mirror of
https://github.com/pezkuwichain/pezkuwi-subxt.git
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feee773d15
`execute` and `send` try to decode the xcm in the parameters before reaching the filter line. The new extrinsics decode only after the filter line. These should be used instead of the old ones. ## TODO - [x] Tests - [x] Generate weights - [x] Deprecation issue -> https://github.com/paritytech/polkadot-sdk/issues/3771 - [x] PRDoc - [x] Handle error in pallet-contracts This would make writing XCMs in PJS Apps more difficult, but here's the fix for that: https://github.com/polkadot-js/apps/pull/10350. Already deployed! https://polkadot.js.org/apps/#/utilities/xcm Supersedes https://github.com/paritytech/polkadot-sdk/pull/1798/ --------- Co-authored-by: PG Herveou <pgherveou@gmail.com> Co-authored-by: command-bot <> Co-authored-by: Adrian Catangiu <adrian@parity.io>
1793 lines
64 KiB
Rust
1793 lines
64 KiB
Rust
// This file is part of Substrate.
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// Copyright (C) Parity Technologies (UK) Ltd.
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// SPDX-License-Identifier: Apache-2.0
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//! # Contracts Pallet
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//!
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//! The Contracts module provides functionality for the runtime to deploy and execute WebAssembly
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//! smart-contracts.
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//!
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//! - [`Config`]
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//! - [`Call`]
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//!
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//! ## Overview
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//!
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//! This module extends accounts based on the [`frame_support::traits::fungible`] traits to have
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//! smart-contract functionality. It can be used with other modules that implement accounts based on
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//! the [`frame_support::traits::fungible`] traits. These "smart-contract accounts" have the ability
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//! to instantiate smart-contracts and make calls to other contract and non-contract accounts.
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//!
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//! The smart-contract code is stored once, and later retrievable via its hash.
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//! This means that multiple smart-contracts can be instantiated from the same hash, without
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//! replicating the code each time.
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//!
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//! When a smart-contract is called, its associated code is retrieved via the code hash and gets
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//! executed. This call can alter the storage entries of the smart-contract account, instantiate new
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//! smart-contracts, or call other smart-contracts.
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//!
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//! Finally, when an account is reaped, its associated code and storage of the smart-contract
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//! account will also be deleted.
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//!
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//! ### Weight
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//!
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//! Senders must specify a [`Weight`] limit with every call, as all instructions invoked by the
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//! smart-contract require weight. Unused weight is refunded after the call, regardless of the
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//! execution outcome.
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//!
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//! If the weight limit is reached, then all calls and state changes (including balance transfers)
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//! are only reverted at the current call's contract level. For example, if contract A calls B and B
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//! runs out of gas mid-call, then all of B's calls are reverted. Assuming correct error handling by
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//! contract A, A's other calls and state changes still persist.
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//!
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//! ### Notable Scenarios
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//!
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//! Contract call failures are not always cascading. When failures occur in a sub-call, they do not
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//! "bubble up", and the call will only revert at the specific contract level. For example, if
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//! contract A calls contract B, and B fails, A can decide how to handle that failure, either
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//! proceeding or reverting A's changes.
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//!
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//! ## Interface
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//!
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//! ### Dispatchable functions
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//!
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//! * [`Pallet::instantiate_with_code`] - Deploys a new contract from the supplied Wasm binary,
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//! optionally transferring
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//! some balance. This instantiates a new smart contract account with the supplied code and
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//! calls its constructor to initialize the contract.
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//! * [`Pallet::instantiate`] - The same as `instantiate_with_code` but instead of uploading new
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//! code an existing `code_hash` is supplied.
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//! * [`Pallet::call`] - Makes a call to an account, optionally transferring some balance.
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//! * [`Pallet::upload_code`] - Uploads new code without instantiating a contract from it.
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//! * [`Pallet::remove_code`] - Removes the stored code and refunds the deposit to its owner. Only
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//! allowed to code owner.
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//! * [`Pallet::set_code`] - Changes the code of an existing contract. Only allowed to `Root`
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//! origin.
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//! * [`Pallet::migrate`] - Runs migration steps of current multi-block migration in priority,
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//! before [`Hooks::on_idle`][frame_support::traits::Hooks::on_idle] activates.
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//!
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//! ## Usage
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//!
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//! * [`ink!`](https://use.ink) is language that enables writing Wasm-based smart contracts in plain
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//! Rust.
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#![allow(rustdoc::private_intra_doc_links)]
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#![cfg_attr(not(feature = "std"), no_std)]
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#![cfg_attr(feature = "runtime-benchmarks", recursion_limit = "1024")]
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mod address;
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mod benchmarking;
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mod exec;
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mod gas;
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mod primitives;
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pub use primitives::*;
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mod schedule;
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mod storage;
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mod wasm;
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pub mod chain_extension;
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pub mod debug;
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pub mod migration;
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pub mod weights;
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#[cfg(test)]
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mod tests;
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use crate::{
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exec::{
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AccountIdOf, ErrorOrigin, ExecError, Executable, Ext, Key, MomentOf, Stack as ExecStack,
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},
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gas::GasMeter,
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storage::{meter::Meter as StorageMeter, ContractInfo, DeletionQueueManager},
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wasm::{CodeInfo, WasmBlob},
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};
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use codec::{Codec, Decode, Encode, HasCompact, MaxEncodedLen};
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use environmental::*;
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use frame_support::{
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dispatch::{GetDispatchInfo, Pays, PostDispatchInfo, RawOrigin, WithPostDispatchInfo},
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ensure,
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error::BadOrigin,
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traits::{
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fungible::{Inspect, Mutate, MutateHold},
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ConstU32, Contains, Get, Randomness, Time,
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},
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weights::Weight,
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BoundedVec, DefaultNoBound, RuntimeDebugNoBound,
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};
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use frame_system::{
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ensure_signed,
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pallet_prelude::{BlockNumberFor, OriginFor},
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EventRecord, Pallet as System,
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};
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use scale_info::TypeInfo;
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use smallvec::Array;
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use sp_runtime::{
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traits::{Convert, Dispatchable, Hash, Saturating, StaticLookup, Zero},
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DispatchError, RuntimeDebug,
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};
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use sp_std::{fmt::Debug, prelude::*};
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pub use crate::{
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address::{AddressGenerator, DefaultAddressGenerator},
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debug::Tracing,
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exec::Frame,
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migration::{MigrateSequence, Migration, NoopMigration},
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pallet::*,
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schedule::{HostFnWeights, InstructionWeights, Limits, Schedule},
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wasm::Determinism,
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};
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pub use weights::WeightInfo;
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#[cfg(doc)]
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pub use crate::wasm::api_doc;
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type CodeHash<T> = <T as frame_system::Config>::Hash;
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type TrieId = BoundedVec<u8, ConstU32<128>>;
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type BalanceOf<T> =
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<<T as Config>::Currency as Inspect<<T as frame_system::Config>::AccountId>>::Balance;
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type CodeVec<T> = BoundedVec<u8, <T as Config>::MaxCodeLen>;
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type AccountIdLookupOf<T> = <<T as frame_system::Config>::Lookup as StaticLookup>::Source;
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type DebugBufferVec<T> = BoundedVec<u8, <T as Config>::MaxDebugBufferLen>;
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type EventRecordOf<T> =
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EventRecord<<T as frame_system::Config>::RuntimeEvent, <T as frame_system::Config>::Hash>;
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/// The old weight type.
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///
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/// This is a copy of the [`frame_support::weights::OldWeight`] type since the contracts pallet
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/// needs to support it indefinitely.
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type OldWeight = u64;
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/// Used as a sentinel value when reading and writing contract memory.
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///
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/// It is usually used to signal `None` to a contract when only a primitive is allowed
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/// and we don't want to go through encoding a full Rust type. Using `u32::Max` is a safe
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/// sentinel because contracts are never allowed to use such a large amount of resources
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/// that this value makes sense for a memory location or length.
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const SENTINEL: u32 = u32::MAX;
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/// The target that is used for the log output emitted by this crate.
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///
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/// Hence you can use this target to selectively increase the log level for this crate.
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///
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/// Example: `RUST_LOG=runtime::contracts=debug my_code --dev`
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const LOG_TARGET: &str = "runtime::contracts";
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/// Wrapper around `PhantomData` to prevent it being filtered by `scale-info`.
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///
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/// `scale-info` filters out `PhantomData` fields because usually we are only interested
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/// in sized types. However, when trying to communicate **types** as opposed to **values**
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/// we want to have those zero sized types be included.
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#[derive(Encode, Decode, DefaultNoBound, TypeInfo)]
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#[cfg_attr(feature = "std", derive(serde::Serialize, serde::Deserialize))]
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pub struct EnvironmentType<T>(PhantomData<T>);
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/// List of all runtime configurable types that are used in the communication between
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/// `pallet-contracts` and any given contract.
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///
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/// Since those types are configurable they can vary between
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/// chains all using `pallet-contracts`. Hence we need a mechanism to communicate those types
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/// in a way that can be consumed by offchain tooling.
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///
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/// This type only exists in order to appear in the metadata where it can be read by
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/// offchain tooling.
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#[derive(Encode, Decode, DefaultNoBound, TypeInfo)]
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#[cfg_attr(feature = "std", derive(serde::Serialize, serde::Deserialize))]
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#[scale_info(skip_type_params(T))]
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pub struct Environment<T: Config> {
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account_id: EnvironmentType<AccountIdOf<T>>,
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balance: EnvironmentType<BalanceOf<T>>,
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hash: EnvironmentType<<T as frame_system::Config>::Hash>,
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hasher: EnvironmentType<<T as frame_system::Config>::Hashing>,
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timestamp: EnvironmentType<MomentOf<T>>,
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block_number: EnvironmentType<BlockNumberFor<T>>,
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}
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/// Defines the current version of the HostFn APIs.
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/// This is used to communicate the available APIs in pallet-contracts.
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///
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/// The version is bumped any time a new HostFn is added or stabilized.
