Merge branch 'master' into blockchain

This commit is contained in:
debris 2015-12-21 02:34:41 +01:00
commit 0164ce4b19
16 changed files with 659 additions and 151 deletions

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@ -6,10 +6,12 @@ use util::bytes::*;
use util::trie::*; use util::trie::*;
use util::rlp::*; use util::rlp::*;
use util::uint::*; use util::uint::*;
use std::cell::*;
pub const SHA3_EMPTY: H256 = H256( [0xc5, 0xd2, 0x46, 0x01, 0x86, 0xf7, 0x23, 0x3c, 0x92, 0x7e, 0x7d, 0xb2, 0xdc, 0xc7, 0x03, 0xc0, 0xe5, 0x00, 0xb6, 0x53, 0xca, 0x82, 0x27, 0x3b, 0x7b, 0xfa, 0xd8, 0x04, 0x5d, 0x85, 0xa4, 0x70] ); pub const SHA3_EMPTY: H256 = H256( [0xc5, 0xd2, 0x46, 0x01, 0x86, 0xf7, 0x23, 0x3c, 0x92, 0x7e, 0x7d, 0xb2, 0xdc, 0xc7, 0x03, 0xc0, 0xe5, 0x00, 0xb6, 0x53, 0xca, 0x82, 0x27, 0x3b, 0x7b, 0xfa, 0xd8, 0x04, 0x5d, 0x85, 0xa4, 0x70] );
/// Single account in the system. /// Single account in the system.
#[derive(Debug)]
pub struct Account { pub struct Account {
// Balance of the account. // Balance of the account.
balance: U256, balance: U256,
@ -18,7 +20,7 @@ pub struct Account {
// Trie-backed storage. // Trie-backed storage.
storage_root: H256, storage_root: H256,
// Overlay on trie-backed storage. // Overlay on trie-backed storage.
storage_overlay: HashMap<H256, H256>, storage_overlay: RefCell<HashMap<H256, H256>>,
// Code hash of the account. If None, means that it's a contract whose code has not yet been set. // Code hash of the account. If None, means that it's a contract whose code has not yet been set.
code_hash: Option<H256>, code_hash: Option<H256>,
// Code cache of the account. // Code cache of the account.
@ -32,19 +34,19 @@ impl Account {
balance: balance, balance: balance,
nonce: nonce, nonce: nonce,
storage_root: SHA3_NULL_RLP, storage_root: SHA3_NULL_RLP,
storage_overlay: storage, storage_overlay: RefCell::new(storage),
code_hash: Some(code.sha3()), code_hash: Some(code.sha3()),
code_cache: code code_cache: code
} }
} }
/// Create a new account with the given balance. /// Create a new account with the given balance.
pub fn new_basic(balance: U256) -> Account { pub fn new_basic(balance: U256, nonce: U256) -> Account {
Account { Account {
balance: balance, balance: balance,
nonce: U256::from(0u8), nonce: nonce,
storage_root: SHA3_NULL_RLP, storage_root: SHA3_NULL_RLP,
storage_overlay: HashMap::new(), storage_overlay: RefCell::new(HashMap::new()),
code_hash: Some(SHA3_EMPTY), code_hash: Some(SHA3_EMPTY),
code_cache: vec![], code_cache: vec![],
} }
@ -57,7 +59,7 @@ impl Account {
nonce: r.val_at(0), nonce: r.val_at(0),
balance: r.val_at(1), balance: r.val_at(1),
storage_root: r.val_at(2), storage_root: r.val_at(2),
storage_overlay: HashMap::new(), storage_overlay: RefCell::new(HashMap::new()),
code_hash: Some(r.val_at(3)), code_hash: Some(r.val_at(3)),
code_cache: vec![], code_cache: vec![],
} }
@ -70,7 +72,7 @@ impl Account {
balance: balance, balance: balance,
nonce: U256::from(0u8), nonce: U256::from(0u8),
storage_root: SHA3_NULL_RLP, storage_root: SHA3_NULL_RLP,
storage_overlay: HashMap::new(), storage_overlay: RefCell::new(HashMap::new()),
code_hash: None, code_hash: None,
code_cache: vec![], code_cache: vec![],
} }
@ -85,20 +87,14 @@ impl Account {
/// Set (and cache) the contents of the trie's storage at `key` to `value`. /// Set (and cache) the contents of the trie's storage at `key` to `value`.
pub fn set_storage(&mut self, key: H256, value: H256) { pub fn set_storage(&mut self, key: H256, value: H256) {
self.storage_overlay.insert(key, value); self.storage_overlay.borrow_mut().insert(key, value);
} }
/// Get (and cache) the contents of the trie's storage at `key`. /// Get (and cache) the contents of the trie's storage at `key`.
pub fn storage_at(&mut self, db: &mut HashDB, key: H256) -> H256 { pub fn storage_at(&self, db: &HashDB, key: &H256) -> H256 {
match self.storage_overlay.get(&key) { self.storage_overlay.borrow_mut().entry(key.clone()).or_insert_with(||{
Some(x) => { return x.clone() }, H256::from_slice(TrieDB::new(db, &self.storage_root).get(key.bytes()).unwrap_or(&[0u8;32][..]))
_ => {} }).clone()
}
// fetch - cannot be done in match because of the borrow rules.
let t = TrieDB::new_existing(db, &mut self.storage_root);
let r = H256::from_slice(t.at(key.bytes()).unwrap_or(&[0u8;32][..]));
self.storage_overlay.insert(key, r.clone());
r
} }
/// return the balance associated with this account. /// return the balance associated with this account.
@ -118,6 +114,7 @@ impl Account {
match self.code_hash { match self.code_hash {
Some(SHA3_EMPTY) | None if self.code_cache.is_empty() => Some(&self.code_cache), Some(SHA3_EMPTY) | None if self.code_cache.is_empty() => Some(&self.code_cache),
Some(_) if !self.code_cache.is_empty() => Some(&self.code_cache), Some(_) if !self.code_cache.is_empty() => Some(&self.code_cache),
None => Some(&self.code_cache),
_ => None, _ => None,
