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pezkuwi-subxt/polkadot/executor/src/lib.rs
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Robert Habermeier fdc991f973 Slash Authorities for irrefutable misbehavior (#84) 
* double-commit and prepare misbehavior

* get misbehavior on completion

* collect misbehavior on drop, not only on success

* kill unused transaction_index field

* add primitive misbehavior report type

* add misbehavior report transaction

* store prior session

* fix set_items

* basic checks for misbehavior reports

* crate for substrate bft misbehavior checking

* integrate misbehavior check crate

* fix comment

* new wasm binaries

* fix hash in test

* import misbehavior transactions into queue

* fix test build

* sign on digest and full proposal when proposing

* detect proposal misbehavior

* fix fallout

* restore balance/bondage types
2018-03-13 16:39:27 +01:00

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Rust
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// Copyright 2017 Parity Technologies (UK) Ltd.
// This file is part of Substrate.
// Substrate 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.
// Substrate 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 Substrate. If not, see <http://www.gnu.org/licenses/>.
//! A `CodeExecutor` specialisation which uses natively compiled runtime when the wasm to be
//! executed is equivalent to the natively compiled code.
extern crate polkadot_runtime;
#[macro_use] extern crate substrate_executor;
extern crate substrate_codec as codec;
extern crate substrate_state_machine as state_machine;
extern crate substrate_runtime_io as runtime_io;
extern crate substrate_primitives as primitives;
extern crate polkadot_primitives as polkadot_primitives;
extern crate ed25519;
extern crate triehash;
#[cfg(test)] extern crate substrate_keyring as keyring;
#[cfg(test)] extern crate substrate_runtime_support as runtime_support;
#[cfg(test)] #[macro_use] extern crate hex_literal;
native_executor_instance!(pub Executor, polkadot_runtime::api::dispatch, include_bytes!("../../runtime/wasm/target/wasm32-unknown-unknown/release/polkadot_runtime.compact.wasm"));
#[cfg(test)]
mod tests {
use runtime_io;
use super::Executor;
use substrate_executor::WasmExecutor;
use codec::{KeyedVec, Slicable, Joiner};
use keyring::Keyring;
use runtime_support::Hashable;
use polkadot_runtime::runtime::staking::balance;
use state_machine::{CodeExecutor, TestExternalities};
use primitives::twox_128;
use polkadot_primitives::{
Hash, Header, Body, BlockNumber, Block, Digest, Transaction,
UncheckedTransaction, Function, InherentFunction,
};
use ed25519::{Public, Pair};
const BLOATY_CODE: &[u8] = include_bytes!("../../runtime/wasm/target/wasm32-unknown-unknown/release/polkadot_runtime.wasm");
const COMPACT_CODE: &[u8] = include_bytes!("../../runtime/wasm/target/wasm32-unknown-unknown/release/polkadot_runtime.compact.wasm");
// TODO: move into own crate.
macro_rules! map {
($( $name:expr => $value:expr ),*) => (
vec![ $( ( $name, $value ) ),* ].into_iter().collect()
)
}
fn new_test_ext() -> TestExternalities {
let one = Keyring::One.to_raw_public();
let two = Keyring::Two.to_raw_public();
let three = [3u8; 32];
map![
twox_128(&0u64.to_keyed_vec(b"sys:old:")).to_vec() => [69u8; 32].encode(),
twox_128(b"gov:apr").to_vec() => vec![].and(&667u32),
twox_128(b"ses:len").to_vec() => vec![].and(&2u64),
twox_128(b"ses:val:len").to_vec() => vec![].and(&3u32),
twox_128(&0u32.to_keyed_vec(b"ses:val:")).to_vec() => one.to_vec(),
