// Copyright 2015-2019 Parity Technologies (UK) Ltd. // This file is part of Parity Ethereum. // Parity Ethereum is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // Parity Ethereum is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License // along with Parity Ethereum. If not, see . //! Trace database. use std::collections::HashMap; use std::sync::Arc; use parity_util_mem::MallocSizeOfExt; use blockchain::BlockChainDB; use db::cache_manager::CacheManager; use db::{self, Key, Writable, Readable, CacheUpdatePolicy}; use ethereum_types::{H256, H264}; use kvdb::{DBTransaction}; use parking_lot::RwLock; use types::BlockNumber; use trace::{LocalizedTrace, Config, Filter, Database as TraceDatabase, ImportRequest, DatabaseExtras}; use trace::flat::{FlatTrace, FlatBlockTraces, FlatTransactionTraces}; const TRACE_DB_VER: &'static [u8] = b"1.0"; #[derive(Debug, Copy, Clone)] enum TraceDBIndex { /// Block traces index. BlockTraces = 0, } impl Key for H256 { type Target = H264; fn key(&self) -> H264 { let mut result = H264::default(); { let bytes = result.as_bytes_mut(); bytes[0] = TraceDBIndex::BlockTraces as u8; bytes[1..33].copy_from_slice(self.as_bytes()); } result } } /// Database to store transaction execution trace. /// /// Whenever a transaction is executed by EVM it's execution trace is stored /// in trace database. Each trace has information, which contracts have been /// touched, which have been created during the execution of transaction, and /// which calls failed. pub struct TraceDB where T: DatabaseExtras { /// cache traces: RwLock>, /// hashes of cached traces cache_manager: RwLock>, /// db db: Arc, /// tracing enabled enabled: bool, /// extras extras: Arc, } impl TraceDB where T: DatabaseExtras { /// Creates new instance of `TraceDB`. pub fn new(config: Config, db: Arc, extras: Arc) -> Self { let mut batch = DBTransaction::new(); let genesis = extras.block_hash(0) .expect("Genesis block is always inserted upon extras db creation qed"); batch.write(db::COL_TRACE, &genesis, &FlatBlockTraces::default()); batch.put(db::COL_TRACE, b"version", TRACE_DB_VER); db.key_value().write(batch).expect("failed to update version"); TraceDB { traces: RwLock::new(HashMap::new()), cache_manager: RwLock::new(CacheManager::new(config.pref_cache_size, config.max_cache_size, 10 * 1024)), db, enabled: config.enabled, extras: extras, } } fn cache_size(&self) -> usize { self.traces.read().malloc_size_of() } /// Let the cache system know that a cacheable item has been used. fn note_trace_used(&self, trace_id: H256) { let mut cache_manager = self.cache_manager.write(); cache_manager.note_used(trace_id); } /// Ticks our cache system and throws out any old data. pub fn collect_garbage(&self) { let current_size = self.cache_size(); let mut traces = self.traces.write(); let mut cache_manager = self.cache_manager.write(); cache_manager.collect_garbage(current_size, | ids | { for id in &ids { traces.remove(id); } traces.shrink_to_fit(); traces.malloc_size_of() }); } /// Returns traces for block with hash. fn traces(&self, block_hash: &H256) -> Option { let result = self.db.key_value().read_with_cache(db::COL_TRACE, &self.traces, block_hash); self.note_trace_used(*block_hash); result } /// Returns vector of transaction traces for given block. fn transactions_traces(&self, block_hash: &H256) -> Option> { self.traces(block_hash).map(Into::into) } fn matching_block_traces( &self, filter: &Filter, traces: FlatBlockTraces, block_hash: H256, block_number: BlockNumber ) -> Vec { let tx_traces: Vec = traces.into(); tx_traces.into_iter() .enumerate() .flat_map(|(tx_number, tx_trace)| { self.matching_transaction_traces(filter, tx_trace, block_hash.clone(), block_number, tx_number) }) .collect() } fn matching_transaction_traces( &self, filter: &Filter, traces: FlatTransactionTraces, block_hash: H256, block_number: BlockNumber, tx_number: usize ) -> Vec { let (trace_tx_number, trace_tx_hash) = match self.extras.transaction_hash(block_number, tx_number) { Some(hash) => (Some(tx_number), Some(hash.clone())), //None means trace without transaction (reward) None => (None, None), }; let flat_traces: Vec = traces.into(); flat_traces.into_iter() .filter_map(|trace| { match filter.matches(&trace) { true => Some(LocalizedTrace { action: trace.action, result: trace.result, subtraces: trace.subtraces, trace_address: trace.trace_address.into_iter().collect(), transaction_number: trace_tx_number, transaction_hash: trace_tx_hash, block_number: block_number, block_hash: block_hash }), false => None } }) .collect() } } impl TraceDatabase for TraceDB where T: DatabaseExtras { fn tracing_enabled(&self) -> bool { self.enabled } /// Traces of import request's enacted blocks are expected to be already in database /// or to be the currently inserted trace. fn import(&self, batch: &mut DBTransaction, request: ImportRequest) { // valid (canon): retracted 0, enacted 1 => false, true, // valid (branch): retracted 0, enacted 0 => false, false, // valid (bbcc): retracted 1, enacted 1 => true, true, // invalid: retracted 1, enacted 0 => true, false, let ret = request.retracted != 0; let ena = !request.enacted.is_empty(); assert!(!(ret && !ena)); // fast return if tracing is disabled if !self.tracing_enabled() { return; } // now let's rebuild the blooms if !request.enacted.is_empty() { let range_start = request.block_number + 1 - request.enacted.len() as u64; let enacted_blooms: Vec<_> = request.enacted .iter() // all traces are expected to be found here. That's why `expect` has been used // instead of `filter_map`. If some traces haven't been found, it meens that // traces database is corrupted or incomplete. .map(|block_hash| if block_hash == &request.block_hash { request.traces.bloom() } else { self.traces(block_hash).expect("Traces database is incomplete.").bloom() }) .collect(); self.db.trace_blooms() .insert_blooms(range_start, enacted_blooms.iter()) .expect("Low level database error. Some issue with disk?"); } // insert new block traces into the cache and the database { let mut traces = self.traces.write(); // it's important to use overwrite here, // cause this value might be queried by hash later batch.write_with_cache(db::COL_TRACE, &mut *traces, request.block_hash, request.traces, CacheUpdatePolicy::Overwrite); // note_used must be called after locking traces to avoid cache/traces deadlock on garbage collection self.note_trace_used(request.block_hash); } } fn trace(&self, block_number: BlockNumber, tx_position: usize, trace_position: Vec) -> Option { self.extras.block_hash(block_number) .and_then(|block_hash| self.transactions_traces(&block_hash) .and_then(|traces| traces.into_iter().nth(tx_position)) .map(Into::>::into) // this may and should be optimized .and_then(|traces| traces.into_iter().find(|trace| trace.trace_address == trace_position)) .map(|trace| { let tx_hash = self.extras.transaction_hash(block_number, tx_position) .expect("Expected to find transaction hash. Database is probably corrupted"); LocalizedTrace { action: trace.action, result: trace.result, subtraces: trace.subtraces, trace_address: trace.trace_address.into_iter().collect(), transaction_number: Some(tx_position), transaction_hash: Some(tx_hash), block_number: block_number, block_hash: block_hash, } }) ) } fn transaction_traces(&self, block_number: BlockNumber, tx_position: usize) -> Option> { self.extras.block_hash(block_number) .and_then(|block_hash| self.transactions_traces(&block_hash) .and_then(|traces| traces.into_iter().nth(tx_position)) .map(Into::>::into) .map(|traces| { let tx_hash = self.extras.transaction_hash(block_number, tx_position) .expect("Expected to find transaction hash. Database is probably corrupted"); traces.into_iter() .map(|trace| LocalizedTrace { action: trace.action, result: trace.result, subtraces: trace.subtraces, trace_address: trace.trace_address.into_iter().collect(), transaction_number: Some(tx_position), transaction_hash: Some(tx_hash.clone()), block_number: block_number, block_hash: block_hash }) .collect() }) ) } fn block_traces(&self, block_number: BlockNumber) -> Option> { self.extras.block_hash(block_number) .and_then(|block_hash| self.transactions_traces(&block_hash) .map(|traces| { traces.into_iter() .map(Into::>::into) .enumerate() .flat_map(|(tx_position, traces)| { let (trace_tx_number, trace_tx_hash) = match self.extras.transaction_hash(block_number, tx_position) { Some(hash) => (Some(tx_position), Some(hash.clone())), //None means trace without transaction (reward) None => (None, None), }; traces.into_iter() .map(|trace| LocalizedTrace { action: trace.action, result: trace.result, subtraces: trace.subtraces, trace_address: trace.trace_address.into_iter().collect(), transaction_number: trace_tx_number, transaction_hash: trace_tx_hash, block_number: block_number, block_hash: block_hash, }) .collect::>() }) .collect::>() }) ) } fn filter(&self, filter: &Filter) -> Vec { let possibilities = filter.bloom_possibilities(); let numbers = self.db.trace_blooms() .filter(filter.range.start as u64, filter.range.end as u64, &possibilities) .expect("Low level database error. Some issue with disk?"); numbers.into_iter() .flat_map(|n| { let number = n as BlockNumber; let hash = self.extras.block_hash(number) .expect("Expected to find block hash. Extras db is probably corrupted"); let traces = self.traces(&hash) .expect("Expected to find a trace. Db is probably corrupted."); self.matching_block_traces(filter, traces, hash, number) }) .collect() } } #[cfg(test)] mod tests { use std::collections::HashMap; use std::sync::Arc; use ethereum_types::{H256, U256, Address}; use kvdb::{DBTransaction}; use types::BlockNumber; use trace::{Config, TraceDB, Database as TraceDatabase, DatabaseExtras, ImportRequest}; use trace::{Filter, LocalizedTrace, AddressesFilter, TraceError}; use trace::trace::{Call, Action, Res}; use trace::flat::{FlatTrace, FlatBlockTraces, FlatTransactionTraces}; use evm::CallType; use test_helpers::new_db; struct NoopExtras; impl DatabaseExtras for NoopExtras { fn block_hash(&self, block_number: BlockNumber) -> Option { if block_number == 0 { Some(H256::zero()) } else { unimplemented!() } } fn transaction_hash(&self, _block_number: BlockNumber, _tx_position: usize) -> Option { unimplemented!(); } } #[derive(Clone)] struct Extras { block_hashes: HashMap, transaction_hashes: HashMap>, } impl Default for Extras { fn default() -> Self { Extras { block_hashes: HashMap::new(), transaction_hashes: HashMap::new(), } } } impl DatabaseExtras for Extras { fn block_hash(&self, block_number: BlockNumber) -> Option { self.block_hashes.get(&block_number).cloned() } fn transaction_hash(&self, block_number: BlockNumber, tx_position: usize) -> Option { self.transaction_hashes.get(&block_number) .and_then(|hashes| hashes.iter().cloned().nth(tx_position)) } } #[test] fn test_reopening_db_with_tracing_off() { let db = new_db(); let mut config = Config::default(); // set autotracing config.enabled = false; { let tracedb = TraceDB::new(config.clone(), db.clone(), Arc::new(NoopExtras)); assert_eq!