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// 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.

//! > Made with *Substrate*, for *Polkadot*.
//!
//! [![github]](https://github.com/paritytech/polkadot-sdk/substrate/frame/timestamp)
//! [![polkadot]](https://polkadot.network)
//!
//! [polkadot]: https://img.shields.io/badge/polkadot-E6007A?style=for-the-badge&logo=polkadot&logoColor=white
//! [github]: https://img.shields.io/badge/github-8da0cb?style=for-the-badge&labelColor=555555&logo=github
//!
//! # Timestamp Pallet
//!
//! A pallet that provides a way for consensus systems to set and check the onchain time.
//!
//! ## Pallet API
//!
//! See the [`pallet`] module for more information about the interfaces this pallet exposes,
//! including its configuration trait, dispatchables, storage items, events and errors.
//!
//! ## Overview
//!
//! The Timestamp pallet is designed to create a consensus-based time source. This helps ensure that
//! nodes maintain a synchronized view of time that all network participants can agree on.
//!
//! It defines an _acceptable range_ using a configurable constant to specify how much time must
//! pass before setting the new timestamp. Validator nodes in the network must verify that the
//! timestamp falls within this acceptable range and reject blocks that do not.
//!
//! > **Note:** The timestamp set by this pallet is the recommended way to query the onchain time
//! > instead of using block numbers alone. Measuring time with block numbers can cause cumulative
//! > calculation errors if depended upon in time critical operations and hence should generally be
//! > avoided.
//!
//! ## Example
//!
//! To get the current time for the current block in another pallet:
//!
//! ```
//! use pallet_timestamp::{self as timestamp};
//!
//! #[frame_support::pallet]
//! pub mod pallet {
//! 	use super::*;
//! 	use frame_support::pallet_prelude::*;
//! 	use frame_system::pallet_prelude::*;
//!
//! 	#[pallet::pallet]
//! 	pub struct Pallet<T>(_);
//!
//! 	#[pallet::config]
//! 	pub trait Config: frame_system::Config + timestamp::Config {}
//!
//! 	#[pallet::call]
//! 	impl<T: Config> Pallet<T> {
//! 		#[pallet::weight(0)]
//! 		pub fn get_time(origin: OriginFor<T>) -> DispatchResult {
//! 			let _sender = ensure_signed(origin)?;
//! 			let _now = timestamp::Pallet::<T>::get();
//! 			Ok(())
//! 		}
//! 	}
//! }
//! # fn main() {}
//! ```
//!
//!  If [`Pallet::get`] is called prior to setting the timestamp, it will return the timestamp of
//! the previous block.
//!
//! ## Low Level / Implementation Details
//!
//! A timestamp is added to the chain using an _inherent extrinsic_ that only a block author can
//! submit. Inherents are a special type of extrinsic in Substrate chains that will always be
//! included in a block.
//!
//! To provide inherent data to the runtime, this pallet implements
//! [`ProvideInherent`](frame_support::inherent::ProvideInherent). It will only create an inherent
//! if the [`Call::set`] dispatchable is called, using the
//! [`inherent`](frame_support::pallet_macros::inherent) macro which enables validator nodes to call
//! into the runtime to check that the timestamp provided is valid.
//! The implementation of [`ProvideInherent`](frame_support::inherent::ProvideInherent) specifies a
//! constant called `MAX_TIMESTAMP_DRIFT_MILLIS` which is used to determine the acceptable range for
//! a valid timestamp. If a block author sets a timestamp to anything that is more than this
//! constant, a validator node will reject the block.
//!
//! The pallet also ensures that a timestamp is set at the start of each block by running an
//! assertion in the `on_finalize` runtime hook. See [`frame_support::traits::Hooks`] for more
//! information about how hooks work.
//!
//! Because inherents are applied to a block in the order they appear in the runtime
//! construction, the index of this pallet in
//! [`construct_runtime`](frame_support::construct_runtime) must always be less than any other
//! pallet that depends on it.
//!
//! The [`Config::OnTimestampSet`] configuration trait can be set to another pallet we want to
//! notify that the timestamp has been updated, as long as it implements [`OnTimestampSet`].
//! Examples are the Babe and Aura pallets.
//! This pallet also implements [`Time`] and [`UnixTime`] so it can be used to configure other
//! pallets that require these types (e.g. in Staking pallet).
//!
//! ## Panics
//!
//! There are 3 cases where this pallet could cause the runtime to panic.
//!
//! 1. If no timestamp is set at the end of a block.
//!
//! 2. If a timestamp is set more than once per block:
#![doc = docify::embed!("src/tests.rs", double_timestamp_should_fail)]
//!
//! 3. If a timestamp is set before the [`Config::MinimumPeriod`] is elapsed:
#![doc = docify::embed!("src/tests.rs", block_period_minimum_enforced)]
#![deny(missing_docs)]
#![cfg_attr(not(feature = "std"), no_std)]

mod benchmarking;
#[cfg(test)]
mod mock;
#[cfg(test)]
mod tests;
pub mod weights;

use frame_support::traits::{OnTimestampSet, Time, UnixTime};
use sp_runtime::traits::{AtLeast32Bit, SaturatedConversion, Scale, Zero};
use sp_std::{cmp, result};
use sp_timestamp::{InherentError, InherentType, INHERENT_IDENTIFIER};
pub use weights::WeightInfo;

pub use pallet::*;

