use basic_account in snapshot

This commit is contained in:
Robert Habermeier 2017-01-03 17:05:27 +01:00
parent eb2b1ad5da
commit 5d2cf22ef4
4 changed files with 142 additions and 186 deletions

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@ -17,16 +17,17 @@
//! Account state encoding and decoding //! Account state encoding and decoding
use account_db::{AccountDB, AccountDBMut}; use account_db::{AccountDB, AccountDBMut};
use basic_account::BasicAccount;
use snapshot::Error; use snapshot::Error;
use util::{U256, FixedHash, H256, Bytes, HashDB, SHA3_EMPTY, SHA3_NULL_RLP}; use util::{U256, FixedHash, H256, Bytes, HashDB, SHA3_EMPTY, SHA3_NULL_RLP};
use util::trie::{TrieDB, Trie}; use util::trie::{TrieDB, Trie};
use rlp::{Rlp, RlpStream, Stream, UntrustedRlp, View}; use rlp::{RlpStream, Stream, UntrustedRlp, View};
use std::collections::HashSet; use std::collections::HashSet;
// An empty account -- these are replaced with RLP null data for a space optimization. // An empty account -- these are replaced with RLP null data for a space optimization.
const ACC_EMPTY: Account = Account { const ACC_EMPTY: BasicAccount = BasicAccount {
nonce: U256([0, 0, 0, 0]), nonce: U256([0, 0, 0, 0]),
balance: U256([0, 0, 0, 0]), balance: U256([0, 0, 0, 0]),
storage_root: SHA3_NULL_RLP, storage_root: SHA3_NULL_RLP,
@ -59,165 +60,121 @@ impl CodeState {
} }
} }
// An alternate account structure from ::account::Account. // walk the account's storage trie, returning an RLP item containing the
#[derive(PartialEq, Clone, Debug)] // account properties and the storage.
pub struct Account { pub fn to_fat_rlp(acc: &BasicAccount, acct_db: &AccountDB, used_code: &mut HashSet<H256>) -> Result<Bytes, Error> {
nonce: U256, if acc == &ACC_EMPTY {
balance: U256, return Ok(::rlp::NULL_RLP.to_vec());
storage_root: H256, }
code_hash: H256,
let db = TrieDB::new(acct_db, &acc.storage_root)?;
let mut pairs = Vec::new();
for item in db.iter()? {
let (k, v) = item?;
pairs.push((k, v));
}
let mut stream = RlpStream::new_list(pairs.len());
for (k, v) in pairs {
stream.begin_list(2).append(&k).append(&&*v);
}
let pairs_rlp = stream.out();
let mut account_stream = RlpStream::new_list(5);
account_stream.append(&acc.nonce)
.append(&acc.balance);
// [has_code, code_hash].
if acc.code_hash == SHA3_EMPTY {
account_stream.append(&CodeState::Empty.raw()).append_empty_data();
} else if used_code.contains(&acc.code_hash) {
account_stream.append(&CodeState::Hash.raw()).append(&acc.code_hash);
} else {
match acct_db.get(&acc.code_hash) {
Some(c) => {
used_code.insert(acc.code_hash.clone());
account_stream.append(&CodeState::Inline.raw()).append(&&*c);
}
None => {
warn!("code lookup failed during snapshot");
account_stream.append(&false).append_empty_data();
}
}
}
account_stream.append_raw(&pairs_rlp, 1);
Ok(account_stream.out())
} }
impl Account { // decode a fat rlp, and rebuild the storage trie as we go.
// decode the account from rlp. // returns the account structure along with its newly recovered code,
pub fn from_thin_rlp(rlp: &[u8]) -> Self { // if it exists.
let r: Rlp = Rlp::new(rlp); pub fn from_fat_rlp(
acct_db: &mut AccountDBMut,
rlp: UntrustedRlp,
) -> Result<(BasicAccount, Option<Bytes>), Error> {
use util::{TrieDBMut, TrieMut};
Account { // check for special case of empty account.
nonce: r.val_at(0), if rlp.is_empty() {
balance: r.val_at(1), return Ok((ACC_EMPTY, None));
storage_root: r.val_at(2), }
code_hash: r.val_at(3),
let nonce = rlp.val_at(0)?;
let balance = rlp.val_at(1)?;
let code_state: CodeState = {
let raw: u8 = rlp.val_at(2)?;
CodeState::from(raw)?