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#[derive(Encode, Decode, TypeInfo)]
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pub struct ApiVersion(u16);
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impl Default for ApiVersion {
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fn default() -> Self {
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Self(2)
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}
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}
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#[test]
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fn api_version_is_up_to_date() {
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assert_eq!(
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109,
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crate::wasm::STABLE_API_COUNT,
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"Stable API count has changed. Bump the returned value of ApiVersion::default() and update the test."
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);
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}
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#[frame_support::pallet]
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pub mod pallet {
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use super::*;
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use crate::debug::Debugger;
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use frame_support::pallet_prelude::*;
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use frame_system::pallet_prelude::*;
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use sp_runtime::Perbill;
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/// The in-code storage version.
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pub(crate) const STORAGE_VERSION: StorageVersion = StorageVersion::new(15);
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#[pallet::pallet]
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#[pallet::storage_version(STORAGE_VERSION)]
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pub struct Pallet<T>(_);
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#[pallet::config]
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pub trait Config: frame_system::Config {
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/// The time implementation used to supply timestamps to contracts through `seal_now`.
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type Time: Time;
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/// The generator used to supply randomness to contracts through `seal_random`.
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///
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/// # Deprecated
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///
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/// Codes using the randomness functionality cannot be uploaded. Neither can contracts
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/// be instantiated from existing codes that use this deprecated functionality. It will
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/// be removed eventually. Hence for new `pallet-contracts` deployments it is okay
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/// to supply a dummy implementation for this type (because it is never used).
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type Randomness: Randomness<Self::Hash, BlockNumberFor<Self>>;
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/// The fungible in which fees are paid and contract balances are held.
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type Currency: Inspect<Self::AccountId>
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+ Mutate<Self::AccountId>
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+ MutateHold<Self::AccountId, Reason = Self::RuntimeHoldReason>;
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/// The overarching event type.
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type RuntimeEvent: From<Event<Self>> + IsType<<Self as frame_system::Config>::RuntimeEvent>;
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/// The overarching call type.
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type RuntimeCall: Dispatchable<RuntimeOrigin = Self::RuntimeOrigin, PostInfo = PostDispatchInfo>
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+ GetDispatchInfo
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+ codec::Decode
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+ IsType<<Self as frame_system::Config>::RuntimeCall>;
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/// Filter that is applied to calls dispatched by contracts.
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///
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/// Use this filter to control which dispatchables are callable by contracts.
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/// This is applied in **addition** to [`frame_system::Config::BaseCallFilter`].
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/// It is recommended to treat this as a whitelist.
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///
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/// # Stability
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///
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/// The runtime **must** make sure that all dispatchables that are callable by
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/// contracts remain stable. In addition [`Self::RuntimeCall`] itself must remain stable.
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/// This means that no existing variants are allowed to switch their positions.
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///
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/// # Note
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///
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/// Note that dispatchables that are called via contracts do not spawn their
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/// own wasm instance for each call (as opposed to when called via a transaction).
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/// Therefore please make sure to be restrictive about which dispatchables are allowed
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/// in order to not introduce a new DoS vector like memory allocation patterns that can
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/// be exploited to drive the runtime into a panic.
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///
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/// This filter does not apply to XCM transact calls. To impose restrictions on XCM transact
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/// calls, you must configure them separately within the XCM pallet itself.
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type CallFilter: Contains<<Self as frame_system::Config>::RuntimeCall>;
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/// Used to answer contracts' queries regarding the current weight price. This is **not**
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/// used to calculate the actual fee and is only for informational purposes.
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type WeightPrice: Convert<Weight, BalanceOf<Self>>;
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/// Describes the weights of the dispatchables of this module and is also used to
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/// construct a default cost schedule.
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type WeightInfo: WeightInfo;
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/// Type that allows the runtime authors to add new host functions for a contract to call.
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type ChainExtension: chain_extension::ChainExtension<Self> + Default;
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/// Cost schedule and limits.
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#[pallet::constant]
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type Schedule: Get<Schedule<Self>>;
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/// The type of the call stack determines the maximum nesting depth of contract calls.
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///
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/// The allowed depth is `CallStack::size() + 1`.
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/// Therefore a size of `0` means that a contract cannot use call or instantiate.
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/// In other words only the origin called "root contract" is allowed to execute then.
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///
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/// This setting along with [`MaxCodeLen`](#associatedtype.MaxCodeLen) directly affects
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/// memory usage of your runtime.
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type CallStack: Array<Item = Frame<Self>>;
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/// The amount of balance a caller has to pay for each byte of storage.
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///
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/// # Note
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///
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/// Changing this value for an existing chain might need a storage migration.
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#[pallet::constant]
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type DepositPerByte: Get<BalanceOf<Self>>;
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/// Fallback value to limit the storage deposit if it's not being set by the caller.
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#[pallet::constant]
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type DefaultDepositLimit: Get<BalanceOf<Self>>;
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/// The amount of balance a caller has to pay for each storage item.
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///
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/// # Note
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///
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/// Changing this value for an existing chain might need a storage migration.
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#[pallet::constant]
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type DepositPerItem: Get<BalanceOf<Self>>;
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/// The percentage of the storage deposit that should be held for using a code hash.
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/// Instantiating a contract, or calling [`chain_extension::Ext::lock_delegate_dependency`]
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/// protects the code from being removed. In order to prevent abuse these actions are
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/// protected with a percentage of the code deposit.
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#[pallet::constant]
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type CodeHashLockupDepositPercent: Get<Perbill>;
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/// The address generator used to generate the addresses of contracts.
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type AddressGenerator: AddressGenerator<Self>;
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/// The maximum length of a contract code in bytes.
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///
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/// The value should be chosen carefully taking into the account the overall memory limit
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/// your runtime has, as well as the [maximum allowed callstack
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/// depth](#associatedtype.CallStack). Look into the `integrity_test()` for some insights.
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#[pallet::constant]
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type MaxCodeLen: Get<u32>;
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/// The maximum allowable length in bytes for storage keys.
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#[pallet::constant]
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type MaxStorageKeyLen: Get<u32>;
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/// The maximum number of delegate_dependencies that a contract can lock with
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/// [`chain_extension::Ext::lock_delegate_dependency`].
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#[pallet::constant]
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type MaxDelegateDependencies: Get<u32>;
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/// Make contract callable functions marked as `#[unstable]` available.
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///
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/// Contracts that use `#[unstable]` functions won't be able to be uploaded unless
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/// this is set to `true`. This is only meant for testnets and dev nodes in order to
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/// experiment with new features.
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///
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/// # Warning
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///
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/// Do **not** set to `true` on productions chains.
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#[pallet::constant]
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type UnsafeUnstableInterface: Get<bool>;
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/// The maximum length of the debug buffer in bytes.
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#[pallet::constant]
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type MaxDebugBufferLen: Get<u32>;
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/// Origin allowed to upload code.
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///
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/// By default, it is safe to set this to `EnsureSigned`, allowing anyone to upload contract
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/// code.
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type UploadOrigin: EnsureOrigin<Self::RuntimeOrigin, Success = Self::AccountId>;
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/// Origin allowed to instantiate code.
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///
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/// # Note
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///
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/// This is not enforced when a contract instantiates another contract. The
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/// [`Self::UploadOrigin`] should make sure that no code is deployed that does unwanted
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/// instantiations.
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///
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/// By default, it is safe to set this to `EnsureSigned`, allowing anyone to instantiate
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/// contract code.
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type InstantiateOrigin: EnsureOrigin<Self::RuntimeOrigin, Success = Self::AccountId>;
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/// Overarching hold reason.
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type RuntimeHoldReason: From<HoldReason>;
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/// The sequence of migration steps that will be applied during a migration.
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///
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/// # Examples
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/// ```
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/// use pallet_contracts::migration::{v10, v11};
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/// # struct Runtime {};
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/// # struct Currency {};
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/// type Migrations = (v10::Migration<Runtime, Currency>, v11::Migration<Runtime>);
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/// ```
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///
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/// If you have a single migration step, you can use a tuple with a single element:
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/// ```
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/// use pallet_contracts::migration::v10;
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/// # struct Runtime {};
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/// # struct Currency {};
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/// type Migrations = (v10::Migration<Runtime, Currency>,);
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/// ```
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type Migrations: MigrateSequence;
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/// # Note
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/// For most production chains, it's recommended to use the `()` implementation of this
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/// trait. This implementation offers additional logging when the log target
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/// "runtime::contracts" is set to trace.
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type Debug: Debugger<Self>;
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/// Type that bundles together all the runtime configurable interface types.
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///
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/// This is not a real config. We just mention the type here as constant so that
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/// its type appears in the metadata. Only valid value is `()`.
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#[pallet::constant]
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type Environment: Get<Environment<Self>>;
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/// The version of the HostFn APIs that are available in the runtime.
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///
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/// Only valid value is `()`.
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#[pallet::constant]
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type ApiVersion: Get<ApiVersion>;
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/// A type that exposes XCM APIs, allowing contracts to interact with other parachains, and
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/// execute XCM programs.
