Merge pull request #350 from ethcore/signed_transaction

SignedTransaction structure
This commit is contained in:
Marek Kotewicz 2016-02-05 14:11:12 +01:00
commit 720c280fde
12 changed files with 256 additions and 213 deletions

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@ -30,7 +30,7 @@ pub struct Block {
/// The header of this block. /// The header of this block.
pub header: Header, pub header: Header,
/// The transactions in this block. /// The transactions in this block.
pub transactions: Vec<Transaction>, pub transactions: Vec<SignedTransaction>,
/// The uncles of this block. /// The uncles of this block.
pub uncles: Vec<Header>, pub uncles: Vec<Header>,
} }
@ -92,7 +92,7 @@ pub struct BlockRefMut<'a> {
/// Block header. /// Block header.
pub header: &'a Header, pub header: &'a Header,
/// Block transactions. /// Block transactions.
pub transactions: &'a Vec<Transaction>, pub transactions: &'a Vec<SignedTransaction>,
/// Block uncles. /// Block uncles.
pub uncles: &'a Vec<Header>, pub uncles: &'a Vec<Header>,
/// Transaction receipts. /// Transaction receipts.
@ -129,7 +129,7 @@ pub trait IsBlock {
fn state(&self) -> &State { &self.block().state } fn state(&self) -> &State { &self.block().state }
/// Get all information on transactions in this block. /// Get all information on transactions in this block.
fn transactions(&self) -> &Vec<Transaction> { &self.block().base.transactions } fn transactions(&self) -> &Vec<SignedTransaction> { &self.block().base.transactions }
/// Get all information on receipts in this block. /// Get all information on receipts in this block.
fn receipts(&self) -> &Vec<Receipt> { &self.block().receipts } fn receipts(&self) -> &Vec<Receipt> { &self.block().receipts }
@ -244,7 +244,7 @@ impl<'x, 'y> OpenBlock<'x, 'y> {
/// Push a transaction into the block. /// Push a transaction into the block.
/// ///
/// If valid, it will be executed, and archived together with the receipt. /// If valid, it will be executed, and archived together with the receipt.
pub fn push_transaction(&mut self, t: Transaction, h: Option<H256>) -> Result<&Receipt, Error> { pub fn push_transaction(&mut self, t: SignedTransaction, h: Option<H256>) -> Result<&Receipt, Error> {
let env_info = self.env_info(); let env_info = self.env_info();
// info!("env_info says gas_used={}", env_info.gas_used); // info!("env_info says gas_used={}", env_info.gas_used);
match self.block.state.apply(&env_info, self.engine, &t) { match self.block.state.apply(&env_info, self.engine, &t) {
@ -332,7 +332,7 @@ impl IsBlock for SealedBlock {
} }
/// Enact the block given by block header, transactions and uncles /// Enact the block given by block header, transactions and uncles
pub fn enact<'x, 'y>(header: &Header, transactions: &[Transaction], uncles: &[Header], engine: &'x Engine, db: JournalDB, parent: &Header, last_hashes: &'y LastHashes) -> Result<ClosedBlock<'x, 'y>, Error> { pub fn enact<'x, 'y>(header: &Header, transactions: &[SignedTransaction], uncles: &[Header], engine: &'x Engine, db: JournalDB, parent: &Header, last_hashes: &'y LastHashes) -> Result<ClosedBlock<'x, 'y>, Error> {
{ {
if ::log::max_log_level() >= ::log::LogLevel::Trace { if ::log::max_log_level() >= ::log::LogLevel::Trace {
let s = State::from_existing(db.clone(), parent.state_root().clone(), engine.account_start_nonce()); let s = State::from_existing(db.clone(), parent.state_root().clone(), engine.account_start_nonce());

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@ -109,7 +109,7 @@ pub trait BlockProvider {
/// Get a list of transactions for a given block. /// Get a list of transactions for a given block.
/// Returns None if block deos not exist. /// Returns None if block deos not exist.
fn transactions(&self, hash: &H256) -> Option<Vec<Transaction>> { fn transactions(&self, hash: &H256) -> Option<Vec<SignedTransaction>> {
self.block(hash).map(|bytes| BlockView::new(&bytes).transactions()) self.block(hash).map(|bytes| BlockView::new(&bytes).transactions())
} }

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@ -72,9 +72,9 @@ pub trait Engine : Sync + Send {
/// Additional verification for transactions in blocks. /// Additional verification for transactions in blocks.
// TODO: Add flags for which bits of the transaction to check. // TODO: Add flags for which bits of the transaction to check.
// TODO: consider including State in the params. // TODO: consider including State in the params.
fn verify_transaction_basic(&self, _t: &Transaction, _header: &Header) -> Result<(), Error> { Ok(()) } fn verify_transaction_basic(&self, _t: &SignedTransaction, _header: &Header) -> Result<(), Error> { Ok(()) }
/// Verify a particular transaction is valid. /// Verify a particular transaction is valid.
fn verify_transaction(&self, _t: &Transaction, _header: &Header) -> Result<(), Error> { Ok(()) } fn verify_transaction(&self, _t: &SignedTransaction, _header: &Header) -> Result<(), Error> { Ok(()) }
/// Don't forget to call Super::populateFromParent when subclassing & overriding. /// Don't forget to call Super::populateFromParent when subclassing & overriding.
// TODO: consider including State in the params. // TODO: consider including State in the params.

