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// Copyright 2017-2020 Parity Technologies (UK) Ltd.
// This file is part of Substrate.
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// Substrate is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.

// Substrate is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.

// You should have received a copy of the GNU General Public License
// along with Substrate.  If not, see <http://www.gnu.org/licenses/>.
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//! # System Module
//! The System module provides low-level access to core types and cross-cutting utilities.
//! It acts as the base layer for other pallets to interact with the Substrate framework components.
//!
//! - [`system::Trait`](./trait.Trait.html)
//! ## Overview
//! The System module defines the core data types used in a Substrate runtime.
//! It also provides several utility functions (see [`Module`](./struct.Module.html)) for other FRAME pallets.
//! In addition, it manages the storage items for extrinsics data, indexes, event records, and digest items,
//! among other things that support the execution of the current block.
//! It also handles low-level tasks like depositing logs, basic set up and take down of
//! temporary storage entries, and access to previous block hashes.
//! ## Interface
//! ### Dispatchable Functions
//! The System module does not implement any dispatchable functions.
//! ### Public Functions
//! See the [`Module`](./struct.Module.html) struct for details of publicly available functions.
//! The System module defines the following extensions:
//!
//!   - [`CheckWeight`]: Checks the weight and length of the block and ensure that it does not
//!     exceed the limits.
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//!   - [`CheckNonce`]: Checks the nonce of the transaction. Contains a single payload of type
//!     `T::Index`.
//!   - [`CheckEra`]: Checks the era of the transaction. Contains a single payload of type `Era`.
//!   - [`CheckGenesis`]: Checks the provided genesis hash of the transaction. Must be a part of the
//!     signed payload of the transaction.
//!   - [`CheckVersion`]: Checks that the runtime version is the same as the one encoded in the
//!     transaction.
//!
//! Lookup the runtime aggregator file (e.g. `node/runtime`) to see the full list of signed
//! extensions included in a chain.
//!
//! ### Prerequisites
//! Import the System module and derive your module's configuration trait from the system trait.
//! ### Example - Get extrinsic count and parent hash for the current block
//! use frame_support::{decl_module, dispatch};
//! use frame_system::{self as system, ensure_signed};
//! pub trait Trait: system::Trait {}
//! decl_module! {
//! 	pub struct Module<T: Trait> for enum Call where origin: T::Origin {
//! 		pub fn system_module_example(origin) -> dispatch::DispatchResult {
//! 			let _sender = ensure_signed(origin)?;
//! 			let _extrinsic_count = <system::Module<T>>::extrinsic_count();
//! 			let _parent_hash = <system::Module<T>>::parent_hash();
//! 			Ok(())
//! 		}
//! 	}
//! }
//! # fn main() { }
//! ```
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#![cfg_attr(not(feature = "std"), no_std)]

#[cfg(feature = "std")]
use serde::Serialize;
use sp_std::prelude::*;
#[cfg(any(feature = "std", test))]
use sp_std::map;
use sp_std::marker::PhantomData;
use sp_std::fmt::Debug;
use sp_version::RuntimeVersion;
use sp_runtime::{
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	RuntimeDebug, Perbill, DispatchOutcome, DispatchError,
	generic::{self, Era},
	transaction_validity::{
		ValidTransaction, TransactionPriority, TransactionLongevity, TransactionValidityError,
		InvalidTransaction, TransactionValidity,
	},
	traits::{
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		self, CheckEqual, AtLeast32Bit, Zero, SignedExtension, Lookup, LookupError,
		SimpleBitOps, Hash, Member, MaybeDisplay, EnsureOrigin, BadOrigin, SaturatedConversion,
		MaybeSerialize, MaybeSerializeDeserialize, MaybeMallocSizeOf, StaticLookup, One, Bounded,
use sp_core::{ChangesTrieConfiguration, storage::well_known_keys};
use frame_support::{
	decl_module, decl_event, decl_storage, decl_error, storage, Parameter,
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	traits::{
		Contains, Get, ModuleToIndex, OnNewAccount, OnReapAccount, IsDeadAccount, Happened,
		StoredMap
	},
	weights::{Weight, DispatchInfo, DispatchClass, SimpleDispatchInfo},
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use codec::{Encode, Decode, FullCodec, EncodeLike};
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#[cfg(any(feature = "std", test))]
use sp_io::TestExternalities;
/// Compute the trie root of a list of extrinsics.
pub fn extrinsics_root<H: Hash, E: codec::Encode>(extrinsics: &[E]) -> H::Output {
	extrinsics_data_root::<H>(extrinsics.iter().map(codec::Encode::encode).collect())
/// Compute the trie root of a list of extrinsics.
pub fn extrinsics_data_root<H: Hash>(xts: Vec<Vec<u8>>) -> H::Output {
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	H::ordered_trie_root(xts)
pub trait Trait: 'static + Eq + Clone {
	/// The aggregated `Origin` type used by dispatchable calls.
		Into<Result<RawOrigin<Self::AccountId>, Self::Origin>>
		+ From<RawOrigin<Self::AccountId>>
		+ Clone;
	/// The aggregated `Call` type.
	type Call: Debug;
	/// Account index (aka nonce) type. This stores the number of previous transactions associated
	/// with a sender account.
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		Parameter + Member + MaybeSerialize + Debug + Default + MaybeDisplay + AtLeast32Bit