(tracedb.tracing_enabled(), false); } } #[test] fn test_reopening_db_with_tracing_on() { let db = new_db(); let mut config = Config::default(); // set tracing on config.enabled = true; { let tracedb = TraceDB::new(config.clone(), db.clone(), Arc::new(NoopExtras)); assert_eq!(tracedb.tracing_enabled(), true); } } fn create_simple_import_request(block_number: BlockNumber, block_hash: H256) -> ImportRequest { ImportRequest { traces: FlatBlockTraces::from(vec![FlatTransactionTraces::from(vec![FlatTrace { trace_address: Default::default(), subtraces: 0, action: Action::Call(Call { from: Address::from_low_u64_be(1), to: Address::from_low_u64_be(2), value: 3.into(), gas: 4.into(), input: vec![], call_type: CallType::Call, }), result: Res::FailedCall(TraceError::OutOfGas), }])]), block_hash: block_hash.clone(), block_number: block_number, enacted: vec![block_hash], retracted: 0, } } fn create_noncanon_import_request(block_number: BlockNumber, block_hash: H256) -> ImportRequest { ImportRequest { traces: FlatBlockTraces::from(vec![FlatTransactionTraces::from(vec![FlatTrace { trace_address: Default::default(), subtraces: 0, action: Action::Call(Call { from: Address::from_low_u64_be(1), to: Address::from_low_u64_be(2), value: 3.into(), gas: 4.into(), input: vec![], call_type: CallType::Call, }), result: Res::FailedCall(TraceError::OutOfGas), }])]), block_hash: block_hash.clone(), block_number: block_number, enacted: vec![], retracted: 0, } } fn create_simple_localized_trace(block_number: BlockNumber, block_hash: H256, tx_hash: H256) -> LocalizedTrace { LocalizedTrace { action: Action::Call(Call { from: Address::from_low_u64_be(1), to: Address::from_low_u64_be(2), value: U256::from(3), gas: U256::from(4), input: vec![], call_type: CallType::Call, }), result: Res::FailedCall(TraceError::OutOfGas), trace_address: vec![], subtraces: 0, transaction_number: Some(0), transaction_hash: Some(tx_hash), block_number: block_number, block_hash: block_hash, } } #[test] fn test_import_non_canon_traces() { let db = new_db(); let mut config = Config::default(); config.enabled = true; let block_0 = H256::from_low_u64_be(0xa1); let block_1 = H256::from_low_u64_be(0xa2); let tx_0 = H256::from_low_u64_be(0xff); let tx_1 = H256::from_low_u64_be(0xaf); let mut extras = Extras::default(); extras.block_hashes.insert(0, block_0.clone()); extras.block_hashes.insert(1, block_1.clone()); extras.transaction_hashes.insert(0, vec![tx_0.clone()]); extras.transaction_hashes.insert(1, vec![tx_1.clone()]); let tracedb = TraceDB::new(config, db.clone(), Arc::new(extras)); // import block 0 let request = create_noncanon_import_request(0, block_0.clone()); let mut batch = DBTransaction::new(); tracedb.import(&mut batch, request); db.key_value().write(batch).unwrap(); assert!(tracedb.traces(&block_0).is_some(), "Traces should be available even if block is non-canon."); } #[test] fn test_import() { let db = new_db(); let mut config = Config::default(); config.enabled = true; let block_1 = H256::from_low_u64_be(0xa1); let block_2 = H256::from_low_u64_be(0xa2); let tx_1 = H256::from_low_u64_be(0xff); let tx_2 = H256::from_low_u64_be(0xaf); let mut extras = Extras::default(); extras.block_hashes.insert(0, H256::zero()); extras.block_hashes.insert(1, block_1.clone()); extras.block_hashes.insert(2, block_2.clone()); extras.transaction_hashes.insert(1, vec![tx_1.clone()]); extras.transaction_hashes.insert(2, vec![tx_2.clone()]); let tracedb = TraceDB::new(config, db.clone(), Arc::new(extras)); // import block 1 let request = create_simple_import_request(1, block_1.clone()); let mut batch = DBTransaction::new(); tracedb.import(&mut batch, request); db.key_value().write(batch).unwrap(); let filter = Filter { range: (1..1), from_address: AddressesFilter::from(vec![Address::from_low_u64_be(1)]), to_address: AddressesFilter::from(vec![]), }; let traces = tracedb.filter(&filter); assert_eq!