} }
} }
@ -140,7 +137,7 @@ impl Account {
} }
/// Provide a database to lookup `code_hash`. Should not be called if it is a contract without code. /// Provide a database to lookup `code_hash`. Should not be called if it is a contract without code.
pub fn ensure_cached(&mut self, db: &HashDB) -> bool { pub fn cache_code(&mut self, db: &HashDB) -> bool {
// TODO: fill out self.code_cache; // TODO: fill out self.code_cache;
/* return !self.is_cached() || /* return !self.is_cached() ||
match db.lookup(&self.code_hash.unwrap()) { // why doesn't this work? unwrap causes move?! match db.lookup(&self.code_hash.unwrap()) { // why doesn't this work? unwrap causes move?!
@ -160,10 +157,10 @@ impl Account {
pub fn base_root(&self) -> &H256 { &self.storage_root } pub fn base_root(&self) -> &H256 { &self.storage_root }
/// return the storage root associated with this account or None if it has been altered via the overlay. /// return the storage root associated with this account or None if it has been altered via the overlay.
pub fn storage_root(&self) -> Option<&H256> { if self.storage_overlay.is_empty() {Some(&self.storage_root)} else {None} } pub fn storage_root(&self) -> Option<&H256> { if self.storage_overlay.borrow().is_empty() {Some(&self.storage_root)} else {None} }
/// rturn the storage overlay. /// rturn the storage overlay.
pub fn storage_overlay(&self) -> &HashMap<H256, H256> { &self.storage_overlay } pub fn storage_overlay(&self) -> Ref<HashMap<H256, H256>> { self.storage_overlay.borrow() }
/// Increment the nonce of the account by one. /// Increment the nonce of the account by one.
pub fn inc_nonce(&mut self) { self.nonce = self.nonce + U256::from(1u8); } pub fn inc_nonce(&mut self) { self.nonce = self.nonce + U256::from(1u8); }
@ -176,20 +173,24 @@ impl Account {
/// Commit the `storage_overlay` to the backing DB and update `storage_root`. /// Commit the `storage_overlay` to the backing DB and update `storage_root`.
pub fn commit_storage(&mut self, db: &mut HashDB) { pub fn commit_storage(&mut self, db: &mut HashDB) {
let mut t = TrieDB::new(db, &mut self.storage_root); let mut t = TrieDBMut::new(db, &mut self.storage_root);
for (k, v) in self.storage_overlay.iter() { for (k, v) in self.storage_overlay.borrow().iter() {
// cast key and value to trait type, // cast key and value to trait type,
// so we can call overloaded `to_bytes` method // so we can call overloaded `to_bytes` method
t.insert(k, v); t.insert(k, v);
} }
self.storage_overlay.clear(); self.storage_overlay.borrow_mut().clear();
} }
/// Commit any unsaved code. `code_hash` will always return the hash of the `code_cache` after this. /// Commit any unsaved code. `code_hash` will always return the hash of the `code_cache` after this.
pub fn commit_code(&mut self, db: &mut HashDB) { pub fn commit_code(&mut self, db: &mut HashDB) {
println!("Commiting code of {:?} - {:?}, {:?}", self, self.code_hash.is_none(), self.code_cache.is_empty());
match (self.code_hash.is_none(), self.code_cache.is_empty()) { match (self.code_hash.is_none(), self.code_cache.is_empty()) {
(true, true) => self.code_hash = Some(self.code_cache.sha3()), (true, true) => self.code_hash = Some(SHA3_EMPTY),
(true, false) => self.code_hash = Some(db.insert(&self.code_cache)), (true, false) => {
println!("Writing into DB {:?}", self.code_cache);
self.code_hash = Some(db.insert(&self.code_cache));
},
(false, _) => {}, (false, _) => {},
} }
} }
@ -212,7 +213,6 @@ use super::*;
use std::collections::HashMap; use std::collections::HashMap;
use util::hash::*; use util::hash::*;
use util::bytes::*; use util::bytes::*;
use util::trie::*;
use util::rlp::*; use util::rlp::*;
use util::uint::*; use util::uint::*;
use util::overlaydb::*; use util::overlaydb::*;
@ -229,10 +229,10 @@ fn storage_at() {
a.rlp() a.rlp()
}; };
let mut a = Account::from_rlp(&rlp); let a = Account::from_rlp(&rlp);
assert_eq!(a.storage_root().unwrap().hex(), "3541f181d6dad5c504371884684d08c29a8bad04926f8ceddf5e279dbc3cc769"); assert_eq!(a.storage_root().unwrap().hex(), "3541f181d6dad5c504371884684d08c29a8bad04926f8ceddf5e279dbc3cc769");
assert_eq!(a.storage_at(&mut db, H256::from(&U256::from(0x00u64))), H256::from(&U256::from(0x1234u64))); assert_eq!(a.storage_at(&mut db, &H256::from(&U256::from(0x00u64))), H256::from(&U256::from(0x1234u64)));
assert_eq!(a.storage_at(&mut db, H256::from(&U256::from(0x01u64))), H256::new()); assert_eq!(a.storage_at(&mut db, &H256::from(&U256::from(0x01u64))), H256::new());
} }
#[test] #[test]
@ -247,7 +247,7 @@ fn note_code() {
}; };
let mut a = Account::from_rlp(&rlp); let mut a = Account::from_rlp(&rlp);
assert_eq!(a.ensure_cached(&db), true); assert_eq!(a.cache_code(&db), true);
let mut a = Account::from_rlp(&rlp); let mut a = Account::from_rlp(&rlp);
assert_eq!(a.note_code(vec![0x55, 0x44, 0xffu8]), Ok(())); assert_eq!(a.note_code(vec![0x55, 0x44, 0xffu8]), Ok(()));