	/// The block number type used by the runtime.
	type BlockNumber:
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		Parameter + Member + MaybeSerializeDeserialize + Debug + MaybeDisplay + AtLeast32Bit
		+ Default + Bounded + Copy + sp_std::hash::Hash + sp_std::str::FromStr + MaybeMallocSizeOf;
	/// The output of the `Hashing` function.
	type Hash:
		Parameter + Member + MaybeSerializeDeserialize + Debug + MaybeDisplay + SimpleBitOps + Ord
		+ Default + Copy + CheckEqual + sp_std::hash::Hash + AsRef<[u8]> + AsMut<[u8]> + MaybeMallocSizeOf;
	/// The hashing system (algorithm) being used in the runtime (e.g. Blake2).
	type Hashing: Hash<Output = Self::Hash>;

	/// The user account identifier type for the runtime.
	type AccountId: Parameter + Member + MaybeSerializeDeserialize + Debug + MaybeDisplay + Ord
		+ Default;

	/// Converting trait to take a source type and convert to `AccountId`.
	///
	/// Used to define the type and conversion mechanism for referencing accounts in transactions.
	/// It's perfectly reasonable for this to be an identity conversion (with the source type being
	/// `AccountId`), but other modules (e.g. Indices module) may provide more functional/efficient
	/// alternatives.
	type Lookup: StaticLookup<Target = Self::AccountId>;

	/// The block header.
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	type Header: Parameter + traits::Header<
		Number = Self::BlockNumber,
		Hash = Self::Hash,

	/// The aggregated event type of the runtime.
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	type Event: Parameter + Member + From<Event<Self>> + Debug;

	/// Maximum number of block number to block hash mappings to keep (oldest pruned first).
	type BlockHashCount: Get<Self::BlockNumber>;

	/// The maximum weight of a block.
	type MaximumBlockWeight: Get<Weight>;

	/// The maximum length of a block (in bytes).
	type MaximumBlockLength: Get<u32>;
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	/// The portion of the block that is available to normal transaction. The rest can only be used
	/// by operational transactions. This can be applied to any resource limit managed by the system
	/// module, including weight and length.
	type AvailableBlockRatio: Get<Perbill>;

	/// Get the chain's current version.
	type Version: Get<RuntimeVersion>;

	/// Convert a module to its index in the runtime.
	///
	/// Expects the `ModuleToIndex` type that is being generated by `construct_runtime!` in the
	/// runtime. For tests it is okay to use `()` as type (returns `0` for each input).
	type ModuleToIndex: ModuleToIndex;
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	/// Data to be associated with an account (other than nonce/transaction counter, which this
	/// module does regardless).
	type AccountData: Member + FullCodec + Clone + Default;

	/// Handler for when a new account has just been created.
	type OnNewAccount: OnNewAccount<Self::AccountId>;

	/// A function that is invoked when an account has been determined to be dead.
	///
	/// All resources should be cleaned up associated with the given account.
	type OnReapAccount: OnReapAccount<Self::AccountId>;
pub type DigestOf<T> = generic::Digest<<T as Trait>::Hash>;
pub type DigestItemOf<T> = generic::DigestItem<<T as Trait>::Hash>;

pub type Key = Vec<u8>;
pub type KeyValue = (Vec<u8>, Vec<u8>);
/// A phase of a block's execution.
#[derive(Encode, Decode, RuntimeDebug)]
#[cfg_attr(feature = "std", derive(Serialize, PartialEq, Eq, Clone))]
pub enum Phase {
	/// Applying an extrinsic.
	ApplyExtrinsic(u32),
	/// The end.
	Finalization,
}