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@ -170,14 +170,14 @@ impl Engine for Ethash {
Ok(()) Ok(())
} }
fn verify_transaction_basic(&self, t: &Transaction, header: &Header) -> result::Result<(), Error> { fn verify_transaction_basic(&self, t: &SignedTransaction, header: &Header) -> result::Result<(), Error> {
if header.number() >= self.u64_param("frontierCompatibilityModeLimit") { if header.number() >= self.u64_param("frontierCompatibilityModeLimit") {
try!(t.check_low_s()); try!(t.check_low_s());
} }
Ok(()) Ok(())
} }
fn verify_transaction(&self, t: &Transaction, _header: &Header) -> Result<(), Error> { fn verify_transaction(&self, t: &SignedTransaction, _header: &Header) -> Result<(), Error> {
t.sender().map(|_|()) // Perform EC recovery and cache sender t.sender().map(|_|()) // Perform EC recovery and cache sender
} }
} }

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@ -102,7 +102,7 @@ impl<'a> Executive<'a> {
} }
/// This funtion should be used to execute transaction. /// This funtion should be used to execute transaction.
pub fn transact(&'a mut self, t: &Transaction) -> Result<Executed, Error> { pub fn transact(&'a mut self, t: &SignedTransaction) -> Result<Executed, Error> {
let sender = try!(t.sender()); let sender = try!(t.sender());
let nonce = self.state.nonce(&sender); let nonce = self.state.nonce(&sender);
@ -286,7 +286,7 @@ impl<'a> Executive<'a> {
} }
/// Finalizes the transaction (does refunds and suicides). /// Finalizes the transaction (does refunds and suicides).
fn finalize(&mut self, t: &Transaction, substate: Substate, result: evm::Result) -> ExecutionResult { fn finalize(&mut self, t: &SignedTransaction, substate: Substate, result: evm::Result) -> ExecutionResult {
let schedule = self.engine.schedule(self.info); let schedule = self.engine.schedule(self.info);
// refunds from SSTORE nonzero -> zero // refunds from SSTORE nonzero -> zero
@ -706,9 +706,15 @@ mod tests {
// test is incorrect, mk // test is incorrect, mk
evm_test_ignore!{test_transact_simple: test_transact_simple_jit, test_transact_simple_int} evm_test_ignore!{test_transact_simple: test_transact_simple_jit, test_transact_simple_int}
fn test_transact_simple(factory: Factory) { fn test_transact_simple(factory: Factory) {
let mut t = Transaction::new_create(U256::from(17), "3331600055".from_hex().unwrap(), U256::from(100_000), U256::zero(), U256::zero());
let keypair = KeyPair::create().unwrap(); let keypair = KeyPair::create().unwrap();
t.sign(&keypair.secret()); let t = Transaction {
action: Action::Create,
value: U256::from(17),
data: "3331600055".from_hex().unwrap(),
gas: U256::from(100_000),
gas_price: U256::zero(),
nonce: U256::zero()
}.sign(&keypair.secret());
let sender = t.sender().unwrap(); let sender = t.sender().unwrap();
let contract = contract_address(&sender, &U256::zero()); let contract = contract_address(&sender, &U256::zero());
@ -738,8 +744,14 @@ mod tests {
evm_test!{test_transact_invalid_sender: test_transact_invalid_sender_jit, test_transact_invalid_sender_int} evm_test!{test_transact_invalid_sender: test_transact_invalid_sender_jit, test_transact_invalid_sender_int}
fn test_transact_invalid_sender(factory: Factory) { fn test_transact_invalid_sender(factory: Factory) {
let t = Transaction::new_create(U256::from(17), "3331600055".from_hex().unwrap(), U256::from(100_000), U256::zero(), U256::zero()); let t = Transaction {
action: Action::Create,
value: U256::from(17),
data: "3331600055".from_hex().unwrap(),
gas: U256::from(100_000),
gas_price: U256::zero(),
nonce: U256::zero()
}.fake_sign();