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@ -13,7 +13,7 @@ use util::hashdb::*;
use util::sha3::*; use util::sha3::*;
use util::bytes::*; use util::bytes::*;
use util::squeeze::*; use util::squeeze::*;
use blockheader::*; use header::*;
use extras::*; use extras::*;
use transaction::*; use transaction::*;
use views::*; use views::*;

10
src/builtin.rs Normal file
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@ -0,0 +1,10 @@
use util::uint::*;
/// Definition of a contract whose implementation is built-in.
pub struct Builtin {
/// The gas cost of running this built-in for the given size of input data.
pub cost: Box<Fn(usize) -> U256>, // TODO: U256 should be bignum.
/// Run this built-in function with the input being the first argument and the output
/// being placed into the second.
pub execute: Box<Fn(&[u8], &mut [u8])>,
}

51
src/engine.rs Normal file
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@ -0,0 +1,51 @@
use std::collections::hash_map::*;
use util::bytes::*;
use util::semantic_version::*;
use util::error::*;
use header::Header;
use transaction::Transaction;
use spec::Spec;
use evm_schedule::EvmSchedule;
use env_info::EnvInfo;
/// A consensus mechanism for the chain. Generally either proof-of-work or proof-of-stake-based.
/// Provides hooks into each of the major parts of block import.
pub trait Engine {
/// The name of this engine.
fn name(&self) -> &str;
/// The version of this engine. Should be of the form
fn version(&self) -> SemanticVersion { SemanticVersion::new(0, 0, 0) }
/// The number of additional header fields required for this engine.
fn seal_fields(&self) -> u32 { 0 }
/// Default values of the additional fields RLP-encoded in a raw (non-list) harness.
fn seal_rlp(&self) -> Bytes { vec![] }
/// Additional engine-specific information for the user/developer concerning `header`.
fn extra_info(&self, _header: &Header) -> HashMap<String, String> { HashMap::new() }
/// Get the general parameters of the chain.
fn spec(&self) -> &Spec;
/// Get the EVM schedule for
fn evm_schedule(&self, env_info: &EnvInfo) -> EvmSchedule;
/// Verify that `header` is valid.
/// `parent` (the parent header) and `block` (the header's full block) may be provided for additional
/// checks. Returns either a null `Ok` or a general error detailing the problem with import.
fn verify(&self, _header: &Header, _parent: Option<&Header>, _block: Option<&[u8]>) -> Result<(), EthcoreError> { Ok(()) }
/// Additional verification for transactions in blocks.
// TODO: Add flags for which bits of the transaction to check.
fn verify_transaction(&self, _t: &Transaction, _header: &Header) -> Result<(), EthcoreError> { Ok(()) }
/// Don't forget to call Super::populateFromParent when subclassing & overriding.
fn populate_from_parent(&self, _header: &mut Header, _parent: &Header) -> Result<(), EthcoreError> { Ok(()) }
// TODO: buildin contract routing - this will require removing the built-in configuration reading logic from Spec
// into here and removing the Spec::builtins field. It's a big job.
/* fn is_builtin(&self, a: Address) -> bool;
fn cost_of_builtin(&self, a: Address, in: &[u8]) -> bignum;
fn execute_builtin(&self, a: Address, in: &[u8], out: &mut [u8]);
*/
}

24
src/env_info.rs Normal file
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@ -0,0 +1,24 @@
use util::uint::*;
use util::hash::*;
/// Simple vector of hashes, should be at most 256 items large, can be smaller if being used
/// for a block whose number is less than 257.
pub type LastHashes = Vec<H256>;
/// Information concerning the execution environment for a message-call/contract-creation.
pub struct EnvInfo {
/// The block number.
pub number: U256,
/// The block author.
pub author: Address,
/// The block timestamp.
pub timestamp: U256,
/// The block difficulty.
pub difficulty: U256,
/// The block gas limit.
pub gas_limit: U256,
/// The last 256 block hashes.
pub last_hashes: LastHashes,
/// The gas used.
pub gas_used: U256,
}

80
src/evm_schedule.rs Normal file
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@ -0,0 +1,80 @@
/// Definition of the cost schedule and other parameterisations for the EVM.
pub struct EvmSchedule {
pub exceptional_failed_code_deposit: bool,
pub have_delegate_call: bool,
pub stack_limit: usize,
pub tier_step_gas: [usize; 8],
pub exp_gas: usize,
pub exp_byte_gas: usize,
pub sha3_gas: usize,
pub sha3_word_gas: usize,
pub sload_gas: usize,
pub sstore_set_gas: usize,
pub sstore_reset_gas: usize,
pub sstore_refund_gas: usize,
pub jumpdest_gas: usize,
pub log_gas: usize,
pub log_data_gas: usize,
pub log_topic_gas: usize,
pub create_gas: usize,
pub call_gas: usize,
pub call_stipend: usize,
pub call_value_transfer_gas: usize,
pub call_new_account_gas: usize,
pub suicide_refund_gas: usize,
pub memory_gas: usize,
pub quad_coeff_div: usize,
pub create_data_gas: usize,
pub tx_gas: usize,
pub tx_create_gas: usize,
pub tx_data_zero_gas: usize,
pub tx_data_non_zero_gas: usize,
pub copy_gas: usize,
}
impl EvmSchedule {
/// Schedule for the Frontier-era of the Ethereum main net.
pub fn new_frontier() -> EvmSchedule {
Self::new(false, false, 21000)
}
/// Schedule for the Homestead-era of the Ethereum main net.
pub fn new_homestead() -> EvmSchedule {
Self::new(true, true, 53000)
}
fn new(efcd: bool, hdc: bool, tcg: usize) -> EvmSchedule {
EvmSchedule{
exceptional_failed_code_deposit: efcd,
have_delegate_call: hdc,
stack_limit: 1024,
tier_step_gas: [0usize, 2, 3, 4, 5, 6, 10, 20],
exp_gas: 10,
exp_byte_gas: 10,
sha3_gas: 30,
sha3_word_gas: 6,
sload_gas: 50,
sstore_set_gas: 20000,
sstore_reset_gas: 5000,
sstore_refund_gas: 15000,
jumpdest_gas: 1,
log_gas: 375,
log_data_gas: 8,
log_topic_gas: 375,
create_gas: 32000,
call_gas: 40,
call_stipend: 2300,
call_value_transfer_gas: 9000,
call_new_account_gas: 25000,
suicide_refund_gas: 24000,
memory_gas: 3,
quad_coeff_div: 512,
create_data_gas: 200,
tx_gas: 21000,
tx_create_gas: tcg,
tx_data_zero_gas: 4,
tx_data_non_zero_gas: 68,
copy_gas: 3,
}
}
}