/// Record of an event happening.
#[derive(Encode, Decode, RuntimeDebug)]
#[cfg_attr(feature = "std", derive(Serialize, PartialEq, Eq, Clone))]
pub struct EventRecord<E: Parameter + Member, T> {
	/// The phase of the block it happened in.
	pub phase: Phase,
	/// The event itself.
	pub event: E,
	/// The list of the topics this event has.
	pub topics: Vec<T>,
/// Origin for the System module.
#[derive(PartialEq, Eq, Clone, RuntimeDebug)]
pub enum RawOrigin<AccountId> {
	/// The system itself ordained this dispatch to happen: this is the highest privilege level.
	Root,
	/// It is signed by some public key and we provide the `AccountId`.
	Signed(AccountId),
	/// It is signed by nobody, can be either:
	/// * included and agreed upon by the validators anyway,
	/// * or unsigned transaction validated by a module.
	None,
}

impl<AccountId> From<Option<AccountId>> for RawOrigin<AccountId> {
	fn from(s: Option<AccountId>) -> RawOrigin<AccountId> {
		match s {
			Some(who) => RawOrigin::Signed(who),
		}
	}
}

/// Exposed trait-generic origin type.
pub type Origin<T> = RawOrigin<<T as Trait>::AccountId>;

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// Create a Hash with 69 for each byte,
// only used to build genesis config.
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#[cfg(feature = "std")]
fn hash69<T: AsMut<[u8]> + Default>() -> T {
	let mut h = T::default();
	h.as_mut().iter_mut().for_each(|byte| *byte = 69);
	h
}

/// This type alias represents an index of an event.
///
/// We use `u32` here because this index is used as index for `Events<T>`
/// which can't contain more than `u32::max_value()` items.
type EventIndex = u32;

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decl_storage! {
	trait Store for Module<T: Trait> as System {
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		/// The full account information for a particular account ID.
		// TODO: should be hasher(twox64_concat) - will need staged migration
		// TODO: should not including T::Index (the nonce)
		// https://github.com/paritytech/substrate/issues/4917
		pub Account get(fn account): map hasher(blake2_256) T::AccountId => (T::Index, T::AccountData);

		/// Total extrinsics count for the current block.
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		ExtrinsicCount: Option<u32>;
		/// Total weight for all extrinsics put together, for the current block.
		AllExtrinsicsWeight: Option<Weight>;
		/// Total length (in bytes) for all extrinsics put together, for the current block.
		AllExtrinsicsLen: Option<u32>;
		/// Map of block numbers to block hashes.
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		// TODO: should be hasher(twox64_concat) - will need one-off migration
		// https://github.com/paritytech/substrate/issues/4917
		pub BlockHash get(fn block_hash) build(|_| vec![(T::BlockNumber::zero(), hash69())]):
			map hasher(blake2_256) T::BlockNumber => T::Hash;
		/// Extrinsics data for the current block (maps an extrinsic's index to its data).
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		ExtrinsicData get(fn extrinsic_data): map hasher(twox_64_concat) u32 => Vec<u8>;

		/// The current block number being processed. Set by `execute_block`.
		Number get(fn block_number) build(|_| 1.into()): T::BlockNumber;
		/// Hash of the previous block.
		ParentHash get(fn parent_hash) build(|_| hash69()): T::Hash;
		/// Extrinsics root of the current block, also part of the block header.
		ExtrinsicsRoot get(fn extrinsics_root): T::Hash;
		/// Digest of the current block, also part of the block header.
		Digest get(fn digest): DigestOf<T>;
		/// Events deposited for the current block.
		Events get(fn events): Vec<EventRecord<T::Event, T::Hash>>;
		/// The number of events in the `Events<T>` list.
		EventCount get(fn event_count): EventIndex;

		// TODO: https://github.com/paritytech/substrate/issues/2553
		// Possibly, we can improve it by using something like:
		// `Option<(BlockNumber, Vec<EventIndex>)>`, however in this case we won't be able to use
		// `EventTopics::append`.