let mut state_result = get_temp_state(); let mut state_result = get_temp_state();
let mut state = state_result.reference_mut(); let mut state = state_result.reference_mut();
let mut info = EnvInfo::default(); let mut info = EnvInfo::default();
@ -759,9 +771,15 @@ mod tests {
evm_test!{test_transact_invalid_nonce: test_transact_invalid_nonce_jit, test_transact_invalid_nonce_int} evm_test!{test_transact_invalid_nonce: test_transact_invalid_nonce_jit, test_transact_invalid_nonce_int}
fn test_transact_invalid_nonce(factory: Factory) { fn test_transact_invalid_nonce(factory: Factory) {
let mut t = Transaction::new_create(U256::from(17), "3331600055".from_hex().unwrap(), U256::from(100_000), U256::zero(), U256::one());
let keypair = KeyPair::create().unwrap(); let keypair = KeyPair::create().unwrap();
t.sign(&keypair.secret()); let t = Transaction {
action: Action::Create,
value: U256::from(17),
data: "3331600055".from_hex().unwrap(),
gas: U256::from(100_000),
gas_price: U256::zero(),
nonce: U256::one()
}.sign(&keypair.secret());
let sender = t.sender().unwrap(); let sender = t.sender().unwrap();
let mut state_result = get_temp_state(); let mut state_result = get_temp_state();
@ -785,9 +803,15 @@ mod tests {
evm_test!{test_transact_gas_limit_reached: test_transact_gas_limit_reached_jit, test_transact_gas_limit_reached_int} evm_test!{test_transact_gas_limit_reached: test_transact_gas_limit_reached_jit, test_transact_gas_limit_reached_int}
fn test_transact_gas_limit_reached(factory: Factory) { fn test_transact_gas_limit_reached(factory: Factory) {
let mut t = Transaction::new_create(U256::from(17), "3331600055".from_hex().unwrap(), U256::from(80_001), U256::zero(), U256::zero());
let keypair = KeyPair::create().unwrap(); let keypair = KeyPair::create().unwrap();
t.sign(&keypair.secret()); let t = Transaction {
action: Action::Create,
value: U256::from(17),
data: "3331600055".from_hex().unwrap(),
gas: U256::from(80_001),
gas_price: U256::zero(),
nonce: U256::zero()
}.sign(&keypair.secret());
let sender = t.sender().unwrap(); let sender = t.sender().unwrap();
let mut state_result = get_temp_state(); let mut state_result = get_temp_state();
@ -812,9 +836,16 @@ mod tests {
evm_test!{test_not_enough_cash: test_not_enough_cash_jit, test_not_enough_cash_int} evm_test!{test_not_enough_cash: test_not_enough_cash_jit, test_not_enough_cash_int}
fn test_not_enough_cash(factory: Factory) { fn test_not_enough_cash(factory: Factory) {
let mut t = Transaction::new_create(U256::from(18), "3331600055".from_hex().unwrap(), U256::from(100_000), U256::one(), U256::zero());
let keypair = KeyPair::create().unwrap(); let keypair = KeyPair::create().unwrap();
t.sign(&keypair.secret()); let t = Transaction {
action: Action::Create,
value: U256::from(18),
data: "3331600055".from_hex().unwrap(),
gas: U256::from(100_000),
gas_price: U256::one(),
nonce: U256::zero()
}.sign(&keypair.secret());
let sender = t.sender().unwrap(); let sender = t.sender().unwrap();
let mut state_result = get_temp_state(); let mut state_result = get_temp_state();

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@ -49,7 +49,7 @@ pub fn json_chain_test(json_data: &[u8], era: ChainEra) -> Vec<String> {
flush!(" - {}...", name); flush!(" - {}...", name);
let t = Transaction::from_json(&test["transaction"]); let t = SignedTransaction::from_json(&test["transaction"]);
let env = EnvInfo::from_json(&test["env"]); let env = EnvInfo::from_json(&test["env"]);
let _out = Bytes::from_json(&test["out"]); let _out = Bytes::from_json(&test["out"]);
let post_state_root = xjson!(&test["postStateRoot"]); let post_state_root = xjson!(&test["postStateRoot"]);