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@ -10,7 +10,7 @@ use util::hash::*;
use util::uint::*; use util::uint::*;
use util::sha3::*; use util::sha3::*;
use account::*; use account::*;
use blockheader::*; use header::*;
/// Converts file from base64 gzipped bytes to json /// Converts file from base64 gzipped bytes to json
fn base_to_json(source: &[u8]) -> Json { fn base_to_json(source: &[u8]) -> Json {
@ -88,7 +88,7 @@ impl Genesis {
let addr = Address::from_str(address).unwrap(); let addr = Address::from_str(address).unwrap();
let o = acc.as_object().unwrap(); let o = acc.as_object().unwrap();
let balance = U256::from_dec_str(o["balance"].as_string().unwrap()).unwrap(); let balance = U256::from_dec_str(o["balance"].as_string().unwrap()).unwrap();
state.insert(addr, Account::new_basic(balance)); state.insert(addr, Account::new_basic(balance, U256::from(0)));
} }
(header, state) (header, state)

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@ -1,3 +1,5 @@
#![feature(cell_extras)]
//! Ethcore's ethereum implementation //! Ethcore's ethereum implementation
//! //!
//! ### Rust version //! ### Rust version
@ -86,19 +88,19 @@ pub use util::hash::*;
pub use util::uint::*; pub use util::uint::*;
pub use util::bytes::*; pub use util::bytes::*;
pub mod account; pub mod env_info;
pub mod blockchain; pub mod engine;
pub mod state; pub mod state;
pub mod blockheader; pub mod account;
pub mod header;
pub mod transaction; pub mod transaction;
pub mod extras; pub mod receipt;
pub mod denominations;
pub mod null_engine;
pub mod evm_schedule;
pub mod builtin;
pub mod spec;
pub mod genesis; pub mod genesis;
pub mod views; pub mod views;
pub mod blockchain;
pub mod networkparams; pub mod extras;
pub mod denominations;
#[test]
fn it_works() {
}

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@ -1,71 +0,0 @@
use util::uint::*;
use denominations::*;
/// Network related const params
/// TODO: make it configurable from json file
pub struct NetworkParams {
maximum_extra_data_size: U256,
min_gas_limit: U256,
gas_limit_bounds_divisor: U256,
minimum_difficulty: U256,
difficulty_bound_divisor: U256,
duration_limit: U256,
block_reward: U256,
gas_floor_target: U256,
account_start_nonce: U256
}
impl NetworkParams {
pub fn olympic() -> NetworkParams {
NetworkParams {
maximum_extra_data_size: U256::from(1024u64),
min_gas_limit: U256::from(125_000u64),
gas_floor_target: U256::from(3_141_592u64),
gas_limit_bounds_divisor: U256::from(1024u64),
minimum_difficulty: U256::from(131_072u64),
difficulty_bound_divisor: U256::from(2048u64),
duration_limit: U256::from(8u64),
block_reward: finney() * U256::from(1500u64),
account_start_nonce: U256::from(0u64)
}
}
pub fn frontier() -> NetworkParams {
NetworkParams {
maximum_extra_data_size: U256::from(32u64),
min_gas_limit: U256::from(5000u64),
gas_floor_target: U256::from(3_141_592u64),
gas_limit_bounds_divisor: U256::from(1024u64),
minimum_difficulty: U256::from(131_072u64),
difficulty_bound_divisor: U256::from(2048u64),
duration_limit: U256::from(13u64),
block_reward: ether() * U256::from(5u64),
account_start_nonce: U256::from(0u64)
}
}
pub fn morden() -> NetworkParams {
NetworkParams {
maximum_extra_data_size: U256::from(32u64),
min_gas_limit: U256::from(5000u64),
gas_floor_target: U256::from(3_141_592u64),
gas_limit_bounds_divisor: U256::from(1024u64),
minimum_difficulty: U256::from(131_072u64),
difficulty_bound_divisor: U256::from(2048u64),
duration_limit: U256::from(13u64),
block_reward: ether() * U256::from(5u64),
account_start_nonce: U256::from(1u64) << 20
}
}
pub fn maximum_extra_data_size(&self) -> U256 { self.maximum_extra_data_size }
pub fn min_gas_limit(&self) -> U256 { self.min_gas_limit }
pub fn gas_limit_bounds_divisor(&self) -> U256 { self.gas_limit_bounds_divisor }
pub fn minimum_difficulty(&self) -> U256 { self.minimum_difficulty }
pub fn difficulty_bound_divisor(&self) -> U256 { self.difficulty_bound_divisor }
pub fn duration_limit(&self) -> U256 { self.duration_limit }
pub fn block_reward(&self) -> U256 { self.block_reward }
pub fn gas_floor_target(&self) -> U256 { self.gas_floor_target }
pub fn account_start_nonce(&self) -> U256 { self.account_start_nonce }
}

21
src/null_engine.rs Normal file
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@ -0,0 +1,21 @@
use engine::Engine;
use spec::Spec;
use evm_schedule::EvmSchedule;
use env_info::EnvInfo;
/// An engine which does not provide any consensus mechanism.
pub struct NullEngine {
spec: Spec,
}
impl NullEngine {
pub fn new_boxed(spec: Spec) -> Box<Engine> {
Box::new(NullEngine{spec: spec})
}
}
impl Engine for NullEngine {
fn name(&self) -> &str { "NullEngine" }
fn spec(&self) -> &Spec { &self.spec }
fn evm_schedule(&self, _env_info: &EnvInfo) -> EvmSchedule { EvmSchedule::new_frontier() }
}

7
src/receipt.rs Normal file
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@ -0,0 +1,7 @@
use util::hash::*;
/// Information describing execution of a transaction.
pub struct Receipt {
// TODO
pub state_root: H256,
}

