// Copyright 2019-2021 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 .
//! Everything required to run benchmarks of messages module, based on
//! `bridge_runtime_common::messages` implementation.
#![cfg(feature = "runtime-benchmarks")]
use crate::{
messages::{
source::FromBridgedChainMessagesDeliveryProof, target::FromBridgedChainMessagesProof,
AccountIdOf, BridgedChain, HashOf, HasherOf, MessageBridge, ThisChain,
},
messages_generation::{
encode_all_messages, encode_lane_data, grow_trie, prepare_messages_storage_proof,
},
};
use bp_messages::storage_keys;
use bp_polkadot_core::parachains::ParaHash;
use bp_runtime::{
record_all_trie_keys, Chain, Parachain, RawStorageProof, StorageProofSize, UnderlyingChainOf,
};
use codec::Encode;
use frame_support::weights::Weight;
use pallet_bridge_messages::benchmarking::{MessageDeliveryProofParams, MessageProofParams};
use sp_runtime::traits::{Header, Zero};
use sp_std::prelude::*;
use sp_trie::{trie_types::TrieDBMutBuilderV1, LayoutV1, MemoryDB, TrieMut};
/// Prepare proof of messages for the `receive_messages_proof` call.
///
/// In addition to returning valid messages proof, environment is prepared to verify this message
/// proof.
///
/// This method is intended to be used when benchmarking pallet, linked to the chain that
/// uses GRANDPA finality. For parachains, please use the `prepare_message_proof_from_parachain`
/// function.
pub fn prepare_message_proof_from_grandpa_chain(
params: MessageProofParams,
) -> (FromBridgedChainMessagesProof>>, Weight)
where
R: pallet_bridge_grandpa::Config>>,
FI: 'static,
B: MessageBridge,
{
// prepare storage proof
let (state_root, storage_proof) = prepare_messages_storage_proof::(
params.lane,
params.message_nonces.clone(),
params.outbound_lane_data,
params.size,
match params.size {
StorageProofSize::Minimal(ref size) => vec![0u8; *size as _],
_ => vec![],
},
encode_all_messages,
encode_lane_data,
);
// update runtime storage
let (_, bridged_header_hash) = insert_header_to_grandpa_pallet::(state_root);
(
FromBridgedChainMessagesProof {
bridged_header_hash,
storage_proof,
lane: params.lane,
nonces_start: *params.message_nonces.start(),
nonces_end: *params.message_nonces.end(),
},
Weight::zero(),
)
}
/// Prepare proof of messages for the `receive_messages_proof` call.
///
/// In addition to returning valid messages proof, environment is prepared to verify this message
/// proof.
///
/// This method is intended to be used when benchmarking pallet, linked to the chain that
/// uses parachain finality. For GRANDPA chains, please use the
/// `prepare_message_proof_from_grandpa_chain` function.
pub fn prepare_message_proof_from_parachain(
params: MessageProofParams,
) -> (FromBridgedChainMessagesProof>>, Weight)
where
R: pallet_bridge_parachains::Config,
PI: 'static,
B: MessageBridge,
UnderlyingChainOf>: Chain + Parachain,
{
// prepare storage proof
let (state_root, storage_proof) = prepare_messages_storage_proof::(
params.lane,
params.message_nonces.clone(),
params.outbound_lane_data,
params.size,
match params.size {
StorageProofSize::Minimal(ref size) => vec![0u8; *size as _],
_ => vec![],
},
encode_all_messages,
encode_lane_data,
);
// update runtime storage
let (_, bridged_header_hash) =
insert_header_to_parachains_pallet::>>(state_root);
(
FromBridgedChainMessagesProof {
bridged_header_hash,
storage_proof,
lane: params.lane,
nonces_start: *params.message_nonces.start(),
nonces_end: *params.message_nonces.end(),
},
Weight::zero(),
)
}
/// Prepare proof of messages delivery for the `receive_messages_delivery_proof` call.