};
// load the code if it exists.
let (code_hash, new_code) = match code_state {
CodeState::Empty => (SHA3_EMPTY, None),
CodeState::Inline => {
let code: Bytes = rlp.val_at(3)?;
let code_hash = acct_db.insert(&code);
(code_hash, Some(code))
}
CodeState::Hash => {
let code_hash = rlp.val_at(3)?;
(code_hash, None)
}
};
let mut storage_root = H256::zero();
{
let mut storage_trie = TrieDBMut::new(acct_db, &mut storage_root);
let pairs = rlp.at(4)?;
for pair_rlp in pairs.iter() {
let k: Bytes = pair_rlp.val_at(0)?;
let v: Bytes = pair_rlp.val_at(1)?;
storage_trie.insert(&k, &v)?;
} }
} }
// encode the account to a standard rlp. let acc = BasicAccount {
pub fn to_thin_rlp(&self) -> Bytes { nonce: nonce,
let mut stream = RlpStream::new_list(4); balance: balance,
stream storage_root: storage_root,
.append(&self.nonce) code_hash: code_hash,
.append(&self.balance) };
.append(&self.storage_root)
.append(&self.code_hash);
stream.out() Ok((acc, new_code))
}
// walk the account's storage trie, returning an RLP item containing the
// account properties and the storage.
pub fn to_fat_rlp(&self, acct_db: &AccountDB, used_code: &mut HashSet<H256>) -> Result<Bytes, Error> {
if self == &ACC_EMPTY {
return Ok(::rlp::NULL_RLP.to_vec());
}
let db = TrieDB::new(acct_db, &self.storage_root)?;
let mut pairs = Vec::new();
for item in db.iter()? {
let (k, v) = item?;
pairs.push((k, v));
}
let mut stream = RlpStream::new_list(pairs.len());
for (k, v) in pairs {
stream.begin_list(2).append(&k).append(&&*v);
}
let pairs_rlp = stream.out();
let mut account_stream = RlpStream::new_list(5);
account_stream.append(&self.nonce)
.append(&self.balance);
// [has_code, code_hash].
if self.code_hash == SHA3_EMPTY {
account_stream.append(&CodeState::Empty.raw()).append_empty_data();
} else if used_code.contains(&self.code_hash) {
account_stream.append(&CodeState::Hash.raw()).append(&self.code_hash);
} else {
match acct_db.get(&self.code_hash) {
Some(c) => {
used_code.insert(self.code_hash.clone());
account_stream.append(&CodeState::Inline.raw()).append(&&*c);
}
None => {
warn!("code lookup failed during snapshot");
account_stream.append(&false).append_empty_data();
}
}
}
account_stream.append_raw(&pairs_rlp, 1);
Ok(account_stream.out())
}
// decode a fat rlp, and rebuild the storage trie as we go.
// returns the account structure along with its newly recovered code,
// if it exists.
pub fn from_fat_rlp(
acct_db: &mut AccountDBMut,
rlp: UntrustedRlp,
) -> Result<(Self, Option<Bytes>), Error> {
use util::{TrieDBMut, TrieMut};
// check for special case of empty account.
if rlp.is_empty() {
return Ok((ACC_EMPTY, None));
}
let nonce = rlp.val_at(0)?;
let balance = rlp.val_at(1)?;
let code_state: CodeState = {
let raw: u8 = rlp.val_at(2)?;
CodeState::from(raw)?