twox_128(&1u32.to_keyed_vec(b"ses:val:")).to_vec() => two.to_vec(),
twox_128(&2u32.to_keyed_vec(b"ses:val:")).to_vec() => three.to_vec(),
twox_128(b"sta:wil:len").to_vec() => vec![].and(&3u32),
twox_128(&0u32.to_keyed_vec(b"sta:wil:")).to_vec() => one.to_vec(),
twox_128(&1u32.to_keyed_vec(b"sta:wil:")).to_vec() => two.to_vec(),
twox_128(&2u32.to_keyed_vec(b"sta:wil:")).to_vec() => three.to_vec(),
twox_128(b"sta:spe").to_vec() => vec![].and(&2u64),
twox_128(b"sta:vac").to_vec() => vec![].and(&3u64),
twox_128(b"sta:era").to_vec() => vec![].and(&0u64),
twox_128(&one.to_keyed_vec(b"sta:bal:")).to_vec() => vec![111u8, 0, 0, 0, 0, 0, 0, 0]
]
}
fn set_timestamp(timestamp: u64) -> UncheckedTransaction {
UncheckedTransaction::inherent(InherentFunction::TimestampSet(timestamp))
}
fn tx() -> UncheckedTransaction {
let transaction = Transaction {
signed: Keyring::One.to_raw_public(),
nonce: 0,
function: Function::StakingTransfer(Keyring::Two.to_raw_public(), 69),
};
let signature = Keyring::from_raw_public(transaction.signed).unwrap()
.sign(&transaction.encode());
UncheckedTransaction { transaction, signature }
}
fn execute_tx_on<C>(executor: C, ext: &mut TestExternalities, code: &[u8], tx: UncheckedTransaction, header: Header)
-> Result<Vec<u8>, C::Error>
where C: CodeExecutor
{
let next_header = executor.call(ext, code, "execute_transaction", &vec![].and(&header).and(&set_timestamp(100_000))).unwrap();
let next_input = next_header.and(&tx);
executor.call(ext, code, "execute_transaction", &next_input[..])
}
fn construct_block(number: BlockNumber, parent_hash: Hash, state_root: Hash, timestamp: u64, txs: Vec<Transaction>) -> (Vec<u8>, Hash) {
use triehash::ordered_trie_root;
let transactions = txs.into_iter().map(|transaction| {
let signature = Pair::from(Keyring::from_public(Public::from_raw(transaction.signed)).unwrap())
.sign(&transaction.encode());
UncheckedTransaction { transaction, signature }
}).collect();
let header = Header {
parent_hash,
number,
state_root,
transaction_root: Default::default(),
digest: Digest { logs: vec![], },
};
let mut block = Block {
header,
body: Body { timestamp, transactions },
};
let transaction_root = ordered_trie_root(block.all_transactions().map(|tx| Slicable::encode(&tx))).0.into();
block.header.transaction_root = transaction_root;
let hash = block.header.blake2_256();
(block.encode(), hash.into())
}
fn block1() -> (Vec<u8>, Hash) {
construct_block(
1,
[69u8; 32].into(),
hex!("3df569d47a0d7f4a448486f04fba4eea3e9dfca001319c609f88b3a67b0dd1ea").into(),
100_000,
vec![
Transaction {
signed: Keyring::One.to_raw_public(),
nonce: 0,
function: Function::StakingTransfer(Keyring::Two.to_raw_public(), 69),
}
]
)
}
fn block2() -> (Vec<u8>, Hash) {
construct_block(
2,
block1().1,
hex!("5604fe023cd6effd93aec9b4a008398abdd32afb3fec988a19aa853ab0424a7c").into(),
200_000,
vec![
Transaction {
signed: Keyring::Two.to_raw_public(),
nonce: 0,
function: Function::StakingTransfer(Keyring::One.to_raw_public(), 5),
},
Transaction {
signed: Keyring::One.to_raw_public(),
nonce: 1,
function: Function::StakingTransfer(Keyring::Two.to_raw_public(), 15),
}
]
)
}
#[test]
fn panic_execution_with_foreign_code_gives_error() {
let one = Keyring::One.to_raw_public();
let mut t: TestExternalities = map![
twox_128(&one.to_keyed_vec(b"sta:bal:")).to_vec() => vec![68u8, 0, 0, 0, 0, 0, 0, 0]
];
let r = execute_tx_on(Executor::new(), &mut t, BLOATY_CODE, tx(), Header::from_block_number(1));
assert!(r.is_err());
}
#[test]
fn panic_execution_with_native_equivalent_code_gives_error() {