		/// Mapping between a topic (represented by T::Hash) and a vector of indexes
		/// of events in the `<Events<T>>` list.
		///
		/// All topic vectors have deterministic storage locations depending on the topic. This
		/// allows light-clients to leverage the changes trie storage tracking mechanism and
		/// in case of changes fetch the list of events of interest.
		///
		/// The value has the type `(T::BlockNumber, EventIndex)` because if we used only just
		/// the `EventIndex` then in case if the topic has the same contents on the next block
		/// no notification will be triggered thus the event might be lost.
		EventTopics get(fn event_topics): map hasher(blake2_256) T::Hash => Vec<(T::BlockNumber, EventIndex)>;
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	}
	add_extra_genesis {
		config(changes_trie_config): Option<ChangesTrieConfiguration>;
		#[serde(with = "sp_core::bytes")]
		config(code): Vec<u8>;
		build(|config: &GenesisConfig| {
			use codec::Encode;
			sp_io::storage::set(well_known_keys::CODE, &config.code);
			sp_io::storage::set(well_known_keys::EXTRINSIC_INDEX, &0u32.encode());
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			if let Some(ref changes_trie_config) = config.changes_trie_config {
				sp_io::storage::set(
					well_known_keys::CHANGES_TRIE_CONFIG,
					&changes_trie_config.encode(),
				);
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			}
		});
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decl_event!(
	/// Event for the System module.
	pub enum Event<T> where AccountId = <T as Trait>::AccountId {
		/// An extrinsic completed successfully.
		ExtrinsicSuccess(DispatchInfo),
		/// An extrinsic failed.
		ExtrinsicFailed(DispatchError, DispatchInfo),
		/// `:code` was updated.
		CodeUpdated,
		/// A new account was created.
		NewAccount(AccountId),
		/// An account was reaped.
		ReapedAccount(AccountId),
	}
);

decl_error! {
	/// Error for the System module
	pub enum Error for Module<T: Trait> {
		/// The name of specification does not match between the current runtime
		/// and the new runtime.
		InvalidSpecName,
		/// The specification version is not allowed to decrease between the current runtime
		/// and the new runtime.
		SpecVersionNotAllowedToDecrease,
		/// The implementation version is not allowed to decrease between the current runtime
		/// and the new runtime.
		ImplVersionNotAllowedToDecrease,
		/// The specification or the implementation version need to increase between the
		/// current runtime and the new runtime.
		SpecOrImplVersionNeedToIncrease,
		/// Failed to extract the runtime version from the new runtime.
		///
		/// Either calling `Core_version` or decoding `RuntimeVersion` failed.
		FailedToExtractRuntimeVersion,
	}
}

decl_module! {
	pub struct Module<T: Trait> for enum Call where origin: T::Origin {
		type Error = Error<T>;

		/// A big dispatch that will disallow any other transaction to be included.
		// TODO: This should only be available for testing, rather than in general usage, but
		// that's not possible at present (since it's within the decl_module macro).
		#[weight = SimpleDispatchInfo::MaxOperational]
		fn fill_block(origin) {
			ensure_root(origin)?;
		}

		/// Make some on-chain remark.
		#[weight = SimpleDispatchInfo::FixedNormal(10_000)]
		fn remark(origin, _remark: Vec<u8>) {
			ensure_signed(origin)?;
		}

		/// Set the number of pages in the WebAssembly environment's heap.
		#[weight = SimpleDispatchInfo::FixedOperational(10_000)]
		fn set_heap_pages(origin, pages: u64) {
			ensure_root(origin)?;
			storage::unhashed::put_raw(well_known_keys::HEAP_PAGES, &pages.encode());
		}

		/// Set the new runtime code.
		#[weight = SimpleDispatchInfo::FixedOperational(200_000)]
		pub fn set_code(origin, code: Vec<u8>) {
			ensure_root(origin)?;

			let current_version = T::Version::get();
			let new_version = sp_io::misc::runtime_version(&code)
				.and_then(|v| RuntimeVersion::decode(&mut &v[..]).ok())
				.ok_or_else(|| Error::<T>::FailedToExtractRuntimeVersion)?;

			if new_version.spec_name != current_version.spec_name {
				Err(Error::<T>::InvalidSpecName)?
			}

			if new_version.spec_version < current_version.spec_version {
				Err(Error::<T>::SpecVersionNotAllowedToDecrease)?
			} else if new_version.spec_version == current_version.spec_version {
				if new_version.impl_version < current_version.impl_version {
					Err(Error::<T>::ImplVersionNotAllowedToDecrease)?
				} else if new_version.impl_version == current_version.impl_version {
					Err(Error::<T>::SpecOrImplVersionNeedToIncrease)?
				}
			}

			storage::unhashed::put_raw(well_known_keys::CODE, &code);
			Self::deposit_event(RawEvent::CodeUpdated);
		}