189
src/spec.rs Normal file
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@ -0,0 +1,189 @@
use std::collections::hash_map::*;
use std::cell::*;
use std::str::FromStr;
use util::uint::*;
use util::hash::*;
use util::bytes::*;
use util::triehash::*;
use util::error::*;
use util::rlp::*;
use account::Account;
use engine::Engine;
use builtin::Builtin;
use null_engine::NullEngine;
use denominations::*;
/// Parameters for a block chain; includes both those intrinsic to the design of the
/// chain and those to be interpreted by the active chain engine.
pub struct Spec {
// What engine are we using for this?
pub engine_name: String,
// Various parameters for the chain operation.
pub block_reward: U256,
pub maximum_extra_data_size: U256,
pub account_start_nonce: U256,
pub misc: HashMap<String, Bytes>,
// Builtin-contracts are here for now but would like to abstract into Engine API eventually.
pub builtins: HashMap<Address, Builtin>,
// Genesis params.
pub parent_hash: H256,
pub author: Address,
pub difficulty: U256,
pub gas_limit: U256,
pub gas_used: U256,
pub timestamp: U256,
pub extra_data: Bytes,
pub genesis_state: HashMap<Address, Account>,
pub seal_fields: usize,
pub seal_rlp: Bytes,
// May be prepopulated if we know this in advance.
state_root_memo: RefCell<Option<H256>>,
}
impl Spec {
/// Convert this object into a boxed Engine of the right underlying type.
// TODO avoid this hard-coded nastiness - use dynamic-linked plugin framework instead.
pub fn to_engine(self) -> Result<Box<Engine>, EthcoreError> {
match self.engine_name.as_ref() {
"NullEngine" => Ok(NullEngine::new_boxed(self)),
_ => Err(EthcoreError::UnknownName)
}
}
/// Return the state root for the genesis state, memoising accordingly.
pub fn state_root(&self) -> Ref<H256> {
if self.state_root_memo.borrow().is_none() {
*self.state_root_memo.borrow_mut() = Some(trie_root(self.genesis_state.iter().map(|(k, v)| (k.to_vec(), v.rlp())).collect()));
}
Ref::map(self.state_root_memo.borrow(), |x|x.as_ref().unwrap())
}
pub fn block_reward(&self) -> U256 { self.block_reward }
pub fn maximum_extra_data_size(&self) -> U256 { self.maximum_extra_data_size }
pub fn account_start_nonce(&self) -> U256 { self.account_start_nonce }
/// Compose the genesis block for this chain.
pub fn genesis_block(&self) -> Bytes {
// TODO
unimplemented!();
}
}
impl Spec {
pub fn olympic() -> Spec {
Spec {
engine_name: "Ethash".to_string(),
block_reward: finney() * U256::from(1500u64),
maximum_extra_data_size: U256::from(1024u64),
account_start_nonce: U256::from(0u64),
misc: vec![
("gas_limit_bounds_divisor", encode(&1024u64)),
("minimum_difficulty", encode(&131_072u64)),
("difficulty_bound_divisor", encode(&2048u64)),
("duration_limit", encode(&8u64)),
("min_gas_limit", encode(&125_000u64)),
("gas_floor_target", encode(&3_141_592u64)),
].into_iter().fold(HashMap::new(), | mut acc, vec | {
acc.insert(vec.0.to_string(), vec.1);
acc
}),
builtins: HashMap::new(), // TODO: make correct
parent_hash: H256::new(),
author: Address::new(),
difficulty: U256::from(131_072u64),
gas_limit: U256::from(0u64),
gas_used: U256::from(0u64),
timestamp: U256::from(0u64),
extra_data: vec![],
genesis_state: vec![ // TODO: make correct
(Address::new(), Account::new_basic(U256::from(1) << 200, U256::from(0)))
].into_iter().fold(HashMap::new(), | mut acc, vec | {
acc.insert(vec.0, vec.1);
acc
}),
seal_fields: 2,
seal_rlp: { let mut r = RlpStream::new_list(2); r.append(&0x2au64); r.append(&H256::new()); r.out() }, // TODO: make correct
state_root_memo: RefCell::new(None),
}
}
pub fn frontier() -> Spec {
Spec {
engine_name: "Ethash".to_string(),
block_reward: ether() * U256::from(5u64),
maximum_extra_data_size: U256::from(32u64),
account_start_nonce: U256::from(0u64),
misc: vec![
("gas_limit_bounds_divisor", encode(&1024u64)),
("minimum_difficulty", encode(&131_072u64)),
("difficulty_bound_divisor", encode(&2048u64)),
("duration_limit", encode(&13u64)),
("min_gas_limit", encode(&5000u64)),
("gas_floor_target", encode(&3_141_592u64)),
].into_iter().fold(HashMap::new(), | mut acc, vec | {
acc.insert(vec.0.to_string(), vec.1);
acc
}),
builtins: HashMap::new(), // TODO: make correct
parent_hash: H256::new(),
author: Address::new(),
difficulty: U256::from(131_072u64),
gas_limit: U256::from(0u64),
gas_used: U256::from(0u64),
timestamp: U256::from(0u64),
extra_data: vec![],
genesis_state: vec![ // TODO: make correct
(Address::new(), Account::new_basic(U256::from(1) << 200, U256::from(0)))
].into_iter().fold(HashMap::new(), | mut acc, vec | {
acc.insert(vec.0, vec.1);
acc
}),
seal_fields: 2,
seal_rlp: { let mut r = RlpStream::new_list(2); r.append(&0x42u64); r.append(&H256::new()); r.out() },
state_root_memo: RefCell::new(None),
}
}
pub fn morden() -> Spec {
Spec {
engine_name: "Ethash".to_string(),
block_reward: ether() * U256::from(5u64),
maximum_extra_data_size: U256::from(32u64),
account_start_nonce: U256::from(1u64) << 20,
misc: vec![
("gas_limit_bounds_divisor", encode(&1024u64)),
("minimum_difficulty", encode(&131_072u64)),
("difficulty_bound_divisor", encode(&2048u64)),
("duration_limit", encode(&13u64)),
("min_gas_limit", encode(&5000u64)),
("gas_floor_target", encode(&3_141_592u64)),
].into_iter().fold(HashMap::new(), | mut acc, vec | {
acc.insert(vec.0.to_string(), vec.1);
acc
}),
builtins: HashMap::new(), // TODO: make correct
parent_hash: H256::new(),
author: Address::new(),
difficulty: U256::from(131_072u64),
gas_limit: U256::from(0u64),
gas_used: U256::from(0u64),
timestamp: U256::from(0u64),
extra_data: vec![],
genesis_state: vec![ // TODO: make correct
(Address::new(), Account::new_basic(U256::from(1) << 200, U256::from(0)))
].into_iter().fold(HashMap::new(), | mut acc, vec | {
acc.insert(vec.0, vec.1);
acc
}),
seal_fields: 2,
seal_rlp: { let mut r = RlpStream::new_list(2); r.append(&0x00006d6f7264656eu64); r.append(&H256::from_str("00000000000000000000000000000000000000647572616c65787365646c6578").unwrap()); r.out() }, // TODO: make correct
state_root_memo: RefCell::new(None),
}
}
}