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type Xcm: xcm_builder::Controller<
|
|
OriginFor<Self>,
|
|
<Self as frame_system::Config>::RuntimeCall,
|
|
BlockNumberFor<Self>,
|
|
>;
|
|
}
|
|
|
|
#[pallet::hooks]
|
|
impl<T: Config> Hooks<BlockNumberFor<T>> for Pallet<T> {
|
|
fn on_idle(_block: BlockNumberFor<T>, mut remaining_weight: Weight) -> Weight {
|
|
use migration::MigrateResult::*;
|
|
|
|
loop {
|
|
let (result, weight) = Migration::<T>::migrate(remaining_weight);
|
|
remaining_weight.saturating_reduce(weight);
|
|
|
|
match result {
|
|
// There is not enough weight to perform a migration, or make any progress, we
|
|
// just return the remaining weight.
|
|
NoMigrationPerformed | InProgress { steps_done: 0 } => return remaining_weight,
|
|
// Migration is still in progress, we can start the next step.
|
|
InProgress { .. } => continue,
|
|
// Either no migration is in progress, or we are done with all migrations, we
|
|
// can do some more other work with the remaining weight.
|
|
Completed | NoMigrationInProgress => break,
|
|
}
|
|
}
|
|
|
|
ContractInfo::<T>::process_deletion_queue_batch(remaining_weight)
|
|
.saturating_add(T::WeightInfo::on_process_deletion_queue_batch())
|
|
}
|
|
|
|
fn integrity_test() {
|
|
Migration::<T>::integrity_test();
|
|
|
|
// Total runtime memory limit
|
|
let max_runtime_mem: u32 = T::Schedule::get().limits.runtime_memory;
|
|
// Memory limits for a single contract:
|
|
// Value stack size: 1Mb per contract, default defined in wasmi
|
|
const MAX_STACK_SIZE: u32 = 1024 * 1024;
|
|
// Heap limit is normally 16 mempages of 64kb each = 1Mb per contract
|
|
let max_heap_size = T::Schedule::get().limits.max_memory_size();
|
|
// Max call depth is CallStack::size() + 1
|
|
let max_call_depth = u32::try_from(T::CallStack::size().saturating_add(1))
|
|
.expect("CallStack size is too big");
|
|
|
|
// Check that given configured `MaxCodeLen`, runtime heap memory limit can't be broken.
|
|
//
|
|
// In worst case, the decoded Wasm contract code would be `x16` times larger than the
|
|
// encoded one. This is because even a single-byte wasm instruction has 16-byte size in
|
|
// wasmi. This gives us `MaxCodeLen*16` safety margin.
|
|
//
|
|
// Next, the pallet keeps the Wasm blob for each
|
|
// contract, hence we add up `MaxCodeLen` to the safety margin.
|
|
//
|
|
// Finally, the inefficiencies of the freeing-bump allocator
|
|
// being used in the client for the runtime memory allocations, could lead to possible
|
|
// memory allocations for contract code grow up to `x4` times in some extreme cases,
|
|
// which gives us total multiplier of `17*4` for `MaxCodeLen`.
|
|
//
|
|
// That being said, for every contract executed in runtime, at least `MaxCodeLen*17*4`
|
|
// memory should be available. Note that maximum allowed heap memory and stack size per
|
|
// each contract (stack frame) should also be counted.
|
|
//
|
|
// Finally, we allow 50% of the runtime memory to be utilized by the contracts call
|
|
// stack, keeping the rest for other facilities, such as PoV, etc.
|
|
//
|
|
// This gives us the following formula:
|
|
//
|
|
// `(MaxCodeLen * 17 * 4 + MAX_STACK_SIZE + max_heap_size) * max_call_depth <
|
|
// max_runtime_mem/2`
|
|
//
|
|
// Hence the upper limit for the `MaxCodeLen` can be defined as follows:
|
|
let code_len_limit = max_runtime_mem
|
|
.saturating_div(2)
|
|
.saturating_div(max_call_depth)
|
|
.saturating_sub(max_heap_size)
|
|
.saturating_sub(MAX_STACK_SIZE)
|
|
.saturating_div(17 * 4);
|
|
|
|
assert!(
|
|
T::MaxCodeLen::get() < code_len_limit,
|
|
"Given `CallStack` height {:?}, `MaxCodeLen` should be set less than {:?} \
|
|
(current value is {:?}), to avoid possible runtime oom issues.",
|
|
max_call_depth,
|
|
code_len_limit,
|
|
T::MaxCodeLen::get(),
|
|
);
|
|
|
|
// Debug buffer should at least be large enough to accommodate a simple error message
|
|
const MIN_DEBUG_BUF_SIZE: u32 = 256;
|
|
assert!(
|
|
T::MaxDebugBufferLen::get() > MIN_DEBUG_BUF_SIZE,
|
|
"Debug buffer should have minimum size of {} (current setting is {})",
|
|
MIN_DEBUG_BUF_SIZE,
|
|
T::MaxDebugBufferLen::get(),
|
|
)
|
|
}
|
|
}
|
|
|
|
#[pallet::call]
|
|
impl<T: Config> Pallet<T>
|
|
where
|
|
<BalanceOf<T> as HasCompact>::Type: Clone + Eq + PartialEq + Debug + TypeInfo + Encode,
|
|
{
|
|
/// Deprecated version if [`Self::call`] for use in an in-storage `Call`.
|
|
#[pallet::call_index(0)]
|
|
#[pallet::weight(T::WeightInfo::call().saturating_add(<Pallet<T>>::compat_weight_limit(*gas_limit)))]
|
|
#[allow(deprecated)]
|
|
#[deprecated(note = "1D weight is used in this extrinsic, please migrate to `call`")]
|
|
pub fn call_old_weight(
|
|
origin: OriginFor<T>,
|
|
dest: AccountIdLookupOf<T>,
|
|
#[pallet::compact] value: BalanceOf<T>,
|
|
#[pallet::compact] gas_limit: OldWeight,
|
|
storage_deposit_limit: Option<<BalanceOf<T> as codec::HasCompact>::Type>,
|
|
data: Vec<u8>,
|
|
) -> DispatchResultWithPostInfo {
|
|
Self::call(
|
|
origin,
|
|
dest,
|
|
value,
|
|
<Pallet<T>>::compat_weight_limit(gas_limit),
|
|
storage_deposit_limit,
|
|
data,
|
|
)
|
|
}
|
|
|
|
/// Deprecated version if [`Self::instantiate_with_code`] for use in an in-storage `Call`.
|
|
#[pallet::call_index(1)]
|
|
#[pallet::weight(
|
|
T::WeightInfo::instantiate_with_code(code.len() as u32, data.len() as u32, salt.len() as u32)
|
|
.saturating_add(<Pallet<T>>::compat_weight_limit(*gas_limit))
|
|
)]
|
|
#[allow(deprecated)]
|
|
#[deprecated(
|
|
note = "1D weight is used in this extrinsic, please migrate to `instantiate_with_code`"
|
|
)]
|
|
pub fn instantiate_with_code_old_weight(
|
|
origin: OriginFor<T>,
|
|
#[pallet::compact] value: BalanceOf<T>,
|
|
#[pallet::compact] gas_limit: OldWeight,
|
|
storage_deposit_limit: Option<<BalanceOf<T> as codec::HasCompact>::Type>,
|
|
code: Vec<u8>,
|
|
data: Vec<u8>,
|
|
salt: Vec<u8>,
|
|
) -> DispatchResultWithPostInfo {
|
|
Self::instantiate_with_code(
|
|
origin,
|
|
value,
|
|
<Pallet<T>>::compat_weight_limit(gas_limit),
|
|
storage_deposit_limit,
|
|
code,
|
|
data,
|
|
salt,
|
|
)
|
|
}
|
|
|
|
/// Deprecated version if [`Self::instantiate`] for use in an in-storage `Call`.
|
|
#[pallet::call_index(2)]
|
|
#[pallet::weight(
|
|
T::WeightInfo::instantiate(data.len() as u32, salt.len() as u32).saturating_add(<Pallet<T>>::compat_weight_limit(*gas_limit))
|
|
)]
|
|
#[allow(deprecated)]
|
|
#[deprecated(note = "1D weight is used in this extrinsic, please migrate to `instantiate`")]
|
|
pub fn instantiate_old_weight(
|
|
origin: OriginFor<T>,
|
|
#[pallet::compact] value: BalanceOf<T>,
|
|
#[pallet::compact] gas_limit: OldWeight,
|
|
storage_deposit_limit: Option<<BalanceOf<T> as codec::HasCompact>::Type>,
|
|
code_hash: CodeHash<T>,
|
|
data: Vec<u8>,
|
|
salt: Vec<u8>,
|
|
) -> DispatchResultWithPostInfo {
|
|
Self::instantiate(
|
|
origin,
|
|
value,
|
|
<Pallet<T>>::compat_weight_limit(gas_limit),
|
|
storage_deposit_limit,
|
|
code_hash,
|
|
data,
|
|
salt,
|
|
)
|
|
}
|
|
|
|
/// Upload new `code` without instantiating a contract from it.
|
|
///
|
|
/// If the code does not already exist a deposit is reserved from the caller
|
|
/// and unreserved only when [`Self::remove_code`] is called. The size of the reserve
|
|
/// depends on the size of the supplied `code`.
|
|
///
|
|
/// If the code already exists in storage it will still return `Ok` and upgrades
|
|
/// the in storage version to the current
|
|
/// [`InstructionWeights::version`](InstructionWeights).
|
|
///
|
|
/// - `determinism`: If this is set to any other value but [`Determinism::Enforced`] then
|
|
/// the only way to use this code is to delegate call into it from an offchain execution.
|
|
/// Set to [`Determinism::Enforced`] if in doubt.
|
|
///
|
|
/// # Note
|
|
///
|
|
/// Anyone can instantiate a contract from any uploaded code and thus prevent its removal.
|
|
/// To avoid this situation a constructor could employ access control so that it can
|
|
/// only be instantiated by permissioned entities. The same is true when uploading
|
|
/// through [`Self::instantiate_with_code`].
|
|
///
|
|
/// Use [`Determinism::Relaxed`] exclusively for non-deterministic code. If the uploaded
|
|
/// code is deterministic, specifying [`Determinism::Relaxed`] will be disregarded and
|
|
/// result in higher gas costs.
|
|
#[pallet::call_index(3)]
|
|
#[pallet::weight(
|
|
match determinism {
|
|
Determinism::Enforced => T::WeightInfo::upload_code_determinism_enforced(code.len() as u32),
|
|
Determinism::Relaxed => T::WeightInfo::upload_code_determinism_relaxed(code.len() as u32),
|
|
}
|
|
)]
|
|
pub fn upload_code(
|
|
origin: OriginFor<T>,
|
|
code: Vec<u8>,
|
|
storage_deposit_limit: Option<<BalanceOf<T> as codec::HasCompact>::Type>,
|
|
determinism: Determinism,
|
|
) -> DispatchResult {
|
|
Migration::<T>::ensure_migrated()?;
|
|
let origin = T::UploadOrigin::ensure_origin(origin)?;
|
|
Self::bare_upload_code(origin, code, storage_deposit_limit.map(Into::into), determinism)
|
|
.map(|_| ())
|
|
}
|
|
|
|
/// Remove the code stored under `code_hash` and refund the deposit to its owner.
