// Copyright 2015-2017 Parity Technologies (UK) Ltd. // This file is part of Parity. // Parity 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 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. If not, see . //! Consensus engine specification and basic implementations. mod authority_round; mod basic_authority; mod instant_seal; mod null_engine; mod signer; mod tendermint; mod transition; mod validator_set; mod vote_collector; pub mod epoch; pub use self::authority_round::AuthorityRound; pub use self::basic_authority::BasicAuthority; pub use self::epoch::{EpochVerifier, Transition as EpochTransition}; pub use self::instant_seal::InstantSeal; pub use self::null_engine::NullEngine; pub use self::tendermint::Tendermint; use std::sync::{Weak, Arc}; use std::collections::{BTreeMap, HashMap}; use std::fmt; use self::epoch::PendingTransition; use account_provider::AccountProvider; use block::ExecutedBlock; use builtin::Builtin; use client::Client; use vm::{EnvInfo, LastHashes, Schedule, CreateContractAddress}; use error::Error; use header::{Header, BlockNumber}; use receipt::Receipt; use snapshot::SnapshotComponents; use spec::CommonParams; use transaction::{UnverifiedTransaction, SignedTransaction}; use ethkey::Signature; use bigint::prelude::U256; use bigint::hash::H256; use semantic_version::SemanticVersion; use util::*; use unexpected::{Mismatch, OutOfBounds}; /// Default EIP-210 contrat code. /// As defined in https://github.com/ethereum/EIPs/pull/210/commits/9df24a3714af42e3bf350265bdc75b486c909d7f#diff-e02a92c2fb96c1a1bfb05e4c6e2ef5daR49 pub const DEFAULT_BLOCKHASH_CONTRACT: &'static str = "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"; /// Voting errors. #[derive(Debug)] pub enum EngineError { /// Signature or author field does not belong to an authority. NotAuthorized(Address), /// The same author issued different votes at the same step. DoubleVote(Address), /// The received block is from an incorrect proposer. NotProposer(Mismatch
), /// Message was not expected. UnexpectedMessage, /// Seal field has an unexpected size. BadSealFieldSize(OutOfBounds), /// Validation proof insufficient. InsufficientProof(String), /// Failed system call. FailedSystemCall(String), /// Requires client ref, but none registered. RequiresClient, } impl fmt::Display for EngineError { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { use self::EngineError::*; let msg = match *self { DoubleVote(ref address) => format!("Author {} issued too many blocks.", address), NotProposer(ref mis) => format!("Author is not a current proposer: {}", mis), NotAuthorized(ref address) => format!("Signer {} is not authorized.", address), UnexpectedMessage => "This Engine should not be fed messages.".into(), BadSealFieldSize(ref oob) => format!("Seal field has an unexpected length: {}", oob), InsufficientProof(ref msg) => format!("Insufficient validation proof: {}", msg), FailedSystemCall(ref msg) => format!("Failed to make system call: {}", msg), RequiresClient => format!("Call requires client but none registered"), }; f.write_fmt(format_args!("Engine error ({})", msg)) } } /// Seal type. #[derive(Debug, PartialEq, Eq)] pub enum Seal { /// Proposal seal; should be broadcasted, but not inserted into blockchain. Proposal(Vec), /// Regular block seal; should be part of the blockchain. Regular(Vec), /// Engine does generate seal for this block right now. None, } /// Type alias for a function we can make calls through synchronously. /// Returns the call result and state proof for each call. pub type Call<'a> = Fn(Address, Bytes) -> Result<(Bytes, Vec>), String> + 'a; /// Type alias for a function we can get headers by hash through. pub type Headers<'a> = Fn(H256) -> Option