(traces.len(), 1); assert_eq!(traces[0], create_simple_localized_trace(1, block_1.clone(), tx_1.clone())); // import block 2 let request = create_simple_import_request(2, block_2.clone()); let mut batch = DBTransaction::new(); tracedb.import(&mut batch, request); db.key_value().write(batch).unwrap(); let filter = Filter { range: (1..2), from_address: AddressesFilter::from(vec![Address::from_low_u64_be(1)]), to_address: AddressesFilter::from(vec![]), }; let traces = tracedb.filter(&filter); assert_eq!(traces.len(), 2); assert_eq!(traces[0], create_simple_localized_trace(1, block_1.clone(), tx_1.clone())); assert_eq!(traces[1], create_simple_localized_trace(2, block_2.clone(), tx_2.clone())); assert!(tracedb.block_traces(0).is_some(), "Genesis trace should be always present."); let traces = tracedb.block_traces(1).unwrap(); assert_eq!(traces.len(), 1); assert_eq!(traces[0], create_simple_localized_trace(1, block_1.clone(), tx_1.clone())); let traces = tracedb.block_traces(2).unwrap(); assert_eq!(traces.len(), 1); assert_eq!(traces[0], create_simple_localized_trace(2, block_2.clone(), tx_2.clone())); assert_eq!(None, tracedb.block_traces(3)); let traces = tracedb.transaction_traces(1, 0).unwrap(); assert_eq!(traces.len(), 1); assert_eq!(traces[0], create_simple_localized_trace(1, block_1.clone(), tx_1.clone())); let traces = tracedb.transaction_traces(2, 0).unwrap(); assert_eq!(traces.len(), 1); assert_eq!(traces[0], create_simple_localized_trace(2, block_2.clone(), tx_2.clone())); assert_eq!(None, tracedb.transaction_traces(2, 1)); assert_eq!(tracedb.trace(1, 0, vec![]).unwrap(), create_simple_localized_trace(1, block_1.clone(), tx_1.clone())); assert_eq!(tracedb.trace(2, 0, vec![]).unwrap(), create_simple_localized_trace(2, block_2.clone(), tx_2.clone())); } #[test] fn query_trace_after_reopen() { let db = new_db(); let mut config = Config::default(); let mut extras = Extras::default(); let block_0 = H256::from_low_u64_be(0xa1); let tx_0 = H256::from_low_u64_be(0xff); extras.block_hashes.insert(0, H256::zero()); extras.transaction_hashes.insert(0, vec![]); extras.block_hashes.insert(1, block_0.clone()); extras.transaction_hashes.insert(1, vec![tx_0.clone()]); // set tracing on config.enabled = true; { let tracedb = TraceDB::new(config.clone(), db.clone(), Arc::new(extras.clone())); // import block 1 let request = create_simple_import_request(1, block_0.clone()); let mut batch = DBTransaction::new(); tracedb.import(&mut batch, request); db.key_value().write(batch).unwrap(); } { let tracedb = TraceDB::new(config.clone(), db.clone(), Arc::new(extras)); let traces = tracedb.transaction_traces(1, 0); assert_eq!(traces.unwrap(), vec![create_simple_localized_trace(1, block_0, tx_0)]); } } #[test] fn query_genesis() { let db = new_db(); let mut config = Config::default(); let mut extras = Extras::default(); let block_0 = H256::from_low_u64_be(0xa1); extras.block_hashes.insert(0, block_0.clone()); extras.transaction_hashes.insert(0, vec![]); // set tracing on config.enabled = true; let tracedb = TraceDB::new(config.clone(), db.clone(), Arc::new(extras.clone())); let traces = tracedb.block_traces(0).unwrap(); assert_eq!(traces.len(), 0); } }