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// Copyright 2021 Parity Technologies (UK) Ltd.
// This file is part of Parity Bridges Common.
// Parity Bridges Common 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 Bridges Common 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 Bridges Common. If not, see <http://www.gnu.org/licenses/>.
//! Utilities for testing runtime code.
#![cfg_attr(not(feature = "std"), no_std)]
use bp_header_chain::justification::GrandpaJustification;
use codec::Encode;
use sp_finality_grandpa::{AuthorityId, AuthoritySignature, AuthorityWeight, SetId};
use sp_runtime::traits::{Header as HeaderT, One, Zero};
use sp_std::prelude::*;
// Re-export all our test account utilities
pub use keyring::*;
mod keyring;
pub const TEST_GRANDPA_ROUND: u64 = 1;
pub const TEST_GRANDPA_SET_ID: SetId = 1;
/// Configuration parameters when generating test GRANDPA justifications.
#[derive(Clone)]
pub struct JustificationGeneratorParams<H> {
/// The header which we want to finalize.
pub header: H,
/// The GRANDPA round number for the current authority set.
pub round: u64,
/// The current authority set ID.
pub set_id: SetId,
/// The current GRANDPA authority set.
///
/// The size of the set will determine the number of pre-commits in our justification.
pub authorities: Vec<(Account, AuthorityWeight)>,
/// The total number of precommit ancestors in the `votes_ancestries` field our justification.
/// These may be distributed among many forks.
pub ancestors: u32,
/// The number of forks.
///
/// Useful for creating a "worst-case" scenario in which each authority is on its own fork.
pub forks: u32,
}
impl<H: HeaderT> Default for JustificationGeneratorParams<H> {
fn default() -> Self {
Self {
header: test_header(One::one()),
round: TEST_GRANDPA_ROUND,
set_id: TEST_GRANDPA_SET_ID,
forks: 1,
}
}
}
/// Make a valid GRANDPA justification with sensible defaults
pub fn make_default_justification<H: HeaderT>(header: &H) -> GrandpaJustification<H> {
let params = JustificationGeneratorParams::<H> { header: header.clone(), ..Default::default() };
make_justification_for_header(params)
}
/// Generate justifications in a way where we are able to tune the number of pre-commits
/// and vote ancestries which are included in the justification.
///
/// This is useful for benchmarkings where we want to generate valid justifications with
/// a specific number of pre-commits (tuned with the number of "authorities") and/or a specific
/// number of vote ancestries (tuned with the "votes" parameter).
///
/// Note: This needs at least three authorities or else the verifier will complain about
/// being given an invalid commit.
pub fn make_justification_for_header<H: HeaderT>(
params: JustificationGeneratorParams<H>,
) -> GrandpaJustification<H> {
let JustificationGeneratorParams { header, round, set_id, authorities, mut ancestors, forks } =
params;
let (target_hash, target_number) = (header.hash(), *header.number());
let mut votes_ancestries = vec![];
let mut precommits = vec![];
assert!(forks != 0, "Need at least one fork to have a chain..");
assert!(
forks as usize <= authorities.len(),
"If we have more forks than authorities we can't create valid pre-commits for all the forks."
);
// Roughly, how many vote ancestries do we want per fork
let target_depth = (ancestors + forks - 1) / forks;
let mut unsigned_precommits = vec![];
for i in 0..forks {
let depth = if ancestors >= target_depth {
ancestors -= target_depth;
target_depth
} else {
};
// Note: Adding 1 to account for the target header
let chain = generate_chain(i, depth + 1, &header);
// We don't include our finality target header in the vote ancestries
for child in &chain[1..] {
votes_ancestries.push(child.clone());
}
// The header we need to use when pre-commiting is the one at the highest height
// on our chain.
let precommit_candidate = chain.last().map(|h| (h.hash(), *h.number())).unwrap();
unsigned_precommits.push(precommit_candidate);
}
for (i, (id, _weight)) in authorities.iter().enumerate() {
// Assign authorities to sign pre-commits in a round-robin fashion
let target = unsigned_precommits[i % forks as usize];
let precommit = signed_precommit::<H>(id, target, round, set_id);
precommits.push(precommit);
}
GrandpaJustification {
round,
commit: finality_grandpa::Commit { target_hash, target_number, precommits },
votes_ancestries,
}
}
fn generate_chain<H: HeaderT>(fork_id: u32, depth: u32, ancestor: &H) -> Vec<H> {
let mut headers = vec![ancestor.clone()];
for i in 1..depth {
let parent = &headers[(i - 1) as usize];
let (hash, num) = (parent.hash(), *parent.number());
let mut header = test_header::<H>(num + One::one());
header.set_parent_hash(hash);
// Modifying the digest so headers at the same height but in different forks have different
// hashes
header.digest_mut().logs.push(sp_runtime::DigestItem::Other(fork_id.encode()));
headers.push(header);
}
headers
}
/// Create signed precommit with given target.
