openethereum/src/account.rs
2016-01-19 13:47:30 +01:00

337 lines
11 KiB
Rust

use util::*;
use pod_account::*;
/// Single account in the system.
#[derive(Clone)]
pub struct Account {
// Balance of the account.
balance: U256,
// Nonce of the account.
nonce: U256,
// Trie-backed storage.
storage_root: H256,
// Overlay on trie-backed storage - tuple is (<clean>, <value>).
storage_overlay: RefCell<HashMap<H256, (Filth, H256)>>,
// 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 cache of the account.
code_cache: Bytes,
}
impl Account {
/// General constructor.
pub fn new(balance: U256, nonce: U256, storage: HashMap<H256, H256>, code: Bytes) -> Account {
Account {
balance: balance,
nonce: nonce,
storage_root: SHA3_NULL_RLP,
storage_overlay: RefCell::new(storage.into_iter().map(|(k, v)| (k, (Filth::Dirty, v))).collect()),
code_hash: Some(code.sha3()),
code_cache: code
}
}
/// General constructor.
pub fn from_pod(pod: PodAccount) -> Account {
Account {
balance: pod.balance,
nonce: pod.nonce,
storage_root: SHA3_NULL_RLP,
storage_overlay: RefCell::new(pod.storage.into_iter().map(|(k, v)| (k, (Filth::Dirty, v))).collect()),
code_hash: Some(pod.code.sha3()),
code_cache: pod.code
}
}
/// Create a new account with the given balance.
pub fn new_basic(balance: U256, nonce: U256) -> Account {
Account {
balance: balance,
nonce: nonce,
storage_root: SHA3_NULL_RLP,
storage_overlay: RefCell::new(HashMap::new()),
code_hash: Some(SHA3_EMPTY),
code_cache: vec![],
}
}
/// Create a new account from RLP.
pub fn from_rlp(rlp: &[u8]) -> Account {
let r: Rlp = Rlp::new(rlp);
Account {
nonce: r.val_at(0),
balance: r.val_at(1),
storage_root: r.val_at(2),
storage_overlay: RefCell::new(HashMap::new()),
code_hash: Some(r.val_at(3)),
code_cache: vec![],
}
}
/// Create a new contract account.
/// NOTE: make sure you use `init_code` on this before `commit`ing.
pub fn new_contract(balance: U256) -> Account {
Account {
balance: balance,
nonce: U256::from(0u8),
storage_root: SHA3_NULL_RLP,
storage_overlay: RefCell::new(HashMap::new()),
code_hash: None,
code_cache: vec![],
}
}
/// Reset this account to the status of a not-yet-initialised contract.
/// NOTE: Account should have `init_code()` called on it later.
pub fn reset_code(&mut self) {
self.code_hash = None;
self.code_cache = vec![];
}
/// Set this account's code to the given code.
/// NOTE: Account should have been created with `new_contract()` or have `reset_code()` called on it.
pub fn init_code(&mut self, code: Bytes) {
assert!(self.code_hash.is_none());
self.code_cache = code;
}
/// Set (and cache) the contents of the trie's storage at `key` to `value`.
pub fn set_storage(&mut self, key: H256, value: H256) {
self.storage_overlay.borrow_mut().insert(key, (Filth::Dirty, value));
}
/// Get (and cache) the contents of the trie's storage at `key`.
pub fn storage_at(&self, db: &HashDB, key: &H256) -> H256 {
self.storage_overlay.borrow_mut().entry(key.clone()).or_insert_with(||{
(Filth::Clean, H256::from(SecTrieDB::new(db, &self.storage_root).get(key.bytes()).map_or(U256::zero(), |v| -> U256 {decode(v)})))
}).1.clone()
}
/// return the balance associated with this account.
pub fn balance(&self) -> &U256 { &self.balance }
/// return the nonce associated with this account.
pub fn nonce(&self) -> &U256 { &self.nonce }
/// return the code hash associated with this account.
pub fn code_hash(&self) -> H256 {
self.code_hash.clone().unwrap_or(SHA3_EMPTY)
}
/// returns the account's code. If `None` then the code cache isn't available -
/// get someone who knows to call `note_code`.
