Contracts: Only exec parsed code in benchmarks (#3915)

[Weights compare](https://weights.tasty.limo/compare?unit=weight&ignore_errors=true&threshold=10&method=asymptotic&repo=polkadot-sdk&old=master&new=pg%2Fbench_tweaks&path_pattern=substrate%2Fframe%2F**%2Fsrc%2Fweights.rs%2Cpolkadot%2Fruntime%2F*%2Fsrc%2Fweights%2F**%2F*.rs%2Cpolkadot%2Fbridges%2Fmodules%2F*%2Fsrc%2Fweights.rs%2Ccumulus%2F**%2Fweights%2F*.rs%2Ccumulus%2F**%2Fweights%2Fxcm%2F*.rs%2Ccumulus%2F**%2Fsrc%2Fweights.rs) Note: Raw weights change does not mean much here, as this PR reduce the scope of what is benchmarked, they are therefore decreased by a good margin. One should instead print the Schedule using cargo test --features runtime-benchmarks bench_print_schedule -- --nocapture or following the instructions from the [README](https://github.com/paritytech/polkadot-sdk/tree/pg/bench_tweaks/substrate/frame/contracts#schedule) for looking at the Schedule of a specific runtime --------- Co-authored-by: command-bot <>
2026-05-30 16:21:02 +00:00 · 2024-04-10 15:05:34 +02:00
parent 92e142555d
commit 0d71753e0e
7 changed files with 1659 additions and 2923 deletions
@@ -0,0 +1,14 @@
 # Schema: Polkadot SDK PRDoc Schema (prdoc) v1.0.0
 # See doc at https://raw.githubusercontent.com/paritytech/polkadot-sdk/master/prdoc/schema_user.json
 title: "[pallet-contracts] Weights update"
 doc:
  - audience: Runtime Dev
    description: |
      Update Host functions benchmarks, instead of benchmarking the whole call extrinsic, this PR solely benchmark the execution of the Host function.
      Previously, some benchmarks would overestimate the weight as both the parsing and execution of the contract were included in the benchmark.
 crates:
 - name: pallet-contracts
  bump: patch
@@ -38,6 +38,10 @@ pub extern "C" fn call() {
 		output: [u8],
 	);
 	// Burn some PoV, clear_storage consumes some PoV as in order to clear the storage we need to we
 	// need to read its size first.
 	api::clear_storage_v1(b"");
 	let exit_status = uapi::ReturnFlags::from_bits(exit_status[0] as u32).unwrap();
 	api::return_value(exit_status, output);
 }
@@ -0,0 +1,170 @@
 // This file is part of Substrate.
 // Copyright (C) Parity Technologies (UK) Ltd.
 // SPDX-License-Identifier: Apache-2.0
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 // 	http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 use crate::{
 	benchmarking::{Contract, WasmModule},
 	exec::Stack,
 	storage::meter::Meter,
 	wasm::Runtime,
 	BalanceOf, Config, DebugBufferVec, Determinism, ExecReturnValue, GasMeter, Origin, Schedule,
 	TypeInfo, WasmBlob, Weight,
 };
 use codec::{Encode, HasCompact};
 use core::fmt::Debug;
 use sp_core::Get;
 use sp_std::prelude::*;
 type StackExt<'a, T> = Stack<'a, T, WasmBlob<T>>;
 /// A prepared contract call ready to be executed.
 pub struct PreparedCall<'a, T: Config> {
 	func: wasmi::Func,
 	store: wasmi::Store<Runtime<'a, StackExt<'a, T>>>,
 }
 impl<'a, T: Config> PreparedCall<'a, T> {
 	pub fn call(mut self) -> ExecReturnValue {
 		let result = self.func.call(&mut self.store, &[], &mut []);
 		WasmBlob::<T>::process_result(self.store, result).unwrap()
 	}
 }
 /// A builder used to prepare a contract call.