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@ -22,7 +22,7 @@ fn do_json_test(json_data: &[u8]) -> Vec<String> {
let mut failed = Vec::new(); let mut failed = Vec::new();
let old_schedule = evm::Schedule::new_frontier(); let old_schedule = evm::Schedule::new_frontier();
let new_schedule = evm::Schedule::new_homestead(); let new_schedule = evm::Schedule::new_homestead();
let ot = RefCell::new(Transaction::new()); let ot = RefCell::new(None);
for (name, test) in json.as_object().unwrap() { for (name, test) in json.as_object().unwrap() {
let mut fail = false; let mut fail = false;
let mut fail_unless = |cond: bool| if !cond && !fail { failed.push(name.clone()); println!("Transaction: {:?}", ot.borrow()); fail = true }; let mut fail_unless = |cond: bool| if !cond && !fail { failed.push(name.clone()); println!("Transaction: {:?}", ot.borrow()); fail = true };
@ -31,7 +31,7 @@ fn do_json_test(json_data: &[u8]) -> Vec<String> {
.and_then(|s| BlockNumber::from_str(s).ok()) .and_then(|s| BlockNumber::from_str(s).ok())
.unwrap_or(0) { x if x < 1_000_000 => &old_schedule, _ => &new_schedule }; .unwrap_or(0) { x if x < 1_000_000 => &old_schedule, _ => &new_schedule };
let rlp = Bytes::from_json(&test["rlp"]); let rlp = Bytes::from_json(&test["rlp"]);
let res = UntrustedRlp::new(&rlp).as_val().map_err(From::from).and_then(|t: Transaction| t.validate(schedule, schedule.have_delegate_call)); let res = UntrustedRlp::new(&rlp).as_val().map_err(From::from).and_then(|t: SignedTransaction| t.validate(schedule, schedule.have_delegate_call));
fail_unless(test.find("transaction").is_none() == res.is_err()); fail_unless(test.find("transaction").is_none() == res.is_err());
if let (Some(&Json::Object(ref tx)), Some(&Json::String(ref expect_sender))) = (test.find("transaction"), test.find("sender")) { if let (Some(&Json::Object(ref tx)), Some(&Json::String(ref expect_sender))) = (test.find("transaction"), test.find("sender")) {
let t = res.unwrap(); let t = res.unwrap();
@ -42,10 +42,10 @@ fn do_json_test(json_data: &[u8]) -> Vec<String> {
fail_unless(t.nonce == xjson!(&tx["nonce"])); fail_unless(t.nonce == xjson!(&tx["nonce"]));
fail_unless(t.value == xjson!(&tx["value"])); fail_unless(t.value == xjson!(&tx["value"]));
if let Action::Call(ref to) = t.action { if let Action::Call(ref to) = t.action {
*ot.borrow_mut() = t.clone(); *ot.borrow_mut() = Some(t.clone());
fail_unless(to == &xjson!(&tx["to"])); fail_unless(to == &xjson!(&tx["to"]));
} else { } else {
*ot.borrow_mut() = t.clone(); *ot.borrow_mut() = Some(t.clone());
fail_unless(Bytes::from_json(&tx["to"]).is_empty()); fail_unless(Bytes::from_json(&tx["to"]).is_empty());
} }
} }

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@ -209,7 +209,7 @@ impl State {
/// Execute a given transaction. /// Execute a given transaction.
/// This will change the state accordingly. /// This will change the state accordingly.
pub fn apply(&mut self, env_info: &EnvInfo, engine: &Engine, t: &Transaction) -> ApplyResult { pub fn apply(&mut self, env_info: &EnvInfo, engine: &Engine, t: &SignedTransaction) -> ApplyResult {
// let old = self.to_pod(); // let old = self.to_pod();
let e = try!(Executive::new(self, env_info, engine).transact(t)); let e = try!(Executive::new(self, env_info, engine).transact(t));

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@ -123,12 +123,12 @@ fn create_unverifiable_block(order: u32, parent_hash: H256) -> Bytes {
create_test_block(&create_unverifiable_block_header(order, parent_hash)) create_test_block(&create_unverifiable_block_header(order, parent_hash))
} }
pub fn create_test_block_with_data(header: &Header, transactions: &[&Transaction], uncles: &[Header]) -> Bytes { pub fn create_test_block_with_data(header: &Header, transactions: &[&SignedTransaction], uncles: &[Header]) -> Bytes {
let mut rlp = RlpStream::new_list(3); let mut rlp = RlpStream::new_list(3);
rlp.append(header); rlp.append(header);
rlp.begin_list(transactions.len()); rlp.begin_list(transactions.len());
for t in transactions { for t in transactions {
rlp.append_raw(&t.rlp_bytes_opt(Seal::With), 1); rlp.append_raw(&encode::<SignedTransaction>(t).to_vec(), 1);
} }
rlp.append(&uncles); rlp.append(&uncles);
rlp.out() rlp.out()