pub fn code(&self) -> Option<&[u8]> {
match self.code_hash {
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),
None => Some(&self.code_cache),
_ => None,
}
}
/// Provide a byte array which hashes to the `code_hash`. returns the hash as a result.
pub fn note_code(&mut self, code: Bytes) -> Result<(), H256> {
let h = code.sha3();
match self.code_hash {
Some(ref i) if h == *i => {
self.code_cache = code;
Ok(())
},
_ => Err(h)
}
}
/// Is `code_cache` valid; such that code is going to return Some?
pub fn is_cached(&self) -> bool {
!self.code_cache.is_empty() || (self.code_cache.is_empty() && self.code_hash == Some(SHA3_EMPTY))
}
/// Provide a database to lookup `code_hash`. Should not be called if it is a contract without code.
pub fn cache_code(&mut self, db: &HashDB) -> bool {
// TODO: fill out self.code_cache;
self.is_cached() ||
match self.code_hash {
Some(ref h) => match db.lookup(h) {
Some(x) => { self.code_cache = x.to_vec(); true },
_ => false,
},
_ => false,
}
}
/// return the storage root associated with this account.
pub fn base_root(&self) -> &H256 { &self.storage_root }
/// Determine whether there are any un-`commit()`-ed storage-setting operations.
pub fn storage_is_clean(&self) -> bool { self.storage_overlay.borrow().iter().find(|&(_, &(f, _))| f == Filth::Dirty).is_none() }
/// 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_is_clean() {Some(&self.storage_root)} else {None} }
/// return the storage root associated with this account or None if it has been altered via the overlay.
pub fn recent_storage_root(&self) -> &H256 { &self.storage_root }
/// return the storage overlay.
pub fn storage_overlay(&self) -> Ref<HashMap<H256, (Filth, H256)>> { self.storage_overlay.borrow() }
/// Increment the nonce of the account by one.
pub fn inc_nonce(&mut self) { self.nonce = self.nonce + U256::from(1u8); }
/// Increment the nonce of the account by one.
pub fn add_balance(&mut self, x: &U256) { self.balance = self.balance + *x; }
/// Increment the nonce of the account by one.
pub fn sub_balance(&mut self, x: &U256) { self.balance = self.balance - *x; }
/// Commit the `storage_overlay` to the backing DB and update `storage_root`.
pub fn commit_storage(&mut self, db: &mut HashDB) {
let mut t = SecTrieDBMut::from_existing(db, &mut self.storage_root);
for (k, &mut (ref mut f, ref mut v)) in self.storage_overlay.borrow_mut().iter_mut() {
if f == &Filth::Dirty {
// cast key and value to trait type,
// so we can call overloaded `to_bytes` method
match v.is_zero() {
true => { t.remove(k); },
false => { t.insert(k, &encode(&U256::from(v.as_slice()))); },
}
*f = Filth::Clean;
}
}
}
/// 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) {
trace!("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()) {
(true, true) => self.code_hash = Some(SHA3_EMPTY),
(true, false) => {
self.code_hash = Some(db.insert(&self.code_cache));
},
(false, _) => {},
}
}
/// Export to RLP.