#[frame_support::pallet]
pub mod pallet {
	use super::*;
	use frame_support::{derive_impl, pallet_prelude::*};
	use frame_system::pallet_prelude::*;

	/// Default preludes for [`Config`].
	pub mod config_preludes {
		use super::*;

		/// Default prelude sensible to be used in a testing environment.
		pub struct TestDefaultConfig;

		#[derive_impl(frame_system::config_preludes::TestDefaultConfig, no_aggregated_types)]
		impl frame_system::DefaultConfig for TestDefaultConfig {}

		#[frame_support::register_default_impl(TestDefaultConfig)]
		impl DefaultConfig for TestDefaultConfig {
			type Moment = u64;
			type OnTimestampSet = ();
			type MinimumPeriod = frame_support::traits::ConstU64<1>;
			type WeightInfo = ();
		}
	}

	/// The pallet configuration trait
	#[pallet::config(with_default)]
	pub trait Config: frame_system::Config {
		/// Type used for expressing a timestamp.
		#[pallet::no_default_bounds]
		type Moment: Parameter
			+ Default
			+ AtLeast32Bit
			+ Scale<BlockNumberFor<Self>, Output = Self::Moment>
			+ Copy
			+ MaxEncodedLen
			+ scale_info::StaticTypeInfo;

		/// Something which can be notified (e.g. another pallet) when the timestamp is set.
		///
		/// This can be set to `()` if it is not needed.
		type OnTimestampSet: OnTimestampSet<Self::Moment>;

		/// The minimum period between blocks.
		///
		/// Be aware that this is different to the *expected* period that the block production
		/// apparatus provides. Your chosen consensus system will generally work with this to
		/// determine a sensible block time. For example, in the Aura pallet it will be double this
		/// period on default settings.
		#[pallet::constant]
		type MinimumPeriod: Get<Self::Moment>;

		/// Weight information for extrinsics in this pallet.
		type WeightInfo: WeightInfo;
	}

	#[pallet::pallet]
	pub struct Pallet<T>(_);

	/// The current time for the current block.
	#[pallet::storage]
	#[pallet::getter(fn now)]
	pub type Now<T: Config> = StorageValue<_, T::Moment, ValueQuery>;

	/// Whether the timestamp has been updated in this block.
	///
	/// This value is updated to `true` upon successful submission of a timestamp by a node.
	/// It is then checked at the end of each block execution in the `on_finalize` hook.
	#[pallet::storage]
	pub(super) type DidUpdate<T: Config> = StorageValue<_, bool, ValueQuery>;

	#[pallet::hooks]
	impl<T: Config> Hooks<BlockNumberFor<T>> for Pallet<T> {
		/// A dummy `on_initialize` to return the amount of weight that `on_finalize` requires to
		/// execute.
		fn on_initialize(_n: BlockNumberFor<T>) -> Weight {
			// weight of `on_finalize`
			T::WeightInfo::on_finalize()
		}

		/// At the end of block execution, the `on_finalize` hook checks that the timestamp was
		/// updated. Upon success, it removes the boolean value from storage. If the value resolves
		/// to `false`, the pallet will panic.
		///
		/// ## Complexity
		/// - `O(1)`
		fn on_finalize(_n: BlockNumberFor<T>) {
			assert!(DidUpdate::<T>::take(), "Timestamp must be updated once in the block");
		}
	}