		/// Set the new runtime code without doing any checks of the given `code`.
		#[weight = SimpleDispatchInfo::FixedOperational(200_000)]
		pub fn set_code_without_checks(origin, code: Vec<u8>) {
			ensure_root(origin)?;
			storage::unhashed::put_raw(well_known_keys::CODE, &code);
			Self::deposit_event(RawEvent::CodeUpdated);
		}

		/// Set the new changes trie configuration.
		#[weight = SimpleDispatchInfo::FixedOperational(20_000)]
		pub fn set_changes_trie_config(origin, changes_trie_config: Option<ChangesTrieConfiguration>) {
			ensure_root(origin)?;
			match changes_trie_config.clone() {
				Some(changes_trie_config) => storage::unhashed::put_raw(
					well_known_keys::CHANGES_TRIE_CONFIG,
					&changes_trie_config.encode(),
				),
				None => storage::unhashed::kill(well_known_keys::CHANGES_TRIE_CONFIG),
			}

			let log = generic::DigestItem::ChangesTrieSignal(
				generic::ChangesTrieSignal::NewConfiguration(changes_trie_config),
			);
			Self::deposit_log(log.into());
		}

		/// Set some items of storage.
		#[weight = SimpleDispatchInfo::FixedOperational(10_000)]
		fn set_storage(origin, items: Vec<KeyValue>) {
			ensure_root(origin)?;
			for i in &items {
				storage::unhashed::put_raw(&i.0, &i.1);
			}
		}

		/// Kill some items from storage.
		#[weight = SimpleDispatchInfo::FixedOperational(10_000)]
		fn kill_storage(origin, keys: Vec<Key>) {
			ensure_root(origin)?;
			for key in &keys {
				storage::unhashed::kill(&key);
			}
		}

		/// Kill all storage items with a key that starts with the given prefix.
		#[weight = SimpleDispatchInfo::FixedOperational(10_000)]
		fn kill_prefix(origin, prefix: Key) {
			ensure_root(origin)?;
			storage::unhashed::kill_prefix(&prefix);
		}
	}
}

pub struct EnsureRoot<AccountId>(sp_std::marker::PhantomData<AccountId>);
impl<
	O: Into<Result<RawOrigin<AccountId>, O>> + From<RawOrigin<AccountId>>,
	AccountId,
> EnsureOrigin<O> for EnsureRoot<AccountId> {
	fn try_origin(o: O) -> Result<Self::Success, O> {
		o.into().and_then(|o| match o {
			RawOrigin::Root => Ok(()),
			r => Err(O::from(r)),
		})
	}
}

pub struct EnsureSigned<AccountId>(sp_std::marker::PhantomData<AccountId>);
impl<
	O: Into<Result<RawOrigin<AccountId>, O>> + From<RawOrigin<AccountId>>,
	AccountId,
> EnsureOrigin<O> for EnsureSigned<AccountId> {
	type Success = AccountId;
	fn try_origin(o: O) -> Result<Self::Success, O> {
		o.into().and_then(|o| match o {
			RawOrigin::Signed(who) => Ok(who),
			r => Err(O::from(r)),
		})
	}
}

pub struct EnsureSignedBy<Who, AccountId>(sp_std::marker::PhantomData<(Who, AccountId)>);
impl<
	O: Into<Result<RawOrigin<AccountId>, O>> + From<RawOrigin<AccountId>>,
	Who: Contains<AccountId>,
	AccountId: PartialEq + Clone + Ord,
> EnsureOrigin<O> for EnsureSignedBy<Who, AccountId> {
	type Success = AccountId;
	fn try_origin(o: O) -> Result<Self::Success, O> {
		o.into().and_then(|o| match o {
			RawOrigin::Signed(ref who) if Who::contains(who) => Ok(who.clone()),
			r => Err(O::from(r)),
		})
	}
}