View File

@ -1,19 +1,29 @@
use std::cell::*;
use std::ops::*;
use std::collections::HashMap; use std::collections::HashMap;
use util::hash::*; use util::hash::*;
use util::hashdb::*; use util::hashdb::*;
use util::overlaydb::*; use util::overlaydb::*;
use util::trie::*; use util::trie::*;
use util::bytes::*;
use util::rlp::*; use util::rlp::*;
use util::uint::*; use util::uint::*;
use account::Account; use account::Account;
use transaction::Transaction;
use receipt::Receipt;
use env_info::EnvInfo;
use engine::Engine;
/// Information concerning the result of the `State::apply` operation.
pub struct ApplyResult; // TODO
/// Representation of the entire state of all accounts in the system. /// Representation of the entire state of all accounts in the system.
pub struct State { pub struct State {
db: OverlayDB, db: OverlayDB,
root: H256, root: H256,
cache: HashMap<Address, Option<Account>>, cache: RefCell<HashMap<Address, Option<Account>>>,
_account_start_nonce: U256, account_start_nonce: U256,
} }
impl State { impl State {
@ -22,14 +32,14 @@ impl State {
let mut root = H256::new(); let mut root = H256::new();
{ {
// init trie and reset root too null // init trie and reset root too null
let _ = TrieDB::new(&mut db, &mut root); let _ = TrieDBMut::new(&mut db, &mut root);
} }
State { State {
db: db, db: db,
root: root, root: root,
cache: HashMap::new(), cache: RefCell::new(HashMap::new()),
_account_start_nonce: account_start_nonce, account_start_nonce: account_start_nonce,
} }
} }
@ -37,14 +47,14 @@ impl State {
pub fn new_existing(mut db: OverlayDB, mut root: H256, account_start_nonce: U256) -> State { pub fn new_existing(mut db: OverlayDB, mut root: H256, account_start_nonce: U256) -> State {
{ {
// trie should panic! if root does not exist // trie should panic! if root does not exist
let _ = TrieDB::new_existing(&mut db, &mut root); let _ = TrieDB::new(&mut db, &mut root);
} }
State { State {
db: db, db: db,
root: root, root: root,
cache: HashMap::new(), cache: RefCell::new(HashMap::new()),
_account_start_nonce: account_start_nonce, account_start_nonce: account_start_nonce,
} }
} }
@ -53,6 +63,11 @@ impl State {
Self::new(OverlayDB::new_temp(), U256::from(0u8)) Self::new(OverlayDB::new_temp(), U256::from(0u8))
} }
/// Destroy the current object and return root and database.
pub fn drop(self) -> (H256, OverlayDB) {
(self.root, self.db)
}
/// Return reference to root /// Return reference to root
pub fn root(&self) -> &H256 { pub fn root(&self) -> &H256 {
&self.root &self.root
@ -63,7 +78,69 @@ impl State {
&mut self.db &mut self.db
} }
/// Commit accounts to TrieDB. This is similar to cpp-ethereum's dev::eth::commit. /// Get the balance of account `a`.
pub fn balance(&self, a: &Address) -> U256 {
self.get(a, false).as_ref().map(|account| account.balance().clone()).unwrap_or(U256::from(0u8))
}
/// Get the nonce of account `a`.
pub fn nonce(&self, a: &Address) -> U256 {
self.get(a, false).as_ref().map(|account| account.nonce().clone()).unwrap_or(U256::from(0u8))
}
/// Mutate storage of account `a` so that it is `value` for `key`.
pub fn storage_at(&self, a: &Address, key: &H256) -> H256 {
self.get(a, false).as_ref().map(|a|a.storage_at(&self.db, key)).unwrap_or(H256::new())
}
/// Mutate storage of account `a` so that it is `value` for `key`.
pub fn code(&self, a: &Address) -> Option<Vec<u8>> {
self.get(a, true).as_ref().map(|a|a.code().map(|x|x.to_vec())).unwrap_or(None)
}
/// Add `incr` to the balance of account `a`.
pub fn add_balance(&mut self, a: &Address, incr: &U256) {
self.require(a, false).add_balance(incr)
}
/// Subtract `decr` from the balance of account `a`.
pub fn sub_balance(&mut self, a: &Address, decr: &U256) {
self.require(a, false).sub_balance(decr)
}
/// Subtracts `by` from the balance of `from` and adds it to that of `to`.
pub fn transfer_balance(&mut self, from: &Address, to: &Address, by: &U256) {
self.sub_balance(from, by);
self.add_balance(to, by);
}
/// Increment the nonce of account `a` by 1.
pub fn inc_nonce(&mut self, a: &Address) {
self.require(a, false).inc_nonce()
}
/// Mutate storage of account `a` so that it is `value` for `key`.
pub fn set_storage(&mut self, a: &Address, key: H256, value: H256) {
self.require(a, false).set_storage(key, value);
}
/// Mutate storage of account `a` so that it is `value` for `key`.
pub fn set_code(&mut self, a: &Address, code: Bytes) {
self.require_or_from(a, true, || Account::new_contract(U256::from(0u8))).set_code(code);
}
/// Execute a given transaction.
/// This will change the state accordingly.
pub fn apply(_env_info: &EnvInfo, _engine: &Engine, _t: &Transaction, _is_permanent: bool) -> (ApplyResult, Receipt) {
unimplemented!();
}
/// Convert into a JSON representation.
pub fn as_json(&self) -> String {
unimplemented!();
}
/// Commit accounts to TrieDBMut. This is similar to cpp-ethereum's dev::eth::commit.
/// `accounts` is mutable because we may need to commit the code or storage and record that. /// `accounts` is mutable because we may need to commit the code or storage and record that.
pub fn commit_into(db: &mut HashDB, mut root: H256, accounts: &mut HashMap<Address, Option<Account>>) -> H256 { pub fn commit_into(db: &mut HashDB, mut root: H256, accounts: &mut HashMap<Address, Option<Account>>) -> H256 {
// first, commit the sub trees. // first, commit the sub trees.
@ -79,7 +156,7 @@ impl State {
} }
{ {
let mut trie = TrieDB::new_existing(db, &mut root); let mut trie = TrieDBMut::new_existing(db, &mut root);
for (address, ref a) in accounts.iter() { for (address, ref a) in accounts.iter() {
match a { match a {
&&Some(ref account) => trie.insert(address, &account.rlp()), &&Some(ref account) => trie.insert(address, &account.rlp()),
@ -93,28 +170,49 @@ impl State {
/// Commits our cached account changes into the trie. /// Commits our cached account changes into the trie.
pub fn commit(&mut self) { pub fn commit(&mut self) {
let r = self.root.clone(); // would prefer not to do this, really. let r = self.root.clone(); // would prefer not to do this, really.
self.root = Self::commit_into(&mut self.db, r, &mut self.cache); self.root = Self::commit_into(&mut self.db, r, self.cache.borrow_mut().deref_mut());
}
/// Populate the state from `accounts`. Just uses `commit_into`.