|
|
///
|
|
/// A code can only be removed by its original uploader (its owner) and only if it is
|
|
/// not used by any contract.
|
|
#[pallet::call_index(4)]
|
|
#[pallet::weight(T::WeightInfo::remove_code())]
|
|
pub fn remove_code(
|
|
origin: OriginFor<T>,
|
|
code_hash: CodeHash<T>,
|
|
) -> DispatchResultWithPostInfo {
|
|
Migration::<T>::ensure_migrated()?;
|
|
let origin = ensure_signed(origin)?;
|
|
<WasmBlob<T>>::remove(&origin, code_hash)?;
|
|
// we waive the fee because removing unused code is beneficial
|
|
Ok(Pays::No.into())
|
|
}
|
|
|
|
/// Privileged function that changes the code of an existing contract.
|
|
///
|
|
/// This takes care of updating refcounts and all other necessary operations. Returns
|
|
/// an error if either the `code_hash` or `dest` do not exist.
|
|
///
|
|
/// # Note
|
|
///
|
|
/// This does **not** change the address of the contract in question. This means
|
|
/// that the contract address is no longer derived from its code hash after calling
|
|
/// this dispatchable.
|
|
#[pallet::call_index(5)]
|
|
#[pallet::weight(T::WeightInfo::set_code())]
|
|
pub fn set_code(
|
|
origin: OriginFor<T>,
|
|
dest: AccountIdLookupOf<T>,
|
|
code_hash: CodeHash<T>,
|
|
) -> DispatchResult {
|
|
Migration::<T>::ensure_migrated()?;
|
|
ensure_root(origin)?;
|
|
let dest = T::Lookup::lookup(dest)?;
|
|
<ContractInfoOf<T>>::try_mutate(&dest, |contract| {
|
|
let contract = if let Some(contract) = contract {
|
|
contract
|
|
} else {
|
|
return Err(<Error<T>>::ContractNotFound.into())
|
|
};
|
|
<ExecStack<T, WasmBlob<T>>>::increment_refcount(code_hash)?;
|
|
<ExecStack<T, WasmBlob<T>>>::decrement_refcount(contract.code_hash);
|
|
Self::deposit_event(
|
|
vec![T::Hashing::hash_of(&dest), code_hash, contract.code_hash],
|
|
Event::ContractCodeUpdated {
|
|
contract: dest.clone(),
|
|
new_code_hash: code_hash,
|
|
old_code_hash: contract.code_hash,
|
|
},
|
|
);
|
|
contract.code_hash = code_hash;
|
|
Ok(())
|
|
})
|
|
}
|
|
|
|
/// Makes a call to an account, optionally transferring some balance.
|
|
///
|
|
/// # Parameters
|
|
///
|
|
/// * `dest`: Address of the contract to call.
|
|
/// * `value`: The balance to transfer from the `origin` to `dest`.
|
|
/// * `gas_limit`: The gas limit enforced when executing the constructor.
|
|
/// * `storage_deposit_limit`: The maximum amount of balance that can be charged from the
|
|
/// caller to pay for the storage consumed.
|
|
/// * `data`: The input data to pass to the contract.
|
|
///
|
|
/// * If the account is a smart-contract account, the associated code will be
|
|
/// executed and any value will be transferred.
|
|
/// * If the account is a regular account, any value will be transferred.
|
|
/// * If no account exists and the call value is not less than `existential_deposit`,
|
|
/// a regular account will be created and any value will be transferred.
|
|
#[pallet::call_index(6)]
|
|
#[pallet::weight(T::WeightInfo::call().saturating_add(*gas_limit))]
|
|
pub fn call(
|
|
origin: OriginFor<T>,
|
|
dest: AccountIdLookupOf<T>,
|
|
#[pallet::compact] value: BalanceOf<T>,
|
|
gas_limit: Weight,
|
|
storage_deposit_limit: Option<<BalanceOf<T> as codec::HasCompact>::Type>,
|
|
data: Vec<u8>,
|
|
) -> DispatchResultWithPostInfo {
|
|
Migration::<T>::ensure_migrated()?;
|
|
let common = CommonInput {
|
|
origin: Origin::from_runtime_origin(origin)?,
|
|
value,
|
|
data,
|
|
gas_limit: gas_limit.into(),
|
|
storage_deposit_limit: storage_deposit_limit.map(Into::into),
|
|
debug_message: None,
|
|
};
|
|
let dest = T::Lookup::lookup(dest)?;
|
|
let mut output =
|
|
CallInput::<T> { dest, determinism: Determinism::Enforced }.run_guarded(common);
|
|
if let Ok(retval) = &output.result {
|
|
if retval.did_revert() {
|
|
output.result = Err(<Error<T>>::ContractReverted.into());
|
|
}
|
|
}
|
|
output.gas_meter.into_dispatch_result(output.result, T::WeightInfo::call())
|
|
}
|
|
|
|
/// Instantiates a new contract from the supplied `code` optionally transferring
|
|
/// some balance.
|
|
///
|
|
/// This dispatchable has the same effect as calling [`Self::upload_code`] +
|
|
/// [`Self::instantiate`]. Bundling them together provides efficiency gains. Please
|
|
/// also check the documentation of [`Self::upload_code`].
|
|
///
|
|
/// # Parameters
|
|
///
|
|
/// * `value`: The balance to transfer from the `origin` to the newly created contract.
|
|
/// * `gas_limit`: The gas limit enforced when executing the constructor.
|
|
/// * `storage_deposit_limit`: The maximum amount of balance that can be charged/reserved
|
|
/// from the caller to pay for the storage consumed.
|
|
/// * `code`: The contract code to deploy in raw bytes.
|
|
/// * `data`: The input data to pass to the contract constructor.
|
|
/// * `salt`: Used for the address derivation. See [`Pallet::contract_address`].
|
|
///
|
|
/// Instantiation is executed as follows:
|
|
///
|
|
/// - The supplied `code` is deployed, and a `code_hash` is created for that code.
|
|
/// - If the `code_hash` already exists on the chain the underlying `code` will be shared.
|
|
/// - The destination address is computed based on the sender, code_hash and the salt.
|
|
/// - The smart-contract account is created at the computed address.
|
|
/// - The `value` is transferred to the new account.
|
|
/// - The `deploy` function is executed in the context of the newly-created account.
|
|
#[pallet::call_index(7)]
|
|
#[pallet::weight(
|
|
T::WeightInfo::instantiate_with_code(code.len() as u32, data.len() as u32, salt.len() as u32)
|
|
.saturating_add(*gas_limit)
|
|
)]
|
|
pub fn instantiate_with_code(
|
|
origin: OriginFor<T>,
|
|
#[pallet::compact] value: BalanceOf<T>,
|
|
gas_limit: Weight,
|
|
storage_deposit_limit: Option<<BalanceOf<T> as codec::HasCompact>::Type>,
|
|
code: Vec<u8>,
|
|
data: Vec<u8>,
|
|
salt: Vec<u8>,
|
|
) -> DispatchResultWithPostInfo {
|
|
Migration::<T>::ensure_migrated()?;
|
|
|
|
// These two origins will usually be the same; however, we treat them as separate since
|
|
// it is possible for the `Success` value of `UploadOrigin` and `InstantiateOrigin` to
|
|
// differ.
|
|
let upload_origin = T::UploadOrigin::ensure_origin(origin.clone())?;
|
|
let instantiate_origin = T::InstantiateOrigin::ensure_origin(origin)?;
|
|
|
|
let code_len = code.len() as u32;
|
|
|
|
let (module, upload_deposit) = Self::try_upload_code(
|
|
upload_origin,
|
|
code,
|
|
storage_deposit_limit.clone().map(Into::into),
|
|
Determinism::Enforced,
|
|
None,
|
|
)?;
|
|
|
|
// Reduces the storage deposit limit by the amount that was reserved for the upload.
|
|
let storage_deposit_limit =
|
|
storage_deposit_limit.map(|limit| limit.into().saturating_sub(upload_deposit));
|
|
|
|
let data_len = data.len() as u32;
|
|
let salt_len = salt.len() as u32;
|
|
let common = CommonInput {
|
|
origin: Origin::from_account_id(instantiate_origin),
|
|
value,
|
|
data,
|
|
gas_limit,
|
|
storage_deposit_limit,
|
|
debug_message: None,
|
|
};
|
|
|
|
let mut output =
|
|
InstantiateInput::<T> { code: WasmCode::Wasm(module), salt }.run_guarded(common);
|
|
if let Ok(retval) = &output.result {
|
|
if retval.1.did_revert() {
|
|
output.result = Err(<Error<T>>::ContractReverted.into());
|
|
}
|
|
}
|
|
|
|
output.gas_meter.into_dispatch_result(
|
|
output.result.map(|(_address, output)| output),
|
|
T::WeightInfo::instantiate_with_code(code_len, data_len, salt_len),
|
|
)
|
|
}
|
|
|
|
/// Instantiates a contract from a previously deployed wasm binary.
|
|
///
|
|
/// This function is identical to [`Self::instantiate_with_code`] but without the
|
|
/// code deployment step. Instead, the `code_hash` of an on-chain deployed wasm binary
|
|
/// must be supplied.