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@ -17,7 +17,6 @@
//! Transaction data structure. //! Transaction data structure.
use util::*; use util::*;
use basic_types::*;
use error::*; use error::*;
use evm::Schedule; use evm::Schedule;
@ -34,6 +33,16 @@ impl Default for Action {
fn default() -> Action { Action::Create } fn default() -> Action { Action::Create }
} }
impl Decodable for Action {
fn decode<D>(decoder: &D) -> Result<Self, DecoderError> where D: Decoder {
let rlp = decoder.as_rlp();
match rlp.is_empty() {
true => Ok(Action::Create),
false => Ok(Action::Call(try!(rlp.as_val())))
}
}
}
/// A set of information describing an externally-originating message call /// A set of information describing an externally-originating message call
/// or contract creation operation. /// or contract creation operation.
#[derive(Default, Debug, Clone)] #[derive(Default, Debug, Clone)]
@ -50,103 +59,27 @@ pub struct Transaction {
pub value: U256, pub value: U256,
/// Transaction data. /// Transaction data.
pub data: Bytes, pub data: Bytes,
// signature
/// The V field of the signature, either 27 or 28; helps describe the point on the curve.
pub v: u8,
/// The R field of the signature; helps describe the point on the curve.
pub r: U256,
/// The S field of the signature; helps describe the point on the curve.
pub s: U256,
hash: RefCell<Option<H256>>,
sender: RefCell<Option<Address>>,
} }
impl Transaction { impl Transaction {
/// Create a new transaction. /// Append object with a without signature into RLP stream
#[cfg(test)] pub fn rlp_append_unsigned_transaction(&self, s: &mut RlpStream) {
#[cfg(feature = "json-tests")] s.begin_list(6);
pub fn new() -> Self {
Transaction {
nonce: x!(0),
gas_price: x!(0),
gas: x!(0),
action: Action::Create,
value: x!(0),
data: vec![],
v: 0,
r: x!(0),
s: x!(0),
hash: RefCell::new(None),
sender: RefCell::new(None),
}
}
/// Create a new message-call transaction.
#[allow(dead_code)]
pub fn new_call(to: Address, value: U256, data: Bytes, gas: U256, gas_price: U256, nonce: U256) -> Transaction {
Transaction {
nonce: nonce,
gas_price: gas_price,
gas: gas,
action: Action::Call(to),
value: value,
data: data,
v: 0,
r: x!(0),
s: x!(0),
hash: RefCell::new(None),
sender: RefCell::new(None),
}
}
/// Create a new contract-creation transaction.
#[cfg(test)]
pub fn new_create(value: U256, data: Bytes, gas: U256, gas_price: U256, nonce: U256) -> Transaction {
Transaction {
nonce: nonce,
gas_price: gas_price,
gas: gas,
action: Action::Create,
value: value,
data: data,
v: 0,
r: x!(0),
s: x!(0),
hash: RefCell::new(None),
sender: RefCell::new(None),
}
}
/// Append object into RLP stream, optionally with or without the signature.
pub fn rlp_append_opt(&self, s: &mut RlpStream, with_seal: Seal) {
s.begin_list(6 + match with_seal { Seal::With => 3, _ => 0 });
s.append(&self.nonce); s.append(&self.nonce);
s.append(&self.gas_price); s.append(&self.gas_price);
s.append(&self.gas); s.append(&self.gas);
match self.action { match self.action {
Action::Create => s.append_empty_data(), Action::Create => s.append_empty_data(),
Action::Call(ref to) => s.append(to), Action::Call(ref to) => s.append(to)
}; };
s.append(&self.value); s.append(&self.value);
s.append(&self.data); s.append(&self.data);
if let Seal::With = with_seal {
s.append(&(self.v as u16)).append(&self.r).append(&self.s);
}
}
/// Get the RLP serialisation of the object, optionally with or without the signature.
pub fn rlp_bytes_opt(&self, with_seal: Seal) -> Bytes {
let mut s = RlpStream::new();
self.rlp_append_opt(&mut s, with_seal);
s.out()
} }
} }
impl FromJson for Transaction { impl FromJson for SignedTransaction {
fn from_json(json: &Json) -> Transaction { fn from_json(json: &Json) -> SignedTransaction {
let mut r = Transaction { let t = Transaction {
nonce: xjson!(&json["nonce"]), nonce: xjson!(&json["nonce"]),
gas_price: xjson!(&json["gasPrice"]), gas_price: xjson!(&json["gasPrice"]),
gas: xjson!(&json["gasLimit"]), gas: xjson!(&json["gasLimit"]),
@ -156,27 +89,145 @@ impl FromJson for Transaction {
}, },
value: xjson!(&json["value"]), value: xjson!(&json["value"]),
data: xjson!(&json["data"]), data: xjson!(&json["data"]),
v: match json.find("v") { Some(ref j) => u16::from_json(j) as u8, None => 0 },
r: match json.find("r") { Some(j) => xjson!(j), None => x!(0) },
s: match json.find("s") { Some(j) => xjson!(j), None => x!(0) },
hash: RefCell::new(None),
sender: match json.find("sender") {
Some(&Json::String(ref sender)) => RefCell::new(Some(address_from_hex(clean(sender)))),
_ => RefCell::new(None),
},
}; };
if let Some(&Json::String(ref secret_key)) = json.find("secretKey") { match json.find("secretKey") {