pub fn signed_precommit<H: HeaderT>(
target: (H::Hash, H::Number),
round: u64,
set_id: SetId,
) -> finality_grandpa::SignedPrecommit<H::Hash, H::Number, AuthoritySignature, AuthorityId> {
let precommit = finality_grandpa::Precommit { target_hash: target.0, target_number: target.1 };
let encoded = sp_finality_grandpa::localized_payload(
round,
set_id,
&finality_grandpa::Message::Precommit(precommit.clone()),
);
let signature = signer.sign(&encoded);
let raw_signature: Vec<u8> = signature.to_bytes().into();
// Need to wrap our signature and id types that they match what our `SignedPrecommit` is
// expecting
let signature = AuthoritySignature::try_from(raw_signature).expect(
"We know our Keypair is good,
so our signature must also be good.",
);
let id = (*signer).into();
finality_grandpa::SignedPrecommit { precommit, signature, id }
}
/// Get a header for testing.
///
/// The correct parent hash will be used if given a non-zero header.
pub fn test_header<H: HeaderT>(number: H::Number) -> H {
let default = |num| {
H::new(num, Default::default(), Default::default(), Default::default(), Default::default())
let mut header = default(number);
if number != Zero::zero() {
let parent_hash = default(number - One::one()).hash();
header.set_parent_hash(parent_hash);
}
header
}
/// Convenience function for generating a Header ID at a given block number.
pub fn header_id<H: HeaderT>(index: u8) -> (H::Hash, H::Number) {
(test_header::<H>(index.into()).hash(), index.into())
}
#[macro_export]
/// Adds methods for testing the `set_owner()` and `set_operating_mode()` for a pallet.
/// Some values are hardcoded like:
/// - `run_test()`
/// - `Pallet::<TestRuntime>`
/// - `PalletOwner::<TestRuntime>`
/// - `PalletOperatingMode::<TestRuntime>`
/// While this is not ideal, all the pallets use the same names, so it works for the moment.
/// We can revisit this in the future if anything changes.
macro_rules! generate_owned_bridge_module_tests {
($normal_operating_mode: expr, $halted_operating_mode: expr) => {
#[test]
fn test_set_owner() {
run_test(|| {
PalletOwner::<TestRuntime>::put(1);
// The root should be able to change the owner.
assert_ok!(Pallet::<TestRuntime>::set_owner(RuntimeOrigin::root(), Some(2)));
assert_eq!(PalletOwner::<TestRuntime>::get(), Some(2));
// The owner should be able to change the owner.
assert_ok!(Pallet::<TestRuntime>::set_owner(RuntimeOrigin::signed(2), Some(3)));
assert_eq!(PalletOwner::<TestRuntime>::get(), Some(3));
// Other users shouldn't be able to change the owner.
assert_noop!(
Pallet::<TestRuntime>::set_owner(RuntimeOrigin::signed(1), Some(4)),
DispatchError::BadOrigin
);
assert_eq!(PalletOwner::<TestRuntime>::get(), Some(3));
});
}
#[test]
fn test_set_operating_mode() {
run_test(|| {
PalletOwner::<TestRuntime>::put(1);
PalletOperatingMode::<TestRuntime>::put($normal_operating_mode);
// The root should be able to halt the pallet.
assert_ok!(Pallet::<TestRuntime>::set_operating_mode(
RuntimeOrigin::root(),
$halted_operating_mode
));
assert_eq!(PalletOperatingMode::<TestRuntime>::get(), $halted_operating_mode);
// The root should be able to resume the pallet.
assert_ok!(Pallet::<TestRuntime>::set_operating_mode(
RuntimeOrigin::root(),
$normal_operating_mode
));
assert_eq!(PalletOperatingMode::<TestRuntime>::get(), $normal_operating_mode);
// The owner should be able to halt the pallet.
assert_ok!(Pallet::<TestRuntime>::set_operating_mode(
RuntimeOrigin::signed(1),
$halted_operating_mode
));
assert_eq!(PalletOperatingMode::<TestRuntime>::get(), $halted_operating_mode);
// The owner should be able to resume the pallet.
assert_ok!(Pallet::<TestRuntime>::set_operating_mode(
RuntimeOrigin::signed(1),
$normal_operating_mode
));
assert_eq!(PalletOperatingMode::<TestRuntime>::get(), $normal_operating_mode);
// Other users shouldn't be able to halt the pallet.
assert_noop!(
Pallet::<TestRuntime>::set_operating_mode(
RuntimeOrigin::signed(2),
$halted_operating_mode
),
DispatchError::BadOrigin
);
assert_eq!(PalletOperatingMode::<TestRuntime>::get(), $normal_operating_mode);
// Other users shouldn't be able to resume the pallet.
PalletOperatingMode::<TestRuntime>::put($halted_operating_mode);
assert_noop!(
Pallet::<TestRuntime>::set_operating_mode(
RuntimeOrigin::signed(2),