let one = Keyring::One.to_raw_public();
let mut t: TestExternalities = map![
twox_128(&one.to_keyed_vec(b"sta:bal:")).to_vec() => vec![68u8, 0, 0, 0, 0, 0, 0, 0]
];
let r = execute_tx_on(Executor::new(), &mut t, COMPACT_CODE, tx(), Header::from_block_number(1));
assert!(r.is_err());
}
#[test]
fn successful_execution_with_native_equivalent_code_gives_ok() {
let one = Keyring::One.to_raw_public();
let two = Keyring::Two.to_raw_public();
let mut t: TestExternalities = map![
twox_128(&one.to_keyed_vec(b"sta:bal:")).to_vec() => vec![111u8, 0, 0, 0, 0, 0, 0, 0]
];
let r = execute_tx_on(Executor::new(), &mut t, COMPACT_CODE, tx(), Header::from_block_number(1));
assert!(r.is_ok());
runtime_io::with_externalities(&mut t, || {
assert_eq!(balance(&one), 42);
assert_eq!(balance(&two), 69);
});
}
#[test]
fn successful_execution_with_foreign_code_gives_ok() {
let one = Keyring::One.to_raw_public();
let two = Keyring::Two.to_raw_public();
let mut t: TestExternalities = map![
twox_128(&one.to_keyed_vec(b"sta:bal:")).to_vec() => vec![111u8, 0, 0, 0, 0, 0, 0, 0]
];
let r = execute_tx_on(Executor::new(), &mut t, BLOATY_CODE, tx(), Header::from_block_number(1));
assert!(r.is_ok());
runtime_io::with_externalities(&mut t, || {
assert_eq!(balance(&one), 42);
assert_eq!(balance(&two), 69);
});
}
#[test]
fn full_native_block_import_works() {
let mut t = new_test_ext();
Executor::new().call(&mut t, COMPACT_CODE, "execute_block", &block1().0).unwrap();
runtime_io::with_externalities(&mut t, || {
assert_eq!(balance(&Keyring::One.to_raw_public()), 42);
assert_eq!(balance(&Keyring::Two.to_raw_public()), 69);
});
Executor::new().call(&mut t, COMPACT_CODE, "execute_block", &block2().0).unwrap();
runtime_io::with_externalities(&mut t, || {
assert_eq!(balance(&Keyring::One.to_raw_public()), 32);
assert_eq!(balance(&Keyring::Two.to_raw_public()), 79);
});
}
#[test]
fn full_wasm_block_import_works() {
let mut t = new_test_ext();
WasmExecutor.call(&mut t, COMPACT_CODE, "execute_block", &block1().0).unwrap();
runtime_io::with_externalities(&mut t, || {
assert_eq!(balance(&Keyring::One.to_raw_public()), 42);
assert_eq!(balance(&Keyring::Two.to_raw_public()), 69);
});
WasmExecutor.call(&mut t, COMPACT_CODE, "execute_block", &block2().0).unwrap();
runtime_io::with_externalities(&mut t, || {
assert_eq!(balance(&Keyring::One.to_raw_public()), 32);
assert_eq!(balance(&Keyring::Two.to_raw_public()), 79);
});
}
#[test]
fn panic_execution_gives_error() {
let one = Keyring::One.to_raw_public();
let mut t: TestExternalities = map![
twox_128(&one.to_keyed_vec(b"sta:bal:")).to_vec() => vec![68u8, 0, 0, 0, 0, 0, 0, 0]
];
let foreign_code = include_bytes!("../../runtime/wasm/target/wasm32-unknown-unknown/release/polkadot_runtime.wasm");
let r = execute_tx_on(WasmExecutor, &mut t, &foreign_code[..], tx(), Header::from_block_number(1));
assert!(r.is_err());
}
#[test]
fn successful_execution_gives_ok() {
let one = Keyring::One.to_raw_public();
let two = Keyring::Two.to_raw_public();
let mut t: TestExternalities = map![
twox_128(&one.to_keyed_vec(b"sta:bal:")).to_vec() => vec![111u8, 0, 0, 0, 0, 0, 0, 0]
];
let foreign_code = include_bytes!("../../runtime/wasm/target/wasm32-unknown-unknown/release/polkadot_runtime.compact.wasm");
let r = execute_tx_on(WasmExecutor, &mut t, &foreign_code[..], tx(), Header::from_block_number(1));
assert!(r.is_ok());
runtime_io::with_externalities(&mut t, || {
assert_eq!(balance(&one), 42);
assert_eq!(balance(&two), 69);
});
}
}
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