pub fn populate_from(&mut self, _accounts: &mut HashMap<Address, Option<Account>>) {
unimplemented!();
}
/// Pull account `a` in our cache from the trie DB and return it.
/// `require_code` requires that the code be cached, too.
fn get(&self, a: &Address, require_code: bool) -> Ref<Option<Account>> {
self.cache.borrow_mut().entry(a.clone()).or_insert_with(||
TrieDB::new(&self.db, &self.root).get(&a).map(|rlp| Account::from_rlp(rlp)));
if require_code {
if let Some(ref mut account) = self.cache.borrow_mut().get_mut(a).unwrap().as_mut() {
account.cache_code(&self.db);
}
}
Ref::map(self.cache.borrow(), |m| m.get(a).unwrap())
} }
/// Pull account `a` in our cache from the trie DB. `require_code` requires that the code be cached, too. /// Pull account `a` in our cache from the trie DB. `require_code` requires that the code be cached, too.
/// `force_create` creates a new, empty basic account if there is not currently an active account. /// `force_create` creates a new, empty basic account if there is not currently an active account.
fn ensure_cached(&mut self, a: &Address, require_code: bool, force_create: bool) { fn require(&self, a: &Address, require_code: bool) -> RefMut<Account> {
if self.cache.get(a).is_none() { self.require_or_from(a, require_code, || Account::new_basic(U256::from(0u8), self.account_start_nonce))
// load from trie.
self.cache.insert(a.clone(), TrieDB::new(&mut self.db, &mut self.root).at(&a).map(|rlp| Account::from_rlp(rlp)));
} }
if self.cache.get(a).unwrap().is_none() { /// Pull account `a` in our cache from the trie DB. `require_code` requires that the code be cached, too.
if !force_create { return; } /// `force_create` creates a new, empty basic account if there is not currently an active account.
// create a new account fn require_or_from<F: FnOnce() -> Account>(&self, a: &Address, require_code: bool, default: F) -> RefMut<Account> {
self.cache.insert(a.clone(), Some(Account::new_basic(U256::from(0u8)))); self.cache.borrow_mut().entry(a.clone()).or_insert_with(||
TrieDB::new(&self.db, &self.root).get(&a).map(|rlp| Account::from_rlp(rlp)));
if self.cache.borrow().get(a).unwrap().is_none() {
self.cache.borrow_mut().insert(a.clone(), Some(default()));
} }
let b = self.cache.borrow_mut();
RefMut::map(b, |m| m.get_mut(a).unwrap().as_mut().map(|account| {
if require_code { if require_code {
if let &mut Some(ref mut account) = self.cache.get_mut(a).unwrap() { account.cache_code(&self.db);
account.ensure_cached(&self.db);
}
} }
account
}).unwrap())
} }
} }
@ -125,17 +223,111 @@ use super::*;
use util::hash::*; use util::hash::*;
use util::trie::*; use util::trie::*;
use util::rlp::*; use util::rlp::*;
use util::uint::*;
use std::str::FromStr; use std::str::FromStr;
use account::*;
#[test] #[test]
fn playpen() { fn code_from_database() {
let a = Address::from_str("0000000000000000000000000000000000000000").unwrap();
let (r, db) = {
let mut s = State::new_temp();
s.require_or_from(&a, false, ||Account::new_contract(U256::from(42u32)));
s.set_code(&a, vec![1, 2, 3]);
assert_eq!(s.code(&a), Some([1u8, 2, 3].to_vec()));
s.commit();
assert_eq!(s.code(&a), Some([1u8, 2, 3].to_vec()));
s.drop()
};
let s = State::new_existing(db, r, U256::from(0u8));
assert_eq!(s.code(&a), Some([1u8, 2, 3].to_vec()));
}
#[test]
fn storage_at_from_database() {
let a = Address::from_str("0000000000000000000000000000000000000000").unwrap();
let (r, db) = {
let mut s = State::new_temp();
s.set_storage(&a, H256::from(&U256::from(01u64)), H256::from(&U256::from(69u64)));
s.commit();
s.drop()
};
let s = State::new_existing(db, r, U256::from(0u8));
assert_eq!(s.storage_at(&a, &H256::from(&U256::from(01u64))), H256::from(&U256::from(69u64)));
}
#[test]
fn get_from_database() {
let a = Address::from_str("0000000000000000000000000000000000000000").unwrap();
let (r, db) = {
let mut s = State::new_temp();
s.inc_nonce(&a);
s.add_balance(&a, &U256::from(69u64));
s.commit();
assert_eq!(s.balance(&a), U256::from(69u64));
s.drop()
};
let s = State::new_existing(db, r, U256::from(0u8));
assert_eq!(s.balance(&a), U256::from(69u64));
assert_eq!(s.nonce(&a), U256::from(1u64));
}
#[test]
fn alter_balance() {
let mut s = State::new_temp();
let a = Address::from_str("0000000000000000000000000000000000000000").unwrap();
let b = Address::from_str("0000000000000000000000000000000000000001").unwrap();
s.add_balance(&a, &U256::from(69u64));
assert_eq!(s.balance(&a), U256::from(69u64));
s.commit();
assert_eq!(s.balance(&a), U256::from(69u64));
s.sub_balance(&a, &U256::from(42u64));
assert_eq!(s.balance(&a), U256::from(27u64));
s.commit();
assert_eq!(s.balance(&a), U256::from(27u64));
s.transfer_balance(&a, &b, &U256::from(18u64));
assert_eq!(s.balance(&a), U256::from(9u64));
assert_eq!(s.balance(&b), U256::from(18u64));
s.commit();
assert_eq!(s.balance(&a), U256::from(9u64));
assert_eq!(s.balance(&b), U256::from(18u64));
}
#[test]
fn alter_nonce() {
let mut s = State::new_temp();
let a = Address::from_str("0000000000000000000000000000000000000000").unwrap();
s.inc_nonce(&a);
assert_eq!(s.nonce(&a), U256::from(1u64));
s.inc_nonce(&a);
assert_eq!(s.nonce(&a), U256::from(2u64));
s.commit();
assert_eq!(s.nonce(&a), U256::from(2u64));
s.inc_nonce(&a);
assert_eq!(s.nonce(&a), U256::from(3u64));
s.commit();
assert_eq!(s.nonce(&a), U256::from(3u64));
}
#[test]
fn balance_nonce() {
let mut s = State::new_temp();
let a = Address::from_str("0000000000000000000000000000000000000000").unwrap();
assert_eq!(s.balance(&a), U256::from(0u64));
assert_eq!(s.nonce(&a), U256::from(0u64));
s.commit();
assert_eq!(s.balance(&a), U256::from(0u64));
assert_eq!(s.nonce(&a), U256::from(0u64));
} }
#[test] #[test]
fn ensure_cached() { fn ensure_cached() {
let mut s = State::new_temp(); let mut s = State::new_temp();
let a = Address::from_str("0000000000000000000000000000000000000000").unwrap(); let a = Address::from_str("0000000000000000000000000000000000000000").unwrap();
s.ensure_cached(&a, false, true); s.require(&a, false);
s.commit(); s.commit();
assert_eq!(s.root().hex(), "ec68b85fa2e0526dc0e821a5b33135459114f19173ce0479f5c09b21cc25b9a4"); assert_eq!(s.root().hex(), "ec68b85fa2e0526dc0e821a5b33135459114f19173ce0479f5c09b21cc25b9a4");
} }