|
|
#[pallet::call_index(8)]
|
|
#[pallet::weight(
|
|
T::WeightInfo::instantiate(data.len() as u32, salt.len() as u32).saturating_add(*gas_limit)
|
|
)]
|
|
pub fn instantiate(
|
|
origin: OriginFor<T>,
|
|
#[pallet::compact] value: BalanceOf<T>,
|
|
gas_limit: Weight,
|
|
storage_deposit_limit: Option<<BalanceOf<T> as codec::HasCompact>::Type>,
|
|
code_hash: CodeHash<T>,
|
|
data: Vec<u8>,
|
|
salt: Vec<u8>,
|
|
) -> DispatchResultWithPostInfo {
|
|
Migration::<T>::ensure_migrated()?;
|
|
let origin = T::InstantiateOrigin::ensure_origin(origin)?;
|
|
let data_len = data.len() as u32;
|
|
let salt_len = salt.len() as u32;
|
|
let common = CommonInput {
|
|
origin: Origin::from_account_id(origin),
|
|
value,
|
|
data,
|
|
gas_limit,
|
|
storage_deposit_limit: storage_deposit_limit.map(Into::into),
|
|
debug_message: None,
|
|
};
|
|
let mut output = InstantiateInput::<T> { code: WasmCode::CodeHash(code_hash), salt }
|
|
.run_guarded(common);
|
|
if let Ok(retval) = &output.result {
|
|
if retval.1.did_revert() {
|
|
output.result = Err(<Error<T>>::ContractReverted.into());
|
|
}
|
|
}
|
|
output.gas_meter.into_dispatch_result(
|
|
output.result.map(|(_address, output)| output),
|
|
T::WeightInfo::instantiate(data_len, salt_len),
|
|
)
|
|
}
|
|
|
|
/// When a migration is in progress, this dispatchable can be used to run migration steps.
|
|
/// Calls that contribute to advancing the migration have their fees waived, as it's helpful
|
|
/// for the chain. Note that while the migration is in progress, the pallet will also
|
|
/// leverage the `on_idle` hooks to run migration steps.
|
|
#[pallet::call_index(9)]
|
|
#[pallet::weight(T::WeightInfo::migrate().saturating_add(*weight_limit))]
|
|
pub fn migrate(origin: OriginFor<T>, weight_limit: Weight) -> DispatchResultWithPostInfo {
|
|
use migration::MigrateResult::*;
|
|
ensure_signed(origin)?;
|
|
|
|
let weight_limit = weight_limit.saturating_add(T::WeightInfo::migrate());
|
|
let (result, weight) = Migration::<T>::migrate(weight_limit);
|
|
|
|
match result {
|
|
Completed =>
|
|
Ok(PostDispatchInfo { actual_weight: Some(weight), pays_fee: Pays::No }),
|
|
InProgress { steps_done, .. } if steps_done > 0 =>
|
|
Ok(PostDispatchInfo { actual_weight: Some(weight), pays_fee: Pays::No }),
|
|
InProgress { .. } =>
|
|
Ok(PostDispatchInfo { actual_weight: Some(weight), pays_fee: Pays::Yes }),
|
|
NoMigrationInProgress | NoMigrationPerformed => {
|
|
let err: DispatchError = <Error<T>>::NoMigrationPerformed.into();
|
|
Err(err.with_weight(T::WeightInfo::migrate()))
|
|
},
|
|
}
|
|
}
|
|
}
|
|
|
|
#[pallet::event]
|
|
pub enum Event<T: Config> {
|
|
/// Contract deployed by address at the specified address.
|
|
Instantiated { deployer: T::AccountId, contract: T::AccountId },
|
|
|
|
/// Contract has been removed.
|
|
///
|
|
/// # Note
|
|
///
|
|
/// The only way for a contract to be removed and emitting this event is by calling
|
|
/// `seal_terminate`.
|
|
Terminated {
|
|
/// The contract that was terminated.
|
|
contract: T::AccountId,
|
|
/// The account that received the contracts remaining balance
|
|
beneficiary: T::AccountId,
|
|
},
|
|
|
|
/// Code with the specified hash has been stored.
|
|
CodeStored { code_hash: T::Hash, deposit_held: BalanceOf<T>, uploader: T::AccountId },
|
|
|
|
/// A custom event emitted by the contract.
|
|
ContractEmitted {
|
|
/// The contract that emitted the event.
|
|
contract: T::AccountId,
|
|
/// Data supplied by the contract. Metadata generated during contract compilation
|
|
/// is needed to decode it.
|
|
data: Vec<u8>,
|
|
},
|
|
|
|
/// A code with the specified hash was removed.
|
|
CodeRemoved { code_hash: T::Hash, deposit_released: BalanceOf<T>, remover: T::AccountId },
|
|
|
|
/// A contract's code was updated.
|
|
ContractCodeUpdated {
|
|
/// The contract that has been updated.
|
|
contract: T::AccountId,
|
|
/// New code hash that was set for the contract.
|
|
new_code_hash: T::Hash,
|
|
/// Previous code hash of the contract.
|
|
old_code_hash: T::Hash,
|
|
},
|
|
|
|
/// A contract was called either by a plain account or another contract.
|
|
///
|
|
/// # Note
|
|
///
|
|
/// Please keep in mind that like all events this is only emitted for successful
|
|
/// calls. This is because on failure all storage changes including events are
|
|
/// rolled back.
|
|
Called {
|
|
/// The caller of the `contract`.
|
|
caller: Origin<T>,
|
|
/// The contract that was called.
|
|
contract: T::AccountId,
|
|
},
|
|
|
|
/// A contract delegate called a code hash.
|
|
///
|
|
/// # Note
|
|
///
|
|
/// Please keep in mind that like all events this is only emitted for successful
|
|
/// calls. This is because on failure all storage changes including events are
|
|
/// rolled back.
|
|
DelegateCalled {
|
|
/// The contract that performed the delegate call and hence in whose context
|
|
/// the `code_hash` is executed.
|
|
contract: T::AccountId,
|
|
/// The code hash that was delegate called.
|
|
code_hash: CodeHash<T>,
|
|
},
|
|
|
|
/// Some funds have been transferred and held as storage deposit.
|
|
StorageDepositTransferredAndHeld {
|
|
from: T::AccountId,
|
|
to: T::AccountId,
|
|
amount: BalanceOf<T>,
|
|
},
|
|
|
|
/// Some storage deposit funds have been transferred and released.
|
|
StorageDepositTransferredAndReleased {
|
|
from: T::AccountId,
|
|
to: T::AccountId,
|
|
amount: BalanceOf<T>,
|
|
},
|
|
}
|
|
|
|
#[pallet::error]
|
|
pub enum Error<T> {
|
|
/// Invalid schedule supplied, e.g. with zero weight of a basic operation.
|
|
InvalidSchedule,
|
|
/// Invalid combination of flags supplied to `seal_call` or `seal_delegate_call`.
|
|
InvalidCallFlags,
|
|
/// The executed contract exhausted its gas limit.
|
|
OutOfGas,
|
|
/// The output buffer supplied to a contract API call was too small.
|
|
OutputBufferTooSmall,
|
|
/// Performing the requested transfer failed. Probably because there isn't enough
|
|
/// free balance in the sender's account.
|
|
TransferFailed,
|
|
/// Performing a call was denied because the calling depth reached the limit
|
|
/// of what is specified in the schedule.
|
|
MaxCallDepthReached,
|
|
/// No contract was found at the specified address.
|
|
ContractNotFound,
|
|
/// The code supplied to `instantiate_with_code` exceeds the limit specified in the
|
|
/// current schedule.
|
|
CodeTooLarge,
|
|
/// No code could be found at the supplied code hash.
|
|
CodeNotFound,
|
|
/// No code info could be found at the supplied code hash.
|
|
CodeInfoNotFound,
|
|
/// A buffer outside of sandbox memory was passed to a contract API function.
|
|
OutOfBounds,
|
|
/// Input passed to a contract API function failed to decode as expected type.
|
|
DecodingFailed,
|
|
/// Contract trapped during execution.
|
|
ContractTrapped,
|
|
/// The size defined in `T::MaxValueSize` was exceeded.
|
|
ValueTooLarge,
|
|
/// Termination of a contract is not allowed while the contract is already
|
|
/// on the call stack. Can be triggered by `seal_terminate`.
|
|
TerminatedWhileReentrant,
|
|
/// `seal_call` forwarded this contracts input. It therefore is no longer available.
|
|
InputForwarded,
|
|
/// The subject passed to `seal_random` exceeds the limit.
|
|
RandomSubjectTooLong,
|
|
/// The amount of topics passed to `seal_deposit_events` exceeds the limit.
|
|
TooManyTopics,
|
|
/// The chain does not provide a chain extension. Calling the chain extension results
|
|
/// in this error. Note that this usually shouldn't happen as deploying such contracts
|
|
/// is rejected.
|
|
NoChainExtension,
|
|
/// Failed to decode the XCM program.
|
|
XCMDecodeFailed,
|
|
/// A contract with the same AccountId already exists.
|
|
DuplicateContract,
|
|
/// A contract self destructed in its constructor.
|
|
///
|
|
/// This can be triggered by a call to `seal_terminate`.
|
|
TerminatedInConstructor,
|
|
/// A call tried to invoke a contract that is flagged as non-reentrant.
|
|
/// The only other cause is that a call from a contract into the runtime tried to call back
|
|
/// into `pallet-contracts`. This would make the whole pallet reentrant with regard to
|
|
/// contract code execution which is not supported.
|
|
ReentranceDenied,
|
|
/// Origin doesn't have enough balance to pay the required storage deposits.
|
|
StorageDepositNotEnoughFunds,
|
|
/// More storage was created than allowed by the storage deposit limit.
|
|
StorageDepositLimitExhausted,
|
|
/// Code removal was denied because the code is still in use by at least one contract.
|
|
CodeInUse,
|
|
/// The contract ran to completion but decided to revert its storage changes.
|
|
/// Please note that this error is only returned from extrinsics. When called directly
|
|
/// or via RPC an `Ok` will be returned. In this case the caller needs to inspect the flags
|
|
/// to determine whether a reversion has taken place.
|
|
ContractReverted,
|
|
/// The contract's code was found to be invalid during validation.