r.sign(&h256_from_hex(clean(secret_key))); Some(&Json::String(ref secret_key)) => t.sign(&h256_from_hex(clean(secret_key))),
_ => SignedTransaction {
unsigned: t,
v: match json.find("v") { Some(ref j) => u16::from_json(j) as u8, None => 0 },
r: match json.find("r") { Some(j) => xjson!(j), None => x!(0) },
s: match json.find("s") { Some(j) => xjson!(j), None => x!(0) },
hash: RefCell::new(None),
sender: match json.find("sender") {
Some(&Json::String(ref sender)) => RefCell::new(Some(address_from_hex(clean(sender)))),
_ => RefCell::new(None),
}
}
} }
r
} }
} }
impl Encodable for Transaction { impl Transaction {
fn rlp_append(&self, s: &mut RlpStream) { self.rlp_append_opt(s, Seal::With) } /// The message hash of the transaction.
pub fn hash(&self) -> H256 {
let mut stream = RlpStream::new();
self.rlp_append_unsigned_transaction(&mut stream);
stream.out().sha3()
}
/// Signs the transaction as coming from `sender`.
pub fn sign(self, secret: &Secret) -> SignedTransaction {
let sig = ec::sign(secret, &self.hash());
let (r, s, v) = sig.unwrap().to_rsv();
SignedTransaction {
unsigned: self,
r: r,
s: s,
v: v + 27,
hash: RefCell::new(None),
sender: RefCell::new(None)
}
}
/// Useful for test incorrectly signed transactions.
#[cfg(test)]
pub fn fake_sign(self) -> SignedTransaction {
SignedTransaction {
unsigned: self,
r: U256::zero(),
s: U256::zero(),
v: 0,
hash: RefCell::new(None),
sender: RefCell::new(None)
}
}
/// Get the transaction cost in gas for the given params.
pub fn gas_required_for(is_create: bool, data: &[u8], schedule: &Schedule) -> u64 {
data.iter().fold(
(if is_create {schedule.tx_create_gas} else {schedule.tx_gas}) as u64,
|g, b| g + (match *b { 0 => schedule.tx_data_zero_gas, _ => schedule.tx_data_non_zero_gas }) as u64
)
}
/// Get the transaction cost in gas for this transaction.
pub fn gas_required(&self, schedule: &Schedule) -> u64 {
Self::gas_required_for(match self.action{Action::Create=>true, Action::Call(_)=>false}, &self.data, schedule)
}
} }
impl Transaction {
#[derive(Debug, Clone)]
pub struct SignedTransaction {
/// Plain Transaction.
unsigned: Transaction,
/// The V field of the signature, either 27 or 28; helps describe the point on the curve.
v: u8,
/// The R field of the signature; helps describe the point on the curve.
r: U256,
/// The S field of the signature; helps describe the point on the curve.
s: U256,
/// Cached hash.
hash: RefCell<Option<H256>>,
/// Cached sender.
sender: RefCell<Option<Address>>
}
impl Deref for SignedTransaction {
type Target = Transaction;
fn deref(&self) -> &Self::Target {
&self.unsigned
}
}
impl Decodable for SignedTransaction {
fn decode<D>(decoder: &D) -> Result<Self, DecoderError> where D: Decoder {
let d = decoder.as_rlp();
if d.item_count() != 9 {
return Err(DecoderError::RlpIncorrectListLen);
}
Ok(SignedTransaction {
unsigned: Transaction {
nonce: try!(d.val_at(0)),
gas_price: try!(d.val_at(1)),
gas: try!(d.val_at(2)),
action: try!(d.val_at(3)),
value: try!(d.val_at(4)),
data: try!(d.val_at(5)),
},
v: try!(d.val_at(6)),
r: try!(d.val_at(7)),
s: try!(d.val_at(8)),
hash: RefCell::new(None),
sender: RefCell::new(None),
})
}
}
impl Encodable for SignedTransaction {
fn rlp_append(&self, s: &mut RlpStream) { self.rlp_append_sealed_transaction(s) }
}
impl SignedTransaction {
/// Append object with a signature into RLP stream
pub fn rlp_append_sealed_transaction(&self, s: &mut RlpStream) {
s.begin_list(9);
s.append(&self.nonce);
s.append(&self.gas_price);
s.append(&self.gas);
match self.action {
Action::Create => s.append_empty_data(),
Action::Call(ref to) => s.append(to)
};
s.append(&self.value);
s.append(&self.data);
s.append(&self.v);
s.append(&self.r);
s.append(&self.s);
}
/// Get the hash of this header (sha3 of the RLP). /// Get the hash of this header (sha3 of the RLP).
pub fn hash(&self) -> H256 { pub fn hash(&self) -> H256 {
let mut hash = self.hash.borrow_mut(); let mut hash = self.hash.borrow_mut();
@ -195,48 +246,6 @@ impl Transaction {
/// Construct a signature object from the sig. /// Construct a signature object from the sig.
pub fn signature(&self) -> Signature { Signature::from_rsv(&From::from(&self.r), &From::from(&self.s), self.standard_v()) } pub fn signature(&self) -> Signature { Signature::from_rsv(&From::from(&self.r), &From::from(&self.s), self.standard_v()) }
/// The message hash of the transaction.
pub fn message_hash(&self) -> H256 { self.rlp_bytes_opt(Seal::Without).sha3() }
/// Returns transaction sender.
pub fn sender(&self) -> Result<Address, Error> {
let mut sender = self.sender.borrow_mut();
match &mut *sender {
&mut Some(ref h) => Ok(h.clone()),
sender @ &mut None => {
*sender = Some(From::from(try!(ec::recover(&self.signature(), &self.message_hash())).sha3()));