View File

@ -3,20 +3,23 @@ use util::bytes::*;
use util::uint::*; use util::uint::*;
use util::rlp::*; use util::rlp::*;
/// A set of information describing an externally-originating message call
/// or contract creation operation.
pub struct Transaction { pub struct Transaction {
nonce: U256, nonce: U256,
gas_price: U256, gas_price: U256,
gas: U256, gas: U256,
receive_address: Option<Address>, to: Option<Address>,
value: U256, value: U256,
data: Bytes, data: Bytes,
} }
impl Transaction { impl Transaction {
/// Is this transaction meant to create a contract?
pub fn is_contract_creation(&self) -> bool { pub fn is_contract_creation(&self) -> bool {
self.receive_address.is_none() self.to.is_none()
} }
/// Is this transaction meant to send a message?
pub fn is_message_call(&self) -> bool { pub fn is_message_call(&self) -> bool {
!self.is_contract_creation() !self.is_contract_creation()
} }
@ -28,7 +31,7 @@ impl Encodable for Transaction {
self.nonce.encode(e); self.nonce.encode(e);
self.gas_price.encode(e); self.gas_price.encode(e);
self.gas.encode(e); self.gas.encode(e);
self.receive_address.encode(e); self.to.encode(e);
self.value.encode(e); self.value.encode(e);
self.data.encode(e); self.data.encode(e);
}) })
@ -43,7 +46,7 @@ impl Decodable for Transaction {
nonce: try!(Decodable::decode(&d[0])), nonce: try!(Decodable::decode(&d[0])),
gas_price: try!(Decodable::decode(&d[1])), gas_price: try!(Decodable::decode(&d[1])),
gas: try!(Decodable::decode(&d[2])), gas: try!(Decodable::decode(&d[2])),
receive_address: try!(Decodable::decode(&d[3])), to: try!(Decodable::decode(&d[3])),
value: try!(Decodable::decode(&d[4])), value: try!(Decodable::decode(&d[4])),
data: try!(Decodable::decode(&d[5])), data: try!(Decodable::decode(&d[5])),
}; };

View File

@ -4,7 +4,7 @@ use util::hash::*;
use util::uint::*; use util::uint::*;
use util::rlp::*; use util::rlp::*;
use util::sha3::*; use util::sha3::*;
use blockheader::*; use header::*;
use transaction::*; use transaction::*;
/// View onto block rlp. /// View onto block rlp.