height(2), vec![input(5, key_id1.clone()), output(3, key_id2.clone())],
],
&keychain, &keychain,
&builder, &builder,
) )

21
pool/tests/common.rs
View file

@ -18,7 +18,7 @@ use self::chain::store::ChainStore;
use self::chain::types::Tip; use self::chain::types::Tip;
use self::core::core::hash::{Hash, Hashed}; use self::core::core::hash::{Hash, Hashed};
use self::core::core::verifier_cache::VerifierCache; use self::core::core::verifier_cache::VerifierCache;
use self::core::core::{Block, BlockHeader, BlockSums, Committed, Transaction}; use self::core::core::{Block, BlockHeader, BlockSums, Committed, KernelFeatures, Transaction};
use self::core::libtx; use self::core::libtx;
use self::keychain::{ExtKeychain, Keychain}; use self::keychain::{ExtKeychain, Keychain};
use self::pool::types::*; use self::pool::types::*;
@ -193,9 +193,13 @@ where
tx_elements.push(libtx::build::output(output_value, key_id)); tx_elements.push(libtx::build::output(output_value, key_id));
} }
tx_elements.push(libtx::build::with_fee(fees as u64)); libtx::build::transaction(
KernelFeatures::Plain { fee: fees as u64 },
libtx::build::transaction(tx_elements, keychain, &libtx::ProofBuilder::new(keychain)).unwrap() tx_elements,
keychain,
&libtx::ProofBuilder::new(keychain),
)
.unwrap()
} }
pub fn test_transaction<K>( pub fn test_transaction<K>(
@ -223,9 +227,14 @@ where
let key_id = ExtKeychain::derive_key_id(1, output_value as u32, 0, 0, 0); let key_id = ExtKeychain::derive_key_id(1, output_value as u32, 0, 0, 0);
tx_elements.push(libtx::build::output(output_value, key_id)); tx_elements.push(libtx::build::output(output_value, key_id));
} }
tx_elements.push(libtx::build::with_fee(fees as u64));
libtx::build::transaction(tx_elements, keychain, &libtx::ProofBuilder::new(keychain)).unwrap() libtx::build::transaction(
KernelFeatures::Plain { fee: fees as u64 },
tx_elements,
keychain,
&libtx::ProofBuilder::new(keychain),
)
.unwrap()
} }
pub fn test_source() -> TxSource { pub fn test_source() -> TxSource {