};
// load the code if it exists.
let (code_hash, new_code) = match code_state {
CodeState::Empty => (SHA3_EMPTY, None),
CodeState::Inline => {
let code: Bytes = rlp.val_at(3)?;
let code_hash = acct_db.insert(&code);
(code_hash, Some(code))
}
CodeState::Hash => {
let code_hash = rlp.val_at(3)?;
(code_hash, None)
}
};
let mut storage_root = H256::zero();
{
let mut storage_trie = TrieDBMut::new(acct_db, &mut storage_root);
let pairs = rlp.at(4)?;
for pair_rlp in pairs.iter() {
let k: Bytes = pair_rlp.val_at(0)?;
let v: Bytes = pair_rlp.val_at(1)?;
storage_trie.insert(&k, &v)?;
}
}
let acc = Account {
nonce: nonce,
balance: balance,
storage_root: storage_root,
code_hash: code_hash,
};
Ok((acc, new_code))
}
/// Get the account's code hash.
pub fn code_hash(&self) -> &H256 {
&self.code_hash
}
#[cfg(test)]
pub fn storage_root_mut(&mut self) -> &mut H256 {
&mut self.storage_root
}
} }
#[cfg(test)] #[cfg(test)]
mod tests { mod tests {
use account_db::{AccountDB, AccountDBMut}; use account_db::{AccountDB, AccountDBMut};
use basic_account::BasicAccount;
use tests::helpers::get_temp_state_db; use tests::helpers::get_temp_state_db;
use snapshot::tests::helpers::fill_storage; use snapshot::tests::helpers::fill_storage;
@ -227,26 +184,26 @@ mod tests {
use std::collections::HashSet; use std::collections::HashSet;
use super::{ACC_EMPTY, Account}; use super::{ACC_EMPTY, to_fat_rlp, from_fat_rlp};
#[test] #[test]
fn encoding_basic() { fn encoding_basic() {
let mut db = get_temp_state_db(); let mut db = get_temp_state_db();
let addr = Address::random(); let addr = Address::random();
let account = Account { let account = BasicAccount {
nonce: 50.into(), nonce: 50.into(),
balance: 123456789.into(), balance: 123456789.into(),
storage_root: SHA3_NULL_RLP, storage_root: SHA3_NULL_RLP,
code_hash: SHA3_EMPTY, code_hash: SHA3_EMPTY,
}; };
let thin_rlp = account.to_thin_rlp(); let thin_rlp = ::rlp::encode(&account);
assert_eq!(Account::from_thin_rlp(&thin_rlp), account); assert_eq!(::rlp::decode::<BasicAccount>(&thin_rlp), account);
let fat_rlp = account.to_fat_rlp(&AccountDB::new(db.as_hashdb(), &addr), &mut Default::default()).unwrap(); let fat_rlp = to_fat_rlp(&account, &AccountDB::new(db.as_hashdb(), &addr), &mut Default::default()).unwrap();
let fat_rlp = UntrustedRlp::new(&fat_rlp); let fat_rlp = UntrustedRlp::new(&fat_rlp);
assert_eq!(Account::from_fat_rlp(&mut AccountDBMut::new(db.as_hashdb_mut(), &addr), fat_rlp).unwrap().0, account); assert_eq!(from_fat_rlp(&mut AccountDBMut::new(db.as_hashdb_mut(), &addr), fat_rlp).unwrap().0, account);
} }
#[test] #[test]
@ -258,7 +215,7 @@ mod tests {
let acct_db = AccountDBMut::new(db.as_hashdb_mut(), &addr); let acct_db = AccountDBMut::new(db.as_hashdb_mut(), &addr);
let mut root = SHA3_NULL_RLP; let mut root = SHA3_NULL_RLP;
fill_storage(acct_db, &mut root, &mut H256::zero()); fill_storage(acct_db, &mut root, &mut H256::zero());
Account { BasicAccount {
nonce: 25.into(), nonce: 25.into(),
balance: 987654321.into(), balance: 987654321.into(),
storage_root: root, storage_root: root,
@ -266,12 +223,12 @@ mod tests {
} }
}; };