pub fn rlp(&self) -> Bytes {
let mut stream = RlpStream::new_list(4);
stream.append(&self.nonce);
stream.append(&self.balance);
stream.append(&self.storage_root);
stream.append(self.code_hash.as_ref().expect("Cannot form RLP of contract account without code."));
stream.out()
}
}
impl fmt::Debug for Account {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "{:?}", PodAccount::from_account(self))
}
}
#[cfg(test)]
mod tests {
use util::*;
use super::*;
#[test]
fn storage_at() {
let mut db = MemoryDB::new();
let rlp = {
let mut a = Account::new_contract(U256::from(69u8));
a.set_storage(H256::from(&U256::from(0x00u64)), H256::from(&U256::from(0x1234u64)));
a.commit_storage(&mut db);
a.init_code(vec![]);
a.commit_code(&mut db);
a.rlp()
};
let a = Account::from_rlp(&rlp);
assert_eq!(a.storage_root().unwrap().hex(), "c57e1afb758b07f8d2c8f13a3b6e44fa5ff94ab266facc5a4fd3f062426e50b2");
assert_eq!(a.storage_at(&db, &H256::from(&U256::from(0x00u64))), H256::from(&U256::from(0x1234u64)));
assert_eq!(a.storage_at(&db, &H256::from(&U256::from(0x01u64))), H256::new());
}
#[test]
fn note_code() {
let mut db = MemoryDB::new();
let rlp = {
let mut a = Account::new_contract(U256::from(69u8));
a.init_code(vec![0x55, 0x44, 0xffu8]);
a.commit_code(&mut db);
a.rlp()
};
let mut a = Account::from_rlp(&rlp);
assert!(a.cache_code(&db));
let mut a = Account::from_rlp(&rlp);
assert_eq!(a.note_code(vec![0x55, 0x44, 0xffu8]), Ok(()));
}
#[test]
fn commit_storage() {
let mut a = Account::new_contract(U256::from(69u8));
let mut db = MemoryDB::new();
a.set_storage(x!(0), x!(0x1234));
assert_eq!(a.storage_root(), None);
a.commit_storage(&mut db);
assert_eq!(a.storage_root().unwrap().hex(), "c57e1afb758b07f8d2c8f13a3b6e44fa5ff94ab266facc5a4fd3f062426e50b2");
}
#[test]
fn commit_remove_commit_storage() {
let mut a = Account::new_contract(U256::from(69u8));
let mut db = MemoryDB::new();
a.set_storage(x!(0), x!(0x1234));
a.commit_storage(&mut db);
a.set_storage(x!(1), x!(0x1234));
a.commit_storage(&mut db);
a.set_storage(x!(1), x!(0));
a.commit_storage(&mut db);
assert_eq!(a.storage_root().unwrap().hex(), "c57e1afb758b07f8d2c8f13a3b6e44fa5ff94ab266facc5a4fd3f062426e50b2");
}
#[test]
fn commit_code() {
let mut a = Account::new_contract(U256::from(69u8));
let mut db = MemoryDB::new();
a.init_code(vec![0x55, 0x44, 0xffu8]);
assert_eq!(a.code_hash(), SHA3_EMPTY);
a.commit_code(&mut db);
assert_eq!(a.code_hash().hex(), "af231e631776a517ca23125370d542873eca1fb4d613ed9b5d5335a46ae5b7eb");
}
#[test]
fn rlpio() {
let a = Account::new(U256::from(69u8), U256::from(0u8), HashMap::new(), Bytes::new());
let b = Account::from_rlp(&a.rlp());
assert_eq!(a.balance(), b.balance());
assert_eq!(a.nonce(), b.nonce());
assert_eq!(a.code_hash(), b.code_hash());
assert_eq!(a.storage_root(), b.storage_root());
}
#[test]
fn new_account() {
use rustc_serialize::hex::ToHex;
let a = Account::new(U256::from(69u8), U256::from(0u8), HashMap::new(), Bytes::new());
assert_eq!(a.rlp().to_hex(), "f8448045a056e81f171bcc55a6ff8345e692c0f86e5b48e01b996cadc001622fb5e363b421a0c5d2460186f7233c927e7db2dcc703c0e500b653ca82273b7bfad8045d85a470");
assert_eq!(a.balance(), &U256::from(69u8));
assert_eq!(a.nonce(), &U256::from(0u8));
assert_eq!(a.code_hash(), SHA3_EMPTY);
assert_eq!(a.storage_root().unwrap(), &SHA3_NULL_RLP);
}
#[test]
fn create_account() {
use rustc_serialize::hex::ToHex;
let a = Account::new(U256::from(69u8), U256::from(0u8), HashMap::new(), Bytes::new());
assert_eq!(a.rlp().to_hex(), "f8448045a056e81f171bcc55a6ff8345e692c0f86e5b48e01b996cadc001622fb5e363b421a0c5d2460186f7233c927e7db2dcc703c0e500b653ca82273b7bfad8045d85a470");
}
}