 pub struct CallSetup<T: Config> {
 	contract: Contract<T>,
 	dest: T::AccountId,
 	origin: Origin<T>,
 	gas_meter: GasMeter<T>,
 	storage_meter: Meter<T>,
 	schedule: Schedule<T>,
 	value: BalanceOf<T>,
 	debug_message: Option<DebugBufferVec<T>>,
 	determinism: Determinism,
 	data: Vec<u8>,
 }
 impl<T> CallSetup<T>
 where
 	T: Config + pallet_balances::Config,
 	<BalanceOf<T> as HasCompact>::Type: Clone + Eq + PartialEq + Debug + TypeInfo + Encode,
 {
 	/// Setup a new call for the given module.
 	pub fn new(module: WasmModule<T>) -> Self {
 		let contract = Contract::<T>::new(module.clone(), vec![]).unwrap();
 		let dest = contract.account_id.clone();
 		let origin = Origin::from_account_id(contract.caller.clone());
 		let storage_meter = Meter::new(&origin, None, 0u32.into()).unwrap();
 		Self {
 			contract,
 			dest,
 			origin,
 			gas_meter: GasMeter::new(Weight::MAX),
 			storage_meter,
 			schedule: T::Schedule::get(),
 			value: 0u32.into(),
 			debug_message: None,
 			determinism: Determinism::Enforced,
 			data: vec![],
 		}
 	}
 	/// Set the meter's storage deposit limit.
 	pub fn set_storage_deposit_limit(&mut self, balance: BalanceOf<T>) {
 		self.storage_meter = Meter::new(&self.origin, Some(balance), 0u32.into()).unwrap();
 	}
 	/// Set the call's origin.
 	pub fn set_origin(&mut self, origin: Origin<T>) {
 		self.origin = origin;
 	}
 	/// Set the contract's balance.
 	pub fn set_balance(&mut self, value: BalanceOf<T>) {
 		self.contract.set_balance(value);
 	}
 	/// Set the call's input data.
 	pub fn set_data(&mut self, value: Vec<u8>) {
 		self.data = value;
 	}
 	/// Set the debug message.
 	pub fn enable_debug_message(&mut self) {
 		self.debug_message = Some(Default::default());
 	}
 	/// Get the debug message.
 	pub fn debug_message(&self) -> Option<DebugBufferVec<T>> {
 		self.debug_message.clone()
 	}
 	/// Get the call's input data.
 	pub fn data(&self) -> Vec<u8> {
 		self.data.clone()
 	}
 	/// Get the call's contract.
 	pub fn contract(&self) -> Contract<T> {
 		self.contract.clone()
 	}
 	/// Build the call stack.
 	pub fn ext(&mut self) -> (StackExt<'_, T>, WasmBlob<T>) {
 		StackExt::bench_new_call(
 			self.dest.clone(),
 			self.origin.clone(),
 			&mut self.gas_meter,
 			&mut self.storage_meter,
 			&self.schedule,
 			self.value,
 			self.debug_message.as_mut(),
 			self.determinism,
 		)
 	}
 	/// Prepare a call to the module.