let thin_rlp = account.to_thin_rlp(); let thin_rlp = ::rlp::encode(&account);
assert_eq!(Account::from_thin_rlp(&thin_rlp), account); assert_eq!(::rlp::decode::<BasicAccount>(&thin_rlp), account);
let fat_rlp = account.to_fat_rlp(&AccountDB::new(db.as_hashdb(), &addr), &mut Default::default()).unwrap(); let fat_rlp = to_fat_rlp(&account, &AccountDB::new(db.as_hashdb(), &addr), &mut Default::default()).unwrap();
let fat_rlp = UntrustedRlp::new(&fat_rlp); let fat_rlp = UntrustedRlp::new(&fat_rlp);
assert_eq!(Account::from_fat_rlp(&mut AccountDBMut::new(db.as_hashdb_mut(), &addr), fat_rlp).unwrap().0, account); assert_eq!(from_fat_rlp(&mut AccountDBMut::new(db.as_hashdb_mut(), &addr), fat_rlp).unwrap().0, account);
} }
#[test] #[test]
@ -291,14 +248,14 @@ mod tests {
acct_db.emplace(code_hash.clone(), DBValue::from_slice(b"this is definitely code")); acct_db.emplace(code_hash.clone(), DBValue::from_slice(b"this is definitely code"));
} }
let account1 = Account { let account1 = BasicAccount {
nonce: 50.into(), nonce: 50.into(),
balance: 123456789.into(), balance: 123456789.into(),
storage_root: SHA3_NULL_RLP, storage_root: SHA3_NULL_RLP,
code_hash: code_hash, code_hash: code_hash,
}; };
let account2 = Account { let account2 = BasicAccount {
nonce: 400.into(), nonce: 400.into(),
balance: 98765432123456789usize.into(), balance: 98765432123456789usize.into(),
storage_root: SHA3_NULL_RLP, storage_root: SHA3_NULL_RLP,
@ -307,18 +264,18 @@ mod tests {
let mut used_code = HashSet::new(); let mut used_code = HashSet::new();
let fat_rlp1 = account1.to_fat_rlp(&AccountDB::new(db.as_hashdb(), &addr1), &mut used_code).unwrap(); let fat_rlp1 = to_fat_rlp(&account1, &AccountDB::new(db.as_hashdb(), &addr1), &mut used_code).unwrap();
let fat_rlp2 = account2.to_fat_rlp(&AccountDB::new(db.as_hashdb(), &addr2), &mut used_code).unwrap(); let fat_rlp2 = to_fat_rlp(&account2, &AccountDB::new(db.as_hashdb(), &addr2), &mut used_code).unwrap();
assert_eq!(used_code.len(), 1); assert_eq!(used_code.len(), 1);
let fat_rlp1 = UntrustedRlp::new(&fat_rlp1); let fat_rlp1 = UntrustedRlp::new(&fat_rlp1);
let fat_rlp2 = UntrustedRlp::new(&fat_rlp2); let fat_rlp2 = UntrustedRlp::new(&fat_rlp2);
let (acc, maybe_code) = Account::from_fat_rlp(&mut AccountDBMut::new(db.as_hashdb_mut(), &addr2), fat_rlp2).unwrap(); let (acc, maybe_code) = from_fat_rlp(&mut AccountDBMut::new(db.as_hashdb_mut(), &addr2), fat_rlp2).unwrap();
assert!(maybe_code.is_none()); assert!(maybe_code.is_none());
assert_eq!(acc, account2); assert_eq!(acc, account2);
let (acc, maybe_code) = Account::from_fat_rlp(&mut AccountDBMut::new(db.as_hashdb_mut(), &addr1), fat_rlp1).unwrap(); let (acc, maybe_code) = from_fat_rlp(&mut AccountDBMut::new(db.as_hashdb_mut(), &addr1), fat_rlp1).unwrap();
assert_eq!(maybe_code, Some(b"this is definitely code".to_vec())); assert_eq!(maybe_code, Some(b"this is definitely code".to_vec()));
assert_eq!(acc, account1); assert_eq!(acc, account1);
} }
@ -328,7 +285,7 @@ mod tests {
let mut db = get_temp_state_db(); let mut db = get_temp_state_db();
let mut used_code = HashSet::new(); let mut used_code = HashSet::new();