+ 'a; /// Type alias for a function we can query pending transitions by block hash through. pub type PendingTransitionStore<'a> = Fn(H256) -> Option + 'a; /// Proof generated on epoch change. pub enum Proof { /// Known proof (exctracted from signal) Known(Vec), /// Extract proof from caller. WithState(Box Result, String>>), } /// Generated epoch verifier. pub enum ConstructedVerifier<'a> { /// Fully trusted verifier. Trusted(Box), /// Verifier unconfirmed. Check whether given finality proof finalizes given hash /// under previous epoch. Unconfirmed(Box, &'a [u8], H256), /// Error constructing verifier. Err(Error), } impl<'a> ConstructedVerifier<'a> { /// Convert to a result, indicating that any necessary confirmation has been done /// already. pub fn known_confirmed(self) -> Result, Error> { match self { ConstructedVerifier::Trusted(v) | ConstructedVerifier::Unconfirmed(v, _, _) => Ok(v), ConstructedVerifier::Err(e) => Err(e), } } } /// Results of a query of whether an epoch change occurred at the given block. pub enum EpochChange { /// Cannot determine until more data is passed. Unsure(Unsure), /// No epoch change. No, /// The epoch will change, with proof. Yes(Proof), } /// More data required to determine if an epoch change occurred at a given block. #[derive(Debug, Clone, Copy, PartialEq)] pub enum Unsure { /// Needs the body. NeedsBody, /// Needs the receipts. NeedsReceipts, /// Needs both body and receipts. NeedsBoth, } /// 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 : Sync + Send { /// 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) -> usize { 0 } /// Additional engine-specific information for the user/developer concerning `header`. fn extra_info(&self, _header: &Header) -> BTreeMap { BTreeMap::new() } /// Additional information. fn additional_params(&self) -> HashMap { HashMap::new() } /// Get the general parameters of the chain. fn params(&self) -> &CommonParams; /// Get the EVM schedule for the given `block_number`. fn schedule(&self, block_number: BlockNumber) -> Schedule { self.params().schedule(block_number) } /// Builtin-contracts we would like to see in the chain. /// (In principle these are just hints for the engine since that has the last word on them.) fn builtins(&self) -> &BTreeMap; /// Some intrinsic operation parameters; by default they take their value from the `spec()`'s `engine_params`. fn maximum_extra_data_size(&self) -> usize { self.params().maximum_extra_data_size } /// Maximum number of uncles a block is allowed to declare. fn maximum_uncle_count(&self) -> usize { 2 } /// The number of generations back that uncles can be. fn maximum_uncle_age(&self) -> usize { 6 } /// The nonce with which accounts begin at given block. fn account_start_nonce(&self, block: u64) -> U256 { if block >= self.params().dust_protection_transition { U256::from(self.params().nonce_cap_increment) * U256::from(block) } else { self.params().account_start_nonce } } /// Block transformation functions, before the transactions. /// `epoch_begin` set to true if this block kicks off an epoch. fn on_new_block( &self, block: &mut ExecutedBlock, last_hashes: Arc, _epoch_begin: bool, ) -> Result<(), Error> { let parent_hash = block.fields().header.parent_hash().clone(); common::push_last_hash(block, last_hashes, self, &parent_hash) } /// Block transformation functions, after the transactions. fn on_close_block(&self, _block: &mut ExecutedBlock) -> Result<(), Error> { Ok(()) } /// None means that it requires external input (e.g. PoW) to seal a block. /// Some(true) means the engine is currently prime for seal generation (i.e. node is the current validator). /// Some(false) means that the node might seal internally but is not qualified now. fn seals_internally(&self) -> Option { None } /// Attempt to seal the block internally. /// /// If `Some` is returned, then you get a valid seal. /// /// This operation is synchronous and may (quite reasonably) not be available, in which None will /// be returned. fn generate_seal(&self, _block: &ExecutedBlock) -> Seal { Seal::None } /// Phase 1 quick block verification. Only does checks that are cheap. `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_block_basic(&self, _header: &Header, _block: Option<&[u8]>) -> Result<(), Error> { Ok(()) } /// Phase 2 verification. Perform costly checks such as transaction signatures. `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_block_unordered(&self, _header: &Header, _block: Option<&[u8]>) -> Result<(), Error> { Ok(()) } /// Phase 3 verification. Check block information against parent and uncles. `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_block_family(&self, _header: &Header, _parent: &Header, _block: Option<&[u8]>) -> Result<(), Error> { Ok(()) } /// Phase 4 verification. Verify block header against potentially external data. fn verify_block_external(&self, _header: &Header, _block: Option<&[u8]>) -> Result<(), Error> { Ok(()) } /// Additional verification for transactions in blocks. // TODO: Add flags for which bits of the transaction to check. // TODO: consider including State in the params. fn verify_transaction_basic(&self, t: &UnverifiedTransaction, _header: &Header) -> Result<(), Error> { t.verify_basic(true, Some(self.params().chain_id), true)?; Ok(()) } /// Verify a particular transaction is valid. fn verify_transaction(&self, t: UnverifiedTransaction, _header: &Header) -> Result { SignedTransaction::new(t) } /// The network ID that transactions should be signed with. fn signing_chain_id(&self, _env_info: &EnvInfo) -> Option { Some(self.params().chain_id) } /// Verify the seal of a block. This is an auxilliary method that actually just calls other `verify_` methods /// to get the job done. By default it must pass `verify_basic` and `verify_block_unordered`. If more or fewer /// methods are needed for an Engine, this may be overridden. fn verify_block_seal(&self, header: &Header) -> Result<(), Error> { self.verify_block_basic(header, None).and_then(|_| self.verify_block_unordered(header, None)) } /// Genesis epoch data. fn genesis_epoch_data(&self, _header: &Header, _call: &Call) -> Result, String> { Ok(Vec::new()) } /// Whether an epoch change is signalled at the given header but will require finality. /// If a change can be enacted immediately then return `No` from this function but /// `Yes` from `is_epoch_end`. /// /// If the block or receipts are required, return `Unsure` and the function will be /// called again with them. /// Return `Yes` or `No` when the answer is definitively known. /// /// Should not interact with state. fn signals_epoch_end(&self, _header: &Header, _block: Option<&[u8]>, _receipts: Option<&[Receipt]>) -> EpochChange { EpochChange::No } /// Whether a block is the end of an epoch. /// /// This either means that an immediate transition occurs or a block signalling transition /// has reached finality. The `Headers` given are not guaranteed to return any blocks /// from any epoch other than the current. /// /// Return optional transition proof. fn is_epoch_end( &self, _chain_head: &Header, _chain: &Headers, _transition_store: &PendingTransitionStore, ) -> Option> { None } /// Create an epoch verifier from validation proof and a flag indicating /// whether finality is required. fn epoch_verifier<'a>(&self, _header: &Header, _proof: &'a [u8]) -> ConstructedVerifier<'a> { ConstructedVerifier::Trusted(Box::new(self::epoch::NoOp)) } /// Populate a header's fields based on its parent's header. /// Usually implements the chain scoring rule based on weight. /// The gas floor target must not be lower than the engine's minimum gas limit. fn populate_from_parent(&self, header: &mut Header, parent: &Header, _gas_floor_target: U256, _gas_ceil_target: U256) { header.set_difficulty(parent.difficulty().clone()); header.set_gas_limit(parent.gas_limit().clone()); } /// Handle any potential consensus messages; /// updating consensus state and potentially issuing a new one. fn handle_message(&self, _message: &[u8]) -> Result<(), Error> { Err(EngineError::UnexpectedMessage.into()) } /// Attempt to get a handle to a built-in contract. /// Only returns references to activated built-ins. // TODO: builtin contract routing - to do this properly, it will require removing the built-in configuration-reading logic // from Spec into here and removing the Spec::builtins field. fn builtin(&self, a: &Address, block_number: ::header::BlockNumber) -> Option<&Builtin> { self.builtins() .get(a) .and_then(|b| if b.is_active(block_number) { Some(b) } else { None }) } /// Find out if the block is a proposal block and should not be inserted into the DB. /// Takes a header of a fully verified block. fn is_proposal(&self, _verified_header: &Header) -> bool { false } /// Register an account which signs consensus messages. fn set_signer(&self, _account_provider: Arc, _address: Address, _password: String) {} /// Sign using the EngineSigner, to be used for consensus tx signing. fn sign(&self, _hash: H256) -> Result { unimplemented!