 	pub fn prepare_call<'a>(
 		ext: &'a mut StackExt<'a, T>,
 		module: WasmBlob<T>,
 		input: Vec<u8>,
 	) -> PreparedCall<'a, T> {
 		let (func, store) = module.bench_prepare_call(ext, input);
 		PreparedCall { func, store }
 	}
 }
 #[macro_export]
 macro_rules! call_builder(
 	($func: ident, $module:expr) => {
 		$crate::call_builder!($func, _contract, $module);
 	};
 	($func: ident, $contract: ident, $module:expr) => {
 		let mut setup = CallSetup::<T>::new($module);
 		$crate::call_builder!($func, $contract, setup: setup);
 	};
    ($func:ident, setup: $setup: ident) => {
 		$crate::call_builder!($func, _contract, setup: $setup);
 	};
    ($func:ident, $contract: ident, setup: $setup: ident) => {
 		let data = $setup.data();
 		let $contract = $setup.contract();
 		let (mut ext, module) = $setup.ext();
 		let $func = CallSetup::<T>::prepare_call(&mut ext, module, data);
 	};
 );
@@ -733,6 +733,30 @@ where
 		stack.run(executable, input_data).map(|ret| (account_id, ret))
 	}
 	#[cfg(feature = "runtime-benchmarks")]
 	pub fn bench_new_call(
 		dest: T::AccountId,
 		origin: Origin<T>,
 		gas_meter: &'a mut GasMeter<T>,
 		storage_meter: &'a mut storage::meter::Meter<T>,
 		schedule: &'a Schedule<T>,
 		value: BalanceOf<T>,
 		debug_message: Option<&'a mut DebugBufferVec<T>>,
 		determinism: Determinism,
 	) -> (Self, E) {
 		Self::new(
 			FrameArgs::Call { dest, cached_info: None, delegated_call: None },
 			origin,
 			gas_meter,
 			storage_meter,
 			schedule,
 			value,
 			debug_message,
 			determinism,
 		)
 		.unwrap()
 	}
 	/// Create a new call stack.
 	fn new(
 		args: FrameArgs<T, E>,
@@ -338,26 +338,49 @@ impl<T: Config> CodeInfo<T> {
 	}
 }
-impl<T: Config> Executable<T> for WasmBlob<T> {
+use crate::{ExecError, ExecReturnValue};
-	fn from_storage(
+use wasmi::Func;
-		code_hash: CodeHash<T>,
+enum InstanceOrExecReturn<'a, E: Ext> {
-		gas_meter: &mut GasMeter<T>,
+	Instance((Func, Store<Runtime<'a, E>>)),
-	) -> Result<Self, DispatchError> {
+	ExecReturn(ExecReturnValue),
-		let code_info = <CodeInfoOf<T>>::get(code_hash).ok_or(Error::<T>::CodeNotFound)?;
+}
-		gas_meter.charge(CodeLoadToken(code_info.code_len))?;
+
-		let code = <PristineCode<T>>::get(code_hash).ok_or(Error::<T>::CodeNotFound)?;
+type PreExecResult<'a, E> = Result<InstanceOrExecReturn<'a, E>, ExecError>;
-		Ok(Self { code, code_info, code_hash })
+
 impl<T: Config> WasmBlob<T> {
 	/// Sync the frame's gas meter with the engine's one.
 	pub fn process_result<E: Ext<T = T>>(
 		mut store: Store<Runtime<E>>,
 		result: Result<(), wasmi::Error>,
 	) -> ExecResult {
 		let engine_consumed_total = store.fuel_consumed().expect("Fuel metering is enabled; qed");
 		let gas_meter = store.data_mut().ext().gas_meter_mut();
 		let _ = gas_meter.sync_from_executor(engine_consumed_total)?;
 		store.into_data().to_execution_result(result)
 	}
-	fn execute<E: Ext<T = T>>(
+	#[cfg(feature = "runtime-benchmarks")]
 	pub fn bench_prepare_call<E: Ext<T = T>>(
 		self,
 		ext: &mut E,
 		function: &ExportedFunction,
 		input_data: Vec<u8>,
-	) -> ExecResult {
+	) -> (Func, Store<Runtime<E>>) {
 		use InstanceOrExecReturn::*;
 		match Self::prepare_execute(self, Runtime::new(ext, input_data), &ExportedFunction::Call)
 			.expect("Benchmark should provide valid module")
 		{
 			Instance((func, store)) => (func, store),
 			ExecReturn(_) => panic!("Expected Instance"),
 		}
 	}
 	fn prepare_execute<'a, E: Ext<T = T>>(
 		self,
 		runtime: Runtime<'a, E>,
 		function: &'a ExportedFunction,
 	) -> PreExecResult<'a, E> {
 		let code = self.code.as_slice();
 		// Instantiate the Wasm module to the engine.