	#[pallet::call]
	impl<T: Config> Pallet<T> {
		/// Set the current time.
		///
		/// This call should be invoked exactly once per block. It will panic at the finalization
		/// phase, if this call hasn't been invoked by that time.
		///
		/// The timestamp should be greater than the previous one by the amount specified by
		/// [`Config::MinimumPeriod`].
		///
		/// The dispatch origin for this call must be _None_.
		///
		/// This dispatch class is _Mandatory_ to ensure it gets executed in the block. Be aware
		/// that changing the complexity of this call could result exhausting the resources in a
		/// block to execute any other calls.
		///
		/// ## Complexity
		/// - `O(1)` (Note that implementations of `OnTimestampSet` must also be `O(1)`)
		/// - 1 storage read and 1 storage mutation (codec `O(1)` because of `DidUpdate::take` in
		///   `on_finalize`)
		/// - 1 event handler `on_timestamp_set`. Must be `O(1)`.
		#[pallet::call_index(0)]
		#[pallet::weight((
			T::WeightInfo::set(),
			DispatchClass::Mandatory
		))]
		pub fn set(origin: OriginFor<T>, #[pallet::compact] now: T::Moment) -> DispatchResult {
			ensure_none(origin)?;
			assert!(!DidUpdate::<T>::exists(), "Timestamp must be updated only once in the block");
			let prev = Self::now();
			assert!(
				prev.is_zero() || now >= prev + T::MinimumPeriod::get(),
				"Timestamp must increment by at least <MinimumPeriod> between sequential blocks"
			);
			Now::<T>::put(now);
			DidUpdate::<T>::put(true);

			<T::OnTimestampSet as OnTimestampSet<_>>::on_timestamp_set(now);

			Ok(())
		}
	}

	/// To check the inherent is valid, we simply take the max value between the current timestamp
	/// and the current timestamp plus the [`Config::MinimumPeriod`].
	/// We also check that the timestamp has not already been set in this block.
	///
	/// ## Errors:
	/// - [`InherentError::TooFarInFuture`]: If the timestamp is larger than the current timestamp +
	///   minimum drift period.
	/// - [`InherentError::TooEarly`]: If the timestamp is less than the current + minimum period.
	#[pallet::inherent]
	impl<T: Config> ProvideInherent for Pallet<T> {
		type Call = Call<T>;
		type Error = InherentError;
		const INHERENT_IDENTIFIER: InherentIdentifier = INHERENT_IDENTIFIER;

		fn create_inherent(data: &InherentData) -> Option<Self::Call> {
			let inherent_data = data
				.get_data::<InherentType>(&INHERENT_IDENTIFIER)
				.expect("Timestamp inherent data not correctly encoded")
				.expect("Timestamp inherent data must be provided");
			let data = (*inherent_data).saturated_into::<T::Moment>();

			let next_time = cmp::max(data, Self::now() + T::MinimumPeriod::get());
			Some(Call::set { now: next_time })
		}

		fn check_inherent(
			call: &Self::Call,
			data: &InherentData,
		) -> result::Result<(), Self::Error> {
			const MAX_TIMESTAMP_DRIFT_MILLIS: sp_timestamp::Timestamp =
				sp_timestamp::Timestamp::new(30 * 1000);

			let t: u64 = match call {
				Call::set { ref now } => (*now).saturated_into::<u64>(),
				_ => return Ok(()),
			};

			let data = data
				.get_data::<InherentType>(&INHERENT_IDENTIFIER)
				.expect("Timestamp inherent data not correctly encoded")
				.expect("Timestamp inherent data must be provided");

			let minimum = (Self::now() + T::MinimumPeriod::get()).saturated_into::<u64>();
			if t > *(data + MAX_TIMESTAMP_DRIFT_MILLIS) {
				Err(InherentError::TooFarInFuture)
			} else if t < minimum {
				Err(InherentError::TooEarly)
			} else {
				Ok(())
			}
		}

		fn is_inherent(call: &Self::Call) -> bool {
			matches!(call, Call::set { .. })
		}
	}
}

impl<T: Config> Pallet<T> {
	/// Get the current time for the current block.
	///
	/// NOTE: if this function is called prior to setting the timestamp,
	/// it will return the timestamp of the previous block.
	pub fn get() -> T::Moment {
		Self::now()
	}

	/// Set the timestamp to something in particular. Only used for tests.
	#[cfg(any(feature = "runtime-benchmarks", feature = "std"))]
	pub fn set_timestamp(now: T::Moment) {
		Now::<T>::put(now);
		DidUpdate::<T>::put(true);
		<T::OnTimestampSet as OnTimestampSet<_>>::on_timestamp_set(now);
	}
}

impl<T: Config> Time for Pallet<T> {
	/// A type that represents a unit of time.
	type Moment = T::Moment;

	fn now() -> Self::Moment {
		Self::now()
	}
}

/// Before the timestamp inherent is applied, it returns the time of previous block.
///
/// On genesis the time returned is not valid.
impl<T: Config> UnixTime for Pallet<T> {
	fn now() -> core::time::Duration {
		// now is duration since unix epoch in millisecond as documented in
		// `sp_timestamp::InherentDataProvider`.
		let now = Self::now();
		sp_std::if_std! {
			if now == T::Moment::zero() {
				log::error!(
					target: "runtime::timestamp",
					"`pallet_timestamp::UnixTime::now` is called at genesis, invalid value returned: 0",
				);
			}
		}
		core::time::Duration::from_millis(now.saturated_into::<u64>())
	}
}