assert_eq!(ACC_EMPTY.to_fat_rlp(&AccountDB::new(db.as_hashdb(), &Address::default()), &mut used_code).unwrap(), ::rlp::NULL_RLP.to_vec()); assert_eq!(to_fat_rlp(&ACC_EMPTY, &AccountDB::new(db.as_hashdb(), &Address::default()), &mut used_code).unwrap(), ::rlp::NULL_RLP.to_vec());
assert_eq!(Account::from_fat_rlp(&mut AccountDBMut::new(db.as_hashdb_mut(), &Address::default()), UntrustedRlp::new(&::rlp::NULL_RLP)).unwrap(), (ACC_EMPTY, None)); assert_eq!(from_fat_rlp(&mut AccountDBMut::new(db.as_hashdb_mut(), &Address::default()), UntrustedRlp::new(&::rlp::NULL_RLP)).unwrap(), (ACC_EMPTY, None));
} }
} }

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@ -40,7 +40,6 @@ use util::sha3::SHA3_NULL_RLP;
use rlp::{RlpStream, Stream, UntrustedRlp, View}; use rlp::{RlpStream, Stream, UntrustedRlp, View};
use bloom_journal::Bloom; use bloom_journal::Bloom;
use self::account::Account;
use self::block::AbridgedBlock; use self::block::AbridgedBlock;
use self::io::SnapshotWriter; use self::io::SnapshotWriter;
@ -368,12 +367,12 @@ pub fn chunk_state<'a>(db: &HashDB, root: &H256, writer: &Mutex<SnapshotWriter +
// account_key here is the address' hash. // account_key here is the address' hash.
for item in account_trie.iter()? { for item in account_trie.iter()? {
let (account_key, account_data) = item?; let (account_key, account_data) = item?;
let account = Account::from_thin_rlp(&*account_data); let account = ::rlp::decode(&*account_data);
let account_key_hash = H256::from_slice(&account_key); let account_key_hash = H256::from_slice(&account_key);
let account_db = AccountDB::from_hash(db, account_key_hash); let account_db = AccountDB::from_hash(db, account_key_hash);
let fat_rlp = account.to_fat_rlp(&account_db, &mut used_code)?; let fat_rlp = account::to_fat_rlp(&account, &account_db, &mut used_code)?;
chunker.push(account_key, fat_rlp)?; chunker.push(account_key, fat_rlp)?;
} }
@ -507,10 +506,10 @@ fn rebuild_accounts(
// fill out the storage trie and code while decoding. // fill out the storage trie and code while decoding.
let (acc, maybe_code) = { let (acc, maybe_code) = {
let mut acct_db = AccountDBMut::from_hash(db, hash); let mut acct_db = AccountDBMut::from_hash(db, hash);
Account::from_fat_rlp(&mut acct_db, fat_rlp)? account::from_fat_rlp(&mut acct_db, fat_rlp)?
}; };
let code_hash = acc.code_hash().clone(); let code_hash = acc.code_hash.clone();
match maybe_code { match maybe_code {
// new inline code // new inline code
Some(code) => status.new_code.push((code_hash, code, hash)), Some(code) => status.new_code.push((code_hash, code, hash)),
@ -534,7 +533,7 @@ fn rebuild_accounts(
} }
} }
acc.to_thin_rlp() ::rlp::encode(&acc).to_vec()
}; };
*out = (hash, thin_rlp); *out = (hash, thin_rlp);

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@ -17,9 +17,9 @@
//! Snapshot test helpers. These are used to build blockchains and state tries //! Snapshot test helpers. These are used to build blockchains and state tries
//! which can be queried before and after a full snapshot/restore cycle. //! which can be queried before and after a full snapshot/restore cycle.