|
|
///
|
|
/// The most likely cause of this is that an API was used which is not supported by the
|
|
/// node. This happens if an older node is used with a new version of ink!. Try updating
|
|
/// your node to the newest available version.
|
|
///
|
|
/// A more detailed error can be found on the node console if debug messages are enabled
|
|
/// by supplying `-lruntime::contracts=debug`.
|
|
CodeRejected,
|
|
/// An indeterministic code was used in a context where this is not permitted.
|
|
Indeterministic,
|
|
/// A pending migration needs to complete before the extrinsic can be called.
|
|
MigrationInProgress,
|
|
/// Migrate dispatch call was attempted but no migration was performed.
|
|
NoMigrationPerformed,
|
|
/// The contract has reached its maximum number of delegate dependencies.
|
|
MaxDelegateDependenciesReached,
|
|
/// The dependency was not found in the contract's delegate dependencies.
|
|
DelegateDependencyNotFound,
|
|
/// The contract already depends on the given delegate dependency.
|
|
DelegateDependencyAlreadyExists,
|
|
/// Can not add a delegate dependency to the code hash of the contract itself.
|
|
CannotAddSelfAsDelegateDependency,
|
|
}
|
|
|
|
/// A reason for the pallet contracts placing a hold on funds.
|
|
#[pallet::composite_enum]
|
|
pub enum HoldReason {
|
|
/// The Pallet has reserved it for storing code on-chain.
|
|
CodeUploadDepositReserve,
|
|
/// The Pallet has reserved it for storage deposit.
|
|
StorageDepositReserve,
|
|
}
|
|
|
|
/// A mapping from a contract's code hash to its code.
|
|
#[pallet::storage]
|
|
pub(crate) type PristineCode<T: Config> = StorageMap<_, Identity, CodeHash<T>, CodeVec<T>>;
|
|
|
|
/// A mapping from a contract's code hash to its code info.
|
|
#[pallet::storage]
|
|
pub(crate) type CodeInfoOf<T: Config> = StorageMap<_, Identity, CodeHash<T>, CodeInfo<T>>;
|
|
|
|
/// This is a **monotonic** counter incremented on contract instantiation.
|
|
///
|
|
/// This is used in order to generate unique trie ids for contracts.
|
|
/// The trie id of a new contract is calculated from hash(account_id, nonce).
|
|
/// The nonce is required because otherwise the following sequence would lead to
|
|
/// a possible collision of storage:
|
|
///
|
|
/// 1. Create a new contract.
|
|
/// 2. Terminate the contract.
|
|
/// 3. Immediately recreate the contract with the same account_id.
|
|
///
|
|
/// This is bad because the contents of a trie are deleted lazily and there might be
|
|
/// storage of the old instantiation still in it when the new contract is created. Please
|
|
/// note that we can't replace the counter by the block number because the sequence above
|
|
/// can happen in the same block. We also can't keep the account counter in memory only
|
|
/// because storage is the only way to communicate across different extrinsics in the
|
|
/// same block.
|
|
///
|
|
/// # Note
|
|
///
|
|
/// Do not use it to determine the number of contracts. It won't be decremented if
|
|
/// a contract is destroyed.
|
|
#[pallet::storage]
|
|
pub(crate) type Nonce<T: Config> = StorageValue<_, u64, ValueQuery>;
|
|
|
|
/// The code associated with a given account.
|
|
///
|
|
/// TWOX-NOTE: SAFE since `AccountId` is a secure hash.
|
|
#[pallet::storage]
|
|
pub(crate) type ContractInfoOf<T: Config> =
|
|
StorageMap<_, Twox64Concat, T::AccountId, ContractInfo<T>>;
|
|
|
|
/// Evicted contracts that await child trie deletion.
|
|
///
|
|
/// Child trie deletion is a heavy operation depending on the amount of storage items
|
|
/// stored in said trie. Therefore this operation is performed lazily in `on_idle`.
|
|
#[pallet::storage]
|
|
pub(crate) type DeletionQueue<T: Config> = StorageMap<_, Twox64Concat, u32, TrieId>;
|
|
|
|
/// A pair of monotonic counters used to track the latest contract marked for deletion
|
|
/// and the latest deleted contract in queue.
|
|
#[pallet::storage]
|
|
pub(crate) type DeletionQueueCounter<T: Config> =
|
|
StorageValue<_, DeletionQueueManager<T>, ValueQuery>;
|
|
|
|
/// A migration can span across multiple blocks. This storage defines a cursor to track the
|
|
/// progress of the migration, enabling us to resume from the last completed position.
|
|
#[pallet::storage]
|
|
pub(crate) type MigrationInProgress<T: Config> =
|
|
StorageValue<_, migration::Cursor, OptionQuery>;
|
|
}
|
|
|
|
/// The type of origins supported by the contracts pallet.
|
|
#[derive(Clone, Encode, Decode, PartialEq, TypeInfo, RuntimeDebugNoBound)]
|
|
pub enum Origin<T: Config> {
|
|
Root,
|
|
Signed(T::AccountId),
|
|
}
|
|
|
|
impl<T: Config> Origin<T> {
|
|
/// Creates a new Signed Caller from an AccountId.
|
|
pub fn from_account_id(account_id: T::AccountId) -> Self {
|
|
Origin::Signed(account_id)
|
|
}
|
|
/// Creates a new Origin from a `RuntimeOrigin`.
|
|
pub fn from_runtime_origin(o: OriginFor<T>) -> Result<Self, DispatchError> {
|
|
match o.into() {
|
|
Ok(RawOrigin::Root) => Ok(Self::Root),
|
|
Ok(RawOrigin::Signed(t)) => Ok(Self::Signed(t)),
|
|
_ => Err(BadOrigin.into()),
|
|
}
|
|
}
|
|
/// Returns the AccountId of a Signed Origin or an error if the origin is Root.
|
|
pub fn account_id(&self) -> Result<&T::AccountId, DispatchError> {
|
|
match self {
|
|
Origin::Signed(id) => Ok(id),
|
|
Origin::Root => Err(DispatchError::RootNotAllowed),
|
|
}
|
|
}
|
|
}
|
|
|
|
/// Context of a contract invocation.
|
|
struct CommonInput<'a, T: Config> {
|
|
origin: Origin<T>,
|
|
value: BalanceOf<T>,
|
|
data: Vec<u8>,
|
|
gas_limit: Weight,
|
|
storage_deposit_limit: Option<BalanceOf<T>>,
|
|
debug_message: Option<&'a mut DebugBufferVec<T>>,
|
|
}
|
|
|
|
/// Input specific to a call into contract.
|
|
struct CallInput<T: Config> {
|
|
dest: T::AccountId,
|
|
determinism: Determinism,
|
|
}
|
|
|
|
/// Reference to an existing code hash or a new wasm module.
|
|
enum WasmCode<T: Config> {
|
|
Wasm(WasmBlob<T>),
|
|
CodeHash(CodeHash<T>),
|
|
}
|
|
|
|
/// Input specific to a contract instantiation invocation.
|
|
struct InstantiateInput<T: Config> {
|
|
code: WasmCode<T>,
|
|
salt: Vec<u8>,
|
|
}
|
|
|
|
/// Determines whether events should be collected during execution.
|
|
#[derive(
|
|
Copy, Clone, PartialEq, Eq, RuntimeDebug, Decode, Encode, MaxEncodedLen, scale_info::TypeInfo,
|
|
)]
|
|
pub enum CollectEvents {
|
|
/// Collect events.
|
|
///
|
|
/// # Note
|
|
///
|
|
/// Events should only be collected when called off-chain, as this would otherwise
|
|
/// collect all the Events emitted in the block so far and put them into the PoV.
|
|
///
|
|
/// **Never** use this mode for on-chain execution.
|
|
UnsafeCollect,
|
|
/// Skip event collection.
|
|
Skip,
|
|
}
|
|
|
|
/// Determines whether debug messages will be collected.
|
|
#[derive(
|
|
Copy, Clone, PartialEq, Eq, RuntimeDebug, Decode, Encode, MaxEncodedLen, scale_info::TypeInfo,
|
|
)]
|
|
pub enum DebugInfo {
|
|
/// Collect debug messages.
|
|
/// # Note
|
|
///
|
|
/// This should only ever be set to `UnsafeDebug` when executing as an RPC because
|
|
/// it adds allocations and could be abused to drive the runtime into an OOM panic.
|
|
UnsafeDebug,
|
|
/// Skip collection of debug messages.
|
|
Skip,
|
|
}
|
|
|
|
/// Return type of private helper functions.
|
|
struct InternalOutput<T: Config, O> {
|
|
/// The gas meter that was used to execute the call.
|
|
gas_meter: GasMeter<T>,
|
|
/// The storage deposit used by the call.
|
|
storage_deposit: StorageDeposit<BalanceOf<T>>,
|
|
/// The result of the call.
|
|
result: Result<O, ExecError>,
|
|
}
|
|
|
|
// Set up a global reference to the boolean flag used for the re-entrancy guard.
|
|
environmental!(executing_contract: bool);
|
|
|
|
/// Helper trait to wrap contract execution entry points into a single function
|
|
/// [`Invokable::run_guarded`].
|
|
trait Invokable<T: Config>: Sized {
|
|
/// What is returned as a result of a successful invocation.
|
|
type Output;
|
|
|
|
/// Single entry point to contract execution.
|
|
/// Downstream execution flow is branched by implementations of [`Invokable`] trait:
|
|
///
|
|
/// - [`InstantiateInput::run`] runs contract instantiation,
|
|
/// - [`CallInput::run`] runs contract call.
|
|
///
|
|
/// We enforce a re-entrancy guard here by initializing and checking a boolean flag through a
|
|
/// global reference.
|
|
fn run_guarded(self, common: CommonInput<T>) -> InternalOutput<T, Self::Output> {
|
|
let gas_limit = common.gas_limit;
|
|
|
|
// Check whether the origin is allowed here. The logic of the access rules
|
|
// is in the `ensure_origin`, this could vary for different implementations of this
|
|
// trait. For example, some actions might not allow Root origin as they could require an
|
|
// AccountId associated with the origin.