Ok(sender.as_ref().unwrap().clone())
}
}
}
/// Signs the transaction as coming from `sender`.
pub fn sign(&mut self, secret: &Secret) {
// TODO: make always low.
let sig = ec::sign(secret, &self.message_hash());
let (r, s, v) = sig.unwrap().to_rsv();
self.r = r;
self.s = s;
self.v = v + 27;
}
/// Signs the transaction as coming from `sender`.
#[cfg(test)]
pub fn signed(self, secret: &Secret) -> Transaction { let mut r = self; r.sign(secret); r }
/// Get the transaction cost in gas for the given params.
pub fn gas_required_for(is_create: bool, data: &[u8], schedule: &Schedule) -> u64 {
data.iter().fold(
(if is_create {schedule.tx_create_gas} else {schedule.tx_gas}) as u64,
|g, b| g + (match *b { 0 => schedule.tx_data_zero_gas, _ => schedule.tx_data_non_zero_gas }) as u64
)
}
/// Get the transaction cost in gas for this transaction.
pub fn gas_required(&self, schedule: &Schedule) -> u64 {
Self::gas_required_for(match self.action{Action::Create=>true, Action::Call(_)=>false}, &self.data, schedule)
}
/// Checks whether the signature has a low 's' value. /// Checks whether the signature has a low 's' value.
pub fn check_low_s(&self) -> Result<(), Error> { pub fn check_low_s(&self) -> Result<(), Error> {
if !ec::is_low_s(&self.s) { if !ec::is_low_s(&self.s) {
@ -246,11 +255,23 @@ impl Transaction {
} }
} }
/// Returns transaction sender.
pub fn sender(&self) -> Result<Address, Error> {
let mut sender = self.sender.borrow_mut();
match &mut *sender {
&mut Some(ref h) => Ok(h.clone()),
sender @ &mut None => {
*sender = Some(From::from(try!(ec::recover(&self.signature(), &self.unsigned.hash())).sha3()));
Ok(sender.as_ref().unwrap().clone())
}
}
}
/// Do basic validation, checking for valid signature and minimum gas, /// Do basic validation, checking for valid signature and minimum gas,
// TODO: consider use in block validation. // TODO: consider use in block validation.
#[cfg(test)] #[cfg(test)]
#[cfg(feature = "json-tests")] #[cfg(feature = "json-tests")]
pub fn validate(self, schedule: &Schedule, require_low: bool) -> Result<Transaction, Error> { pub fn validate(self, schedule: &Schedule, require_low: bool) -> Result<SignedTransaction, Error> {
if require_low && !ec::is_low_s(&self.s) { if require_low && !ec::is_low_s(&self.s) {
return Err(Error::Util(UtilError::Crypto(CryptoError::InvalidSignature))); return Err(Error::Util(UtilError::Crypto(CryptoError::InvalidSignature)));
} }
@ -263,42 +284,9 @@ impl Transaction {
} }
} }
impl Decodable for Action {
fn decode<D>(decoder: &D) -> Result<Self, DecoderError> where D: Decoder {
let rlp = decoder.as_rlp();
if rlp.is_empty() {
Ok(Action::Create)
} else {
Ok(Action::Call(try!(rlp.as_val())))
}
}
}
impl Decodable for Transaction {
fn decode<D>(decoder: &D) -> Result<Self, DecoderError> where D: Decoder {
let d = decoder.as_rlp();
if d.item_count() != 9 {
return Err(DecoderError::RlpIncorrectListLen);
}
Ok(Transaction {
nonce: try!(d.val_at(0)),
gas_price: try!(d.val_at(1)),
gas: try!(d.val_at(2)),
action: try!(d.val_at(3)),
value: try!(d.val_at(4)),
data: try!(d.val_at(5)),
v: try!(d.val_at(6)),
r: try!(d.val_at(7)),
s: try!(d.val_at(8)),
hash: RefCell::new(None),
sender: RefCell::new(None),
})
}
}
#[test] #[test]
fn sender_test() { fn sender_test() {
let t: Transaction = decode(&FromHex::from_hex("f85f800182520894095e7baea6a6c7c4c2dfeb977efac326af552d870a801ba048b55bfa915ac795c431978d8a6a992b628d557da5ff759b307d495a36649353a0efffd310ac743f371de3b9f7f9cb56c0b28ad43601b4ab949f53faa07bd2c804").unwrap()); let t: SignedTransaction = decode(&FromHex::from_hex("f85f800182520894095e7baea6a6c7c4c2dfeb977efac326af552d870a801ba048b55bfa915ac795c431978d8a6a992b628d557da5ff759b307d495a36649353a0efffd310ac743f371de3b9f7f9cb56c0b28ad43601b4ab949f53faa07bd2c804").unwrap());
assert_eq!(t.data, b""); assert_eq!(t.data, b"");
assert_eq!(t.gas, U256::from(0x5208u64)); assert_eq!(t.gas, U256::from(0x5208u64));
assert_eq!(t.gas_price, U256::from(0x01u64)); assert_eq!(t.gas_price, U256::from(0x01u64));
@ -313,6 +301,13 @@ fn sender_test() {
#[test] #[test]
fn signing() { fn signing() {
let key = KeyPair::create().unwrap(); let key = KeyPair::create().unwrap();
let t = Transaction::new_create(U256::from(42u64), b"Hello!".to_vec(), U256::from(3000u64), U256::from(50_000u64), U256::from(1u64)).signed(&key.secret()); let t = Transaction {
action: Action::Create,
nonce: U256::from(42),
gas_price: U256::from(3000),
gas: U256::from(50_000),
value: U256::from(1),
data: b"Hello!".to_vec()
}.sign(&key.secret());
assert_eq!(Address::from(key.public().sha3()), t.sender().unwrap()); assert_eq!(Address::from(key.public().sha3()), t.sender().unwrap());
} }