use basic_account::BasicAccount;
use account_db::AccountDBMut; use account_db::AccountDBMut;
use rand::Rng; use rand::Rng;
use snapshot::account::Account;
use util::DBValue; use util::DBValue;
use util::hash::{FixedHash, H256}; use util::hash::{FixedHash, H256};
@ -64,10 +64,10 @@ impl StateProducer {
// sweep once to alter storage tries. // sweep once to alter storage tries.
for &mut (ref mut address_hash, ref mut account_data) in &mut accounts_to_modify { for &mut (ref mut address_hash, ref mut account_data) in &mut accounts_to_modify {
let mut account = Account::from_thin_rlp(&*account_data); let mut account: BasicAccount = ::rlp::decode(&*account_data);
let acct_db = AccountDBMut::from_hash(db, *address_hash); let acct_db = AccountDBMut::from_hash(db, *address_hash);
fill_storage(acct_db, account.storage_root_mut(), &mut self.storage_seed); fill_storage(acct_db, &mut account.storage_root, &mut self.storage_seed);
*account_data = DBValue::from_vec(account.to_thin_rlp()); *account_data = DBValue::from_vec(::rlp::encode(&account).to_vec());
} }
// sweep again to alter account trie. // sweep again to alter account trie.

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@ -16,8 +16,9 @@
//! State snapshotting tests. //! State snapshotting tests.
use basic_account::BasicAccount;
use snapshot::account;
use snapshot::{chunk_state, Error as SnapshotError, Progress, StateRebuilder}; use snapshot::{chunk_state, Error as SnapshotError, Progress, StateRebuilder};
use snapshot::account::Account;
use snapshot::io::{PackedReader, PackedWriter, SnapshotReader, SnapshotWriter}; use snapshot::io::{PackedReader, PackedWriter, SnapshotReader, SnapshotWriter};
use super::helpers::{compare_dbs, StateProducer}; use super::helpers::{compare_dbs, StateProducer};
@ -113,22 +114,21 @@ fn get_code_from_prev_chunk() {
// first one will have code inlined, // first one will have code inlined,
// second will just have its hash. // second will just have its hash.
let thin_rlp = acc_stream.out(); let thin_rlp = acc_stream.out();
let acc1 = Account::from_thin_rlp(&thin_rlp); let acc: BasicAccount = ::rlp::decode(&thin_rlp);
let acc2 = Account::from_thin_rlp(&thin_rlp);
let mut make_chunk = |acc: Account, hash| { let mut make_chunk = |acc, hash| {
let mut db = MemoryDB::new(); let mut db = MemoryDB::new();
AccountDBMut::from_hash(&mut db, hash).insert(&code[..]); AccountDBMut::from_hash(&mut db, hash).insert(&code[..]);
let fat_rlp = acc.to_fat_rlp(&AccountDB::from_hash(&db, hash), &mut used_code).unwrap(); let fat_rlp = account::to_fat_rlp(&acc, &AccountDB::from_hash(&db, hash), &mut used_code).unwrap();
let mut stream = RlpStream::new_list(1); let mut stream = RlpStream::new_list(1);
stream.begin_list(2).append(&hash).append_raw(&fat_rlp, 1); stream.begin_list(2).append(&hash).append_raw(&fat_rlp, 1);
stream.out() stream.out()
}; };
let chunk1 = make_chunk(acc1, h1); let chunk1 = make_chunk(acc.clone(), h1);
let chunk2 = make_chunk(acc2, h2); let chunk2 = make_chunk(acc, h2);
let db_path = RandomTempPath::create_dir(); let db_path = RandomTempPath::create_dir();
let db_cfg = DatabaseConfig::with_columns(::db::NUM_COLUMNS); let db_cfg = DatabaseConfig::with_columns(::db::NUM_COLUMNS);
@ -190,4 +190,4 @@ fn checks_flag() {
} }
} }
} }
} }