|
|
if let Err(e) = self.ensure_origin(common.origin.clone()) {
|
|
return InternalOutput {
|
|
gas_meter: GasMeter::new(gas_limit),
|
|
storage_deposit: Default::default(),
|
|
result: Err(ExecError { error: e.into(), origin: ErrorOrigin::Caller }),
|
|
}
|
|
}
|
|
|
|
executing_contract::using_once(&mut false, || {
|
|
executing_contract::with(|f| {
|
|
// Fail if already entered contract execution
|
|
if *f {
|
|
return Err(())
|
|
}
|
|
// We are entering contract execution
|
|
*f = true;
|
|
Ok(())
|
|
})
|
|
.expect("Returns `Ok` if called within `using_once`. It is syntactically obvious that this is the case; qed")
|
|
.map_or_else(
|
|
|_| InternalOutput {
|
|
gas_meter: GasMeter::new(gas_limit),
|
|
storage_deposit: Default::default(),
|
|
result: Err(ExecError {
|
|
error: <Error<T>>::ReentranceDenied.into(),
|
|
origin: ErrorOrigin::Caller,
|
|
}),
|
|
},
|
|
// Enter contract call.
|
|
|_| self.run(common, GasMeter::new(gas_limit)),
|
|
)
|
|
})
|
|
}
|
|
|
|
/// Method that does the actual call to a contract. It can be either a call to a deployed
|
|
/// contract or a instantiation of a new one.
|
|
///
|
|
/// Called by dispatchables and public functions through the [`Invokable::run_guarded`].
|
|
fn run(self, common: CommonInput<T>, gas_meter: GasMeter<T>)
|
|
-> InternalOutput<T, Self::Output>;
|
|
|
|
/// This method ensures that the given `origin` is allowed to invoke the current `Invokable`.
|
|
///
|
|
/// Called by dispatchables and public functions through the [`Invokable::run_guarded`].
|
|
fn ensure_origin(&self, origin: Origin<T>) -> Result<(), DispatchError>;
|
|
}
|
|
|
|
impl<T: Config> Invokable<T> for CallInput<T> {
|
|
type Output = ExecReturnValue;
|
|
|
|
fn run(
|
|
self,
|
|
common: CommonInput<T>,
|
|
mut gas_meter: GasMeter<T>,
|
|
) -> InternalOutput<T, Self::Output> {
|
|
let CallInput { dest, determinism } = self;
|
|
let CommonInput { origin, value, data, debug_message, .. } = common;
|
|
let mut storage_meter =
|
|
match StorageMeter::new(&origin, common.storage_deposit_limit, common.value) {
|
|
Ok(meter) => meter,
|
|
Err(err) =>
|
|
return InternalOutput {
|
|
result: Err(err.into()),
|
|
gas_meter,
|
|
storage_deposit: Default::default(),
|
|
},
|
|
};
|
|
let schedule = T::Schedule::get();
|
|
let result = ExecStack::<T, WasmBlob<T>>::run_call(
|
|
origin.clone(),
|
|
dest.clone(),
|
|
&mut gas_meter,
|
|
&mut storage_meter,
|
|
&schedule,
|
|
value,
|
|
data.clone(),
|
|
debug_message,
|
|
determinism,
|
|
);
|
|
|
|
match storage_meter.try_into_deposit(&origin) {
|
|
Ok(storage_deposit) => InternalOutput { gas_meter, storage_deposit, result },
|
|
Err(err) => InternalOutput {
|
|
gas_meter,
|
|
storage_deposit: Default::default(),
|
|
result: Err(err.into()),
|
|
},
|
|
}
|
|
}
|
|
|
|
fn ensure_origin(&self, _origin: Origin<T>) -> Result<(), DispatchError> {
|
|
Ok(())
|
|
}
|
|
}
|
|
|
|
impl<T: Config> Invokable<T> for InstantiateInput<T> {
|
|
type Output = (AccountIdOf<T>, ExecReturnValue);
|
|
|
|
fn run(
|
|
self,
|
|
common: CommonInput<T>,
|
|
mut gas_meter: GasMeter<T>,
|
|
) -> InternalOutput<T, Self::Output> {
|
|
let mut storage_deposit = Default::default();
|
|
let try_exec = || {
|
|
let schedule = T::Schedule::get();
|
|
let InstantiateInput { salt, .. } = self;
|
|
let CommonInput { origin: contract_origin, .. } = common;
|
|
let origin = contract_origin.account_id()?;
|
|
|
|
let executable = match self.code {
|
|
WasmCode::Wasm(module) => module,
|
|
WasmCode::CodeHash(code_hash) => WasmBlob::from_storage(code_hash, &mut gas_meter)?,
|
|
};
|
|
|
|
let contract_origin = Origin::from_account_id(origin.clone());
|
|
let mut storage_meter =
|
|
StorageMeter::new(&contract_origin, common.storage_deposit_limit, common.value)?;
|
|
let CommonInput { value, data, debug_message, .. } = common;
|
|
let result = ExecStack::<T, WasmBlob<T>>::run_instantiate(
|
|
origin.clone(),
|
|
executable,
|
|
&mut gas_meter,
|
|
&mut storage_meter,
|
|
&schedule,
|
|
value,
|
|
data.clone(),
|
|
&salt,
|
|
debug_message,
|
|
);
|
|
|
|
storage_deposit = storage_meter.try_into_deposit(&contract_origin)?;
|
|
result
|
|
};
|
|
InternalOutput { result: try_exec(), gas_meter, storage_deposit }
|
|
}
|
|
|
|
fn ensure_origin(&self, origin: Origin<T>) -> Result<(), DispatchError> {
|
|
match origin {
|
|
Origin::Signed(_) => Ok(()),
|
|
Origin::Root => Err(DispatchError::RootNotAllowed),
|
|
}
|
|
}
|
|
}
|
|
|
|
macro_rules! ensure_no_migration_in_progress {
|
|
() => {
|
|
if Migration::<T>::in_progress() {
|
|
return ContractResult {
|
|
gas_consumed: Zero::zero(),
|
|
gas_required: Zero::zero(),
|
|
storage_deposit: Default::default(),
|
|
debug_message: Vec::new(),
|
|
result: Err(Error::<T>::MigrationInProgress.into()),
|
|
events: None,
|
|
}
|
|
}
|
|
};
|
|
}
|
|
|
|
impl<T: Config> Pallet<T> {
|
|
/// Perform a call to a specified contract.
|
|
///
|
|
/// This function is similar to [`Self::call`], but doesn't perform any address lookups
|
|
/// and better suitable for calling directly from Rust.
|
|
///
|
|
/// # Note
|
|
///
|
|
/// If `debug` is set to `DebugInfo::UnsafeDebug` it returns additional human readable debugging
|
|
/// information.
|
|
///
|
|
/// If `collect_events` is set to `CollectEvents::UnsafeCollect` it collects all the Events
|
|
/// emitted in the block so far and the ones emitted during the execution of this contract.
|
|
pub fn bare_call(
|
|
origin: T::AccountId,
|
|
dest: T::AccountId,
|
|
value: BalanceOf<T>,
|
|
gas_limit: Weight,
|
|
storage_deposit_limit: Option<BalanceOf<T>>,
|
|
data: Vec<u8>,
|
|
debug: DebugInfo,
|
|
collect_events: CollectEvents,
|
|
determinism: Determinism,
|
|
) -> ContractExecResult<BalanceOf<T>, EventRecordOf<T>> {
|
|
ensure_no_migration_in_progress!();
|
|
|
|
let mut debug_message = if matches!(debug, DebugInfo::UnsafeDebug) {
|
|
Some(DebugBufferVec::<T>::default())
|
|
} else {
|
|
None
|
|
};
|
|
let origin = Origin::from_account_id(origin);
|
|
let common = CommonInput {
|
|
origin,
|
|
value,
|
|
data,
|
|
gas_limit,
|
|
storage_deposit_limit,
|
|
debug_message: debug_message.as_mut(),
|
|
};
|
|
let output = CallInput::<T> { dest, determinism }.run_guarded(common);
|
|
let events = if matches!(collect_events, CollectEvents::UnsafeCollect) {
|
|
Some(System::<T>::read_events_no_consensus().map(|e| *e).collect())
|
|
} else {
|
|
None
|
|
};
|
|
|
|
ContractExecResult {
|
|
result: output.result.map_err(|r| r.error),
|
|
gas_consumed: output.gas_meter.gas_consumed(),
|
|
gas_required: output.gas_meter.gas_required(),
|
|
storage_deposit: output.storage_deposit,
|
|
debug_message: debug_message.unwrap_or_default().to_vec(),
|
|
events,
|
|
}
|
|
}
|
|
|
|
/// Instantiate a new contract.
|
|
///
|
|
/// This function is similar to [`Self::instantiate`], but doesn't perform any address lookups
|
|
/// and better suitable for calling directly from Rust.
|
|
///
|
|
/// It returns the execution result, account id and the amount of used weight.
|
|
///
|
|
/// # Note
|
|
///
|
|
/// If `debug` is set to `DebugInfo::UnsafeDebug` it returns additional human readable debugging
|
|
/// information.
|
|
///
|
|
/// If `collect_events` is set to `CollectEvents::UnsafeCollect` it collects all the Events
|
|
/// emitted in the block so far.