() } /// Add Client which can be used for sealing, querying the state and sending messages. fn register_client(&self, _client: Weak) {} /// Trigger next step of the consensus engine. fn step(&self) {} /// Stops any services that the may hold the Engine and makes it safe to drop. fn stop(&self) {} /// Create a factory for building snapshot chunks and restoring from them. /// Returning `None` indicates that this engine doesn't support snapshot creation. fn snapshot_components(&self) -> Option> { None } /// Whether this engine supports warp sync. fn supports_warp(&self) -> bool { self.snapshot_components().is_some() } /// If this engine supports wasm contracts. fn supports_wasm(&self) -> bool { self.params().wasm } /// Returns new contract address generation scheme at given block number. fn create_address_scheme(&self, number: BlockNumber) -> CreateContractAddress { if number >= self.params().eip86_transition { CreateContractAddress::FromCodeHash } else { CreateContractAddress::FromSenderAndNonce } } } /// Common engine utilities pub mod common { use std::sync::Arc; use block::ExecutedBlock; use error::Error; use transaction::SYSTEM_ADDRESS; use executive::Executive; use vm::{CallType, ActionParams, ActionValue, EnvInfo, LastHashes}; use trace::{NoopTracer, NoopVMTracer, Tracer, ExecutiveTracer, RewardType}; use state::Substate; use state::CleanupMode; use bigint::prelude::U256; use bigint::hash::H256; use util::*; use super::Engine; /// Execute a call as the system address. pub fn execute_as_system( block: &mut ExecutedBlock, last_hashes: Arc, engine: &E, contract_address: Address, gas: U256, data: Option, ) -> Result { let env_info = { let header = block.fields().header; EnvInfo { number: header.number(), author: header.author().clone(), timestamp: header.timestamp(), difficulty: header.difficulty().clone(), last_hashes: last_hashes, gas_used: U256::zero(), gas_limit: gas, } }; let mut state = block.fields_mut().state; let params = ActionParams { code_address: contract_address.clone(), address: contract_address.clone(), sender: SYSTEM_ADDRESS.clone(), origin: SYSTEM_ADDRESS.clone(), gas: gas, gas_price: 0.into(), value: ActionValue::Transfer(0.into()), code: state.code(&contract_address)?, code_hash: Some(state.code_hash(&contract_address)?), data: data, call_type: CallType::Call, }; let mut ex = Executive::new(&mut state, &env_info, engine); let mut substate = Substate::new(); let mut output = Vec::new(); if let Err(e) = ex.call(params, &mut substate, BytesRef::Flexible(&mut output), &mut NoopTracer, &mut NoopVMTracer) { warn!("Encountered error on making system call: {}", e); } Ok(output) } /// Push last known block hash to the state. pub fn push_last_hash(block: &mut ExecutedBlock, last_hashes: Arc, engine: &E, hash: &H256) -> Result<(), Error> { if block.fields().header.number() == engine.params().eip210_transition { let state = block.fields_mut().state; state.init_code(&engine.params().eip210_contract_address, engine.params().eip210_contract_code.clone())?; } if block.fields().header.number() >= engine.params().eip210_transition { let _ = execute_as_system( block, last_hashes, engine, engine.params().eip210_contract_address, engine.params().eip210_contract_gas, Some(hash.to_vec()), )?; } Ok(()) } /// Trace rewards on closing block pub fn bestow_block_reward(block: &mut ExecutedBlock, engine: &E) -> Result<(), Error> { let fields = block.fields_mut(); // Bestow block reward let reward = engine.params().block_reward; let res = fields.state.add_balance(fields.header.author(), &reward, CleanupMode::NoEmpty) .map_err(::error::Error::from) .and_then(|_| fields.state.commit()); let block_author = fields.header.author().clone(); fields.traces.as_mut().map(|mut traces| { let mut tracer = ExecutiveTracer::default(); tracer.trace_reward(block_author, engine.params().block_reward, RewardType::Block); traces.push(tracer.drain()) }); // Commit state so that we can actually figure out the state root. if let Err(ref e) = res { warn!("Encountered error on bestowing reward: {}", e); } res } }