///
/// This method is intended to be used when benchmarking pallet, linked to the chain that
/// uses GRANDPA finality. For parachains, please use the
/// `prepare_message_delivery_proof_from_parachain` function.
pub fn prepare_message_delivery_proof_from_grandpa_chain(
params: MessageDeliveryProofParams>>,
) -> FromBridgedChainMessagesDeliveryProof>>
where
R: pallet_bridge_grandpa::Config>>,
FI: 'static,
B: MessageBridge,
{
// prepare storage proof
let lane = params.lane;
let (state_root, storage_proof) = prepare_message_delivery_proof::(params);
// update runtime storage
let (_, bridged_header_hash) = insert_header_to_grandpa_pallet::(state_root);
FromBridgedChainMessagesDeliveryProof {
bridged_header_hash: bridged_header_hash.into(),
storage_proof,
lane,
}
}
/// Prepare proof of messages delivery for the `receive_messages_delivery_proof` call.
///
/// This method is intended to be used when benchmarking pallet, linked to the chain that
/// uses parachain finality. For GRANDPA chains, please use the
/// `prepare_message_delivery_proof_from_grandpa_chain` function.
pub fn prepare_message_delivery_proof_from_parachain(
params: MessageDeliveryProofParams>>,
) -> FromBridgedChainMessagesDeliveryProof>>
where
R: pallet_bridge_parachains::Config,
PI: 'static,
B: MessageBridge,
UnderlyingChainOf>: Chain + Parachain,
{
// prepare storage proof
let lane = params.lane;
let (state_root, storage_proof) = prepare_message_delivery_proof::(params);
// update runtime storage
let (_, bridged_header_hash) =
insert_header_to_parachains_pallet::>>(state_root);
FromBridgedChainMessagesDeliveryProof {
bridged_header_hash: bridged_header_hash.into(),
storage_proof,
lane,
}
}
/// Prepare in-memory message delivery proof, without inserting anything to the runtime storage.
fn prepare_message_delivery_proof(
params: MessageDeliveryProofParams>>,
) -> (HashOf>, RawStorageProof)
where
B: MessageBridge,
{
// prepare Bridged chain storage with inbound lane state
let storage_key =
storage_keys::inbound_lane_data_key(B::BRIDGED_MESSAGES_PALLET_NAME, ¶ms.lane).0;
let mut root = Default::default();
let mut mdb = MemoryDB::default();
{
let mut trie =
TrieDBMutBuilderV1::>>::new(&mut mdb, &mut root).build();
trie.insert(&storage_key, ¶ms.inbound_lane_data.encode())
.map_err(|_| "TrieMut::insert has failed")
.expect("TrieMut::insert should not fail in benchmarks");
}
root = grow_trie(root, &mut mdb, params.size);
// generate storage proof to be delivered to This chain
let storage_proof = record_all_trie_keys::>>, _>(&mdb, &root)
.map_err(|_| "record_all_trie_keys has failed")
.expect("record_all_trie_keys should not fail in benchmarks");
(root, storage_proof)
}
/// Insert header to the bridge GRANDPA pallet.
pub(crate) fn insert_header_to_grandpa_pallet(
state_root: bp_runtime::HashOf,
) -> (bp_runtime::BlockNumberOf, bp_runtime::HashOf)
where
R: pallet_bridge_grandpa::Config,
GI: 'static,
R::BridgedChain: bp_runtime::Chain,
{
let bridged_block_number = Zero::zero();
let bridged_header = bp_runtime::HeaderOf::::new(
bridged_block_number,
Default::default(),
state_root,
Default::default(),
Default::default(),
);
let bridged_header_hash = bridged_header.hash();
pallet_bridge_grandpa::initialize_for_benchmarks::(bridged_header);
(bridged_block_number, bridged_header_hash)
}
/// Insert header to the bridge parachains pallet.
pub(crate) fn insert_header_to_parachains_pallet(
state_root: bp_runtime::HashOf,
) -> (bp_runtime::BlockNumberOf, bp_runtime::HashOf)
where
R: pallet_bridge_parachains::Config,
PI: 'static,
PC: Chain + Parachain,
{
let bridged_block_number = Zero::zero();
let bridged_header = bp_runtime::HeaderOf::::new(
bridged_block_number,
Default::default(),
state_root,
Default::default(),
Default::default(),
);
let bridged_header_hash = bridged_header.hash();
pallet_bridge_parachains::initialize_for_benchmarks::(bridged_header);
(bridged_block_number, bridged_header_hash)
}