|
|
pub fn bare_instantiate(
|
|
origin: T::AccountId,
|
|
value: BalanceOf<T>,
|
|
gas_limit: Weight,
|
|
mut storage_deposit_limit: Option<BalanceOf<T>>,
|
|
code: Code<CodeHash<T>>,
|
|
data: Vec<u8>,
|
|
salt: Vec<u8>,
|
|
debug: DebugInfo,
|
|
collect_events: CollectEvents,
|
|
) -> ContractInstantiateResult<T::AccountId, BalanceOf<T>, EventRecordOf<T>> {
|
|
ensure_no_migration_in_progress!();
|
|
|
|
let mut debug_message = if debug == DebugInfo::UnsafeDebug {
|
|
Some(DebugBufferVec::<T>::default())
|
|
} else {
|
|
None
|
|
};
|
|
// collect events if CollectEvents is UnsafeCollect
|
|
let events = || {
|
|
if collect_events == CollectEvents::UnsafeCollect {
|
|
Some(System::<T>::read_events_no_consensus().map(|e| *e).collect())
|
|
} else {
|
|
None
|
|
}
|
|
};
|
|
|
|
let (code, upload_deposit): (WasmCode<T>, BalanceOf<T>) = match code {
|
|
Code::Upload(code) => {
|
|
let result = Self::try_upload_code(
|
|
origin.clone(),
|
|
code,
|
|
storage_deposit_limit.map(Into::into),
|
|
Determinism::Enforced,
|
|
debug_message.as_mut(),
|
|
);
|
|
|
|
let (module, deposit) = match result {
|
|
Ok(result) => result,
|
|
Err(error) =>
|
|
return ContractResult {
|
|
gas_consumed: Zero::zero(),
|
|
gas_required: Zero::zero(),
|
|
storage_deposit: Default::default(),
|
|
debug_message: debug_message.unwrap_or(Default::default()).into(),
|
|
result: Err(error),
|
|
events: events(),
|
|
},
|
|
};
|
|
|
|
storage_deposit_limit =
|
|
storage_deposit_limit.map(|l| l.saturating_sub(deposit.into()));
|
|
(WasmCode::Wasm(module), deposit)
|
|
},
|
|
Code::Existing(hash) => (WasmCode::CodeHash(hash), Default::default()),
|
|
};
|
|
|
|
let common = CommonInput {
|
|
origin: Origin::from_account_id(origin),
|
|
value,
|
|
data,
|
|
gas_limit,
|
|
storage_deposit_limit,
|
|
debug_message: debug_message.as_mut(),
|
|
};
|
|
|
|
let output = InstantiateInput::<T> { code, salt }.run_guarded(common);
|
|
ContractInstantiateResult {
|
|
result: output
|
|
.result
|
|
.map(|(account_id, result)| InstantiateReturnValue { result, account_id })
|
|
.map_err(|e| e.error),
|
|
gas_consumed: output.gas_meter.gas_consumed(),
|
|
gas_required: output.gas_meter.gas_required(),
|
|
storage_deposit: output
|
|
.storage_deposit
|
|
.saturating_add(&StorageDeposit::Charge(upload_deposit)),
|
|
debug_message: debug_message.unwrap_or_default().to_vec(),
|
|
events: events(),
|
|
}
|
|
}
|
|
|
|
/// Upload new code without instantiating a contract from it.
|
|
///
|
|
/// This function is similar to [`Self::upload_code`], but doesn't perform any address lookups
|
|
/// and better suitable for calling directly from Rust.
|
|
pub fn bare_upload_code(
|
|
origin: T::AccountId,
|
|
code: Vec<u8>,
|
|
storage_deposit_limit: Option<BalanceOf<T>>,
|
|
determinism: Determinism,
|
|
) -> CodeUploadResult<CodeHash<T>, BalanceOf<T>> {
|
|
Migration::<T>::ensure_migrated()?;
|
|
let (module, deposit) =
|
|
Self::try_upload_code(origin, code, storage_deposit_limit, determinism, None)?;
|
|
Ok(CodeUploadReturnValue { code_hash: *module.code_hash(), deposit })
|
|
}
|
|
|
|
/// Uploads new code and returns the Wasm blob and deposit amount collected.
|
|
fn try_upload_code(
|
|
origin: T::AccountId,
|
|
code: Vec<u8>,
|
|
storage_deposit_limit: Option<BalanceOf<T>>,
|
|
determinism: Determinism,
|
|
mut debug_message: Option<&mut DebugBufferVec<T>>,
|
|
) -> Result<(WasmBlob<T>, BalanceOf<T>), DispatchError> {
|
|
let schedule = T::Schedule::get();
|
|
let mut module =
|
|
WasmBlob::from_code(code, &schedule, origin, determinism).map_err(|(err, msg)| {
|
|
debug_message.as_mut().map(|d| d.try_extend(msg.bytes()));
|
|
err
|
|
})?;
|
|
let deposit = module.store_code()?;
|
|
if let Some(storage_deposit_limit) = storage_deposit_limit {
|
|
ensure!(storage_deposit_limit >= deposit, <Error<T>>::StorageDepositLimitExhausted);
|
|
}
|
|
|
|
Ok((module, deposit))
|
|
}
|
|
|
|
/// Query storage of a specified contract under a specified key.
|
|
pub fn get_storage(address: T::AccountId, key: Vec<u8>) -> GetStorageResult {
|
|
if Migration::<T>::in_progress() {
|
|
return Err(ContractAccessError::MigrationInProgress)
|
|
}
|
|
let contract_info =
|
|
ContractInfoOf::<T>::get(&address).ok_or(ContractAccessError::DoesntExist)?;
|
|
|
|
let maybe_value = contract_info.read(
|
|
&Key::<T>::try_from_var(key)
|
|
.map_err(|_| ContractAccessError::KeyDecodingFailed)?
|
|
.into(),
|
|
);
|
|
Ok(maybe_value)
|
|
}
|
|
|
|
/// Determine the address of a contract.
|
|
///
|
|
/// This is the address generation function used by contract instantiation. See
|
|
/// [`DefaultAddressGenerator`] for the default implementation.
|
|
pub fn contract_address(
|
|
deploying_address: &T::AccountId,
|
|
code_hash: &CodeHash<T>,
|
|
input_data: &[u8],
|
|
salt: &[u8],
|
|
) -> T::AccountId {
|
|
T::AddressGenerator::contract_address(deploying_address, code_hash, input_data, salt)
|
|
}
|
|
|
|
/// Returns the code hash of the contract specified by `account` ID.
|
|
pub fn code_hash(account: &AccountIdOf<T>) -> Option<CodeHash<T>> {
|
|
ContractInfo::<T>::load_code_hash(account)
|
|
}
|
|
|
|
/// Store code for benchmarks which does not validate the code.
|
|
#[cfg(feature = "runtime-benchmarks")]
|
|
fn store_code_raw(
|
|
code: Vec<u8>,
|
|
owner: T::AccountId,
|
|
) -> frame_support::dispatch::DispatchResult {
|
|
let schedule = T::Schedule::get();
|
|
WasmBlob::<T>::from_code_unchecked(code, &schedule, owner)?.store_code()?;
|
|
Ok(())
|
|
}
|
|
|
|
/// Deposit a pallet contracts event. Handles the conversion to the overarching event type.
|
|
fn deposit_event(topics: Vec<T::Hash>, event: Event<T>) {
|
|
<frame_system::Pallet<T>>::deposit_event_indexed(
|
|
&topics,
|
|
<T as Config>::RuntimeEvent::from(event).into(),
|
|
)
|
|
}
|
|
|
|
/// Return the existential deposit of [`Config::Currency`].
|
|
fn min_balance() -> BalanceOf<T> {
|
|
<T::Currency as Inspect<AccountIdOf<T>>>::minimum_balance()
|
|
}
|
|
|
|
/// Convert gas_limit from 1D Weight to a 2D Weight.
|
|
///
|
|
/// Used by backwards compatible extrinsics. We cannot just set the proof_size weight limit to
|
|
/// zero or an old `Call` will just fail with OutOfGas.
|
|
fn compat_weight_limit(gas_limit: OldWeight) -> Weight {
|
|
Weight::from_parts(gas_limit, u64::from(T::MaxCodeLen::get()) * 2)
|
|
}
|
|
}
|
|
|
|
sp_api::decl_runtime_apis! {
|
|
/// The API used to dry-run contract interactions.
|
|
#[api_version(2)]
|
|
pub trait ContractsApi<AccountId, Balance, BlockNumber, Hash, EventRecord> where
|
|
AccountId: Codec,
|
|
Balance: Codec,
|
|
BlockNumber: Codec,
|
|
Hash: Codec,
|
|
EventRecord: Codec,
|
|
{
|
|
/// Perform a call from a specified account to a given contract.
|
|
///
|
|
/// See [`crate::Pallet::bare_call`].
|
|
fn call(
|
|
origin: AccountId,
|
|
dest: AccountId,
|
|
value: Balance,
|
|
gas_limit: Option<Weight>,
|
|
storage_deposit_limit: Option<Balance>,
|
|
input_data: Vec<u8>,
|
|
) -> ContractExecResult<Balance, EventRecord>;
|
|
|
|
/// Instantiate a new contract.
|
|
///
|
|
/// See `[crate::Pallet::bare_instantiate]`.
|
|
fn instantiate(
|
|
origin: AccountId,
|
|
value: Balance,
|
|
gas_limit: Option<Weight>,
|
|
storage_deposit_limit: Option<Balance>,
|
|
code: Code<Hash>,
|
|
data: Vec<u8>,
|
|
salt: Vec<u8>,
|
|
) -> ContractInstantiateResult<AccountId, Balance, EventRecord>;
|
|
|
|
/// Upload new code without instantiating a contract from it.
|
|
///
|
|
/// See [`crate::Pallet::bare_upload_code`].
|
|
fn upload_code(
|
|
origin: AccountId,
|
|
code: Vec<u8>,
|
|
storage_deposit_limit: Option<Balance>,
|
|
determinism: Determinism,
|
|
) -> CodeUploadResult<Hash, Balance>;
|
|
|
|
/// Query a given storage key in a given contract.
|
|
///
|
|
/// Returns `Ok(Some(Vec<u8>))` if the storage value exists under the given key in the
|
|
/// specified account and `Ok(None)` if it doesn't. If the account specified by the address
|
|
/// doesn't exist, or doesn't have a contract then `Err` is returned.
|
|
fn get_storage(
|
|
address: AccountId,
|
|
key: Vec<u8>,
|
|
) -> GetStorageResult;
|
|
}
|
|
}
|