View File

@ -30,7 +30,7 @@ pub struct PreVerifiedBlock {
/// Populated block header /// Populated block header
pub header: Header, pub header: Header,
/// Populated block transactions /// Populated block transactions
pub transactions: Vec<Transaction>, pub transactions: Vec<SignedTransaction>,
/// Block bytes /// Block bytes
pub bytes: Bytes, pub bytes: Bytes,
} }
@ -236,7 +236,6 @@ mod tests {
use engine::*; use engine::*;
use spec::*; use spec::*;
use transaction::*; use transaction::*;
use basic_types::*;
use tests::helpers::*; use tests::helpers::*;
fn check_ok(result: Result<(), Error>) { fn check_ok(result: Result<(), Error>) {
@ -325,8 +324,26 @@ mod tests {
good.timestamp = 40; good.timestamp = 40;
good.number = 10; good.number = 10;
let tr1 = Transaction::new_create(x!(0), Bytes::new(), x!(30000), x!(40000), x!(1)); let keypair = KeyPair::create().unwrap();
let tr2 = Transaction::new_create(x!(0), Bytes::new(), x!(30000), x!(40000), x!(2));
let tr1 = Transaction {
action: Action::Create,
value: U256::from(0),
data: Bytes::new(),
gas: U256::from(30_000),
gas_price: U256::from(40_000),
nonce: U256::one()
}.sign(&keypair.secret());
let tr2 = Transaction {
action: Action::Create,
value: U256::from(0),
data: Bytes::new(),
gas: U256::from(30_000),
gas_price: U256::from(40_000),
nonce: U256::from(2)
}.sign(&keypair.secret());
let good_transactions = [ &tr1, &tr2 ]; let good_transactions = [ &tr1, &tr2 ];
let diff_inc = U256::from(0x40); let diff_inc = U256::from(0x40);
@ -362,7 +379,7 @@ mod tests {
let mut uncles_rlp = RlpStream::new(); let mut uncles_rlp = RlpStream::new();
uncles_rlp.append(&good_uncles); uncles_rlp.append(&good_uncles);
let good_uncles_hash = uncles_rlp.as_raw().sha3(); let good_uncles_hash = uncles_rlp.as_raw().sha3();
let good_transactions_root = ordered_trie_root(good_transactions.iter().map(|t| t.rlp_bytes_opt(Seal::With)).collect()); let good_transactions_root = ordered_trie_root(good_transactions.iter().map(|t| encode::<SignedTransaction>(t).to_vec()).collect());
let mut parent = good.clone(); let mut parent = good.clone();
parent.number = 9; parent.number = 9;

View File

@ -151,7 +151,7 @@ impl<'a> BlockView<'a> {
} }
/// Return List of transactions in given block. /// Return List of transactions in given block.
pub fn transactions(&self) -> Vec<Transaction> { pub fn transactions(&self) -> Vec<SignedTransaction> {
self.rlp.val_at(1) self.rlp.val_at(1)
} }