 		let runtime = Runtime::new(ext, input_data);
 		let schedule = <T>::Schedule::get();
 		let (mut store, memory, instance) = Self::instantiate::<crate::wasm::runtime::Env, _>(
 			code,
@@ -390,15 +413,6 @@ impl<T: Config> Executable<T> for WasmBlob<T> {
 			.add_fuel(fuel_limit)
 			.expect("We've set up engine to fuel consuming mode; qed");
 		// Sync this frame's gas meter with the engine's one.
 		let process_result = |mut store: Store<Runtime<E>>, result| {
 			let engine_consumed_total =
 				store.fuel_consumed().expect("Fuel metering is enabled; qed");
 			let gas_meter = store.data_mut().ext().gas_meter_mut();
 			let _ = gas_meter.sync_from_executor(engine_consumed_total)?;
 			store.into_data().to_execution_result(result)
 		};
 		// Start function should already see the correct refcount in case it will be ever inspected.
 		if let &ExportedFunction::Constructor = function {
 			E::increment_refcount(self.code_hash)?;
@@ -417,10 +431,37 @@ impl<T: Config> Executable<T> for WasmBlob<T> {
 						Error::<T>::CodeRejected
 					})?;
-				let result = exported_func.call(&mut store, &[], &mut []);
+				Ok(InstanceOrExecReturn::Instance((exported_func, store)))
 				process_result(store, result)
 			},
-			Err(err) => process_result(store, Err(err)),
+			Err(err) => Self::process_result(store, Err(err)).map(InstanceOrExecReturn::ExecReturn),
 		}
 	}
 }
 impl<T: Config> Executable<T> for WasmBlob<T> {
 	fn from_storage(
 		code_hash: CodeHash<T>,
 		gas_meter: &mut GasMeter<T>,
 	) -> Result<Self, DispatchError> {
 		let code_info = <CodeInfoOf<T>>::get(code_hash).ok_or(Error::<T>::CodeNotFound)?;
 		gas_meter.charge(CodeLoadToken(code_info.code_len))?;
 		let code = <PristineCode<T>>::get(code_hash).ok_or(Error::<T>::CodeNotFound)?;
 		Ok(Self { code, code_info, code_hash })
 	}
 	fn execute<E: Ext<T = T>>(
 		self,
 		ext: &mut E,
 		function: &ExportedFunction,
 		input_data: Vec<u8>,
 	) -> ExecResult {
 		use InstanceOrExecReturn::*;
 		match Self::prepare_execute(self, Runtime::new(ext, input_data), function)? {
 			Instance((func, mut store)) => {
 				let result = func.call(&mut store, &[], &mut []);
 				Self::process_result(store, result)
 			},
 			ExecReturn(exec_return) => Ok(exec_return),
 		}
 	}
@@ -1780,6 +1821,7 @@ mod tests {
 	const CODE_GAS_LEFT: &str = r#"
 (module
 	(import "seal1" "gas_left" (func $seal_gas_left (param i32 i32)))
 	(import "seal0" "clear_storage" (func $clear_storage (param i32)))
 	(import "seal0" "seal_return" (func $seal_return (param i32 i32 i32)))
 	(import "env" "memory" (memory 1 1))
@@ -1796,6 +1838,9 @@ mod tests {
 	)
 	(func (export "call")
 		;; Burn some PoV, clear_storage consumes some PoV as in order to clear the storage we need to we need to read its size first.
 		(call $clear_storage (i32.const 0))
 		;; This stores the weight left to the buffer
 		(call $seal_gas_left (i32.const 0) (i32.const 20))
@@ -1807,6 +1852,9 @@ mod tests {
 			)
 		)
 		;; Burn some PoV, clear_storage consumes some PoV as in order to clear the storage we need to we need to read its size first.
 		(call $clear_storage (i32.const 0))
 		;; Return weight left and its encoded value len
 		(call $seal_return (i32.const 0) (i32.const 0) (i32.load (i32.const 20)))