pub struct EnsureNone<AccountId>(sp_std::marker::PhantomData<AccountId>);
impl<
	O: Into<Result<RawOrigin<AccountId>, O>> + From<RawOrigin<AccountId>>,
	AccountId,
> EnsureOrigin<O> for EnsureNone<AccountId> {
	type Success = ();
	fn try_origin(o: O) -> Result<Self::Success, O> {
		o.into().and_then(|o| match o {
			RawOrigin::None => Ok(()),
			r => Err(O::from(r)),
		})
	}
}

pub struct EnsureNever<T>(sp_std::marker::PhantomData<T>);
impl<O, T> EnsureOrigin<O> for EnsureNever<T> {
	type Success = T;
	fn try_origin(o: O) -> Result<Self::Success, O> {
		Err(o)
/// Ensure that the origin `o` represents a signed extrinsic (i.e. transaction).
/// Returns `Ok` with the account that signed the extrinsic or an `Err` otherwise.
pub fn ensure_signed<OuterOrigin, AccountId>(o: OuterOrigin) -> Result<AccountId, BadOrigin>
	where OuterOrigin: Into<Result<RawOrigin<AccountId>, OuterOrigin>>
{
	match o.into() {
		Ok(RawOrigin::Signed(t)) => Ok(t),
		_ => Err(BadOrigin),
	}
}

/// Ensure that the origin `o` represents the root. Returns `Ok` or an `Err` otherwise.
pub fn ensure_root<OuterOrigin, AccountId>(o: OuterOrigin) -> Result<(), BadOrigin>
	where OuterOrigin: Into<Result<RawOrigin<AccountId>, OuterOrigin>>
{
	match o.into() {
		Ok(RawOrigin::Root) => Ok(()),
		_ => Err(BadOrigin),
	}
}

/// Ensure that the origin `o` represents an unsigned extrinsic. Returns `Ok` or an `Err` otherwise.
pub fn ensure_none<OuterOrigin, AccountId>(o: OuterOrigin) -> Result<(), BadOrigin>
	where OuterOrigin: Into<Result<RawOrigin<AccountId>, OuterOrigin>>
{
	match o.into() {
		Ok(RawOrigin::None) => Ok(()),
		_ => Err(BadOrigin),
/// A type of block initialization to perform.
pub enum InitKind {
	/// Leave inspectable storage entries in state.
	///
	/// i.e. `Events` are not being reset.
	/// Should only be used for off-chain calls,
	/// regular block execution should clear those.
	Inspection,

	/// Reset also inspectable storage entries.
	///
	/// This should be used for regular block execution.
	Full,
}

impl Default for InitKind {
	fn default() -> Self {
		InitKind::Full
	}
}

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impl<T: Trait> Module<T> {
	/// Deposits an event into this block's event record.
	pub fn deposit_event(event: impl Into<T::Event>) {
		Self::deposit_event_indexed(&[], event.into());
	}

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		/// Deposits an event into this block's event record adding this event
	/// to the corresponding topic indexes.
	///
	/// This will update storage entries that correspond to the specified topics.
	/// It is expected that light-clients could subscribe to this topics.
	pub fn deposit_event_indexed(topics: &[T::Hash], event: T::Event) {
		let extrinsic_index = Self::extrinsic_index();
		let phase = extrinsic_index.map_or(Phase::Finalization, |c| Phase::ApplyExtrinsic(c));
		let event = EventRecord {
			phase,
			event,
			topics: topics.iter().cloned().collect::<Vec<_>>(),
		};

		// Index of the to be added event.
		let event_idx = {
			let old_event_count = EventCount::get();
			let new_event_count = match old_event_count.checked_add(1) {
				// We've reached the maximum number of events at this block, just
				// don't do anything and leave the event_count unaltered.
				None => return,
				Some(nc) => nc,
			};
			EventCount::put(new_event_count);
			old_event_count
		};

		// Appending can only fail if `Events<T>` can not be decoded or
		// when we try to insert more than `u32::max_value()` events.
		//
		// We perform early return if we've reached the maximum capacity of the event list,
		// so `Events<T>` seems to be corrupted. Also, this has happened after the start of execution
		// (since the event list is cleared at the block initialization).
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		if <Events<T>>::append([event].iter()).is_err() {
			// The most sensible thing to do here is to just ignore this event and wait until the
			// new block.
			return;
		}

		let block_no = Self::block_number();
		for topic in topics {
			// The same applies here.
			if <EventTopics<T>>::append(topic, &[(block_no, event_idx)]).is_err() {
	/// Gets the index of extrinsic that is currently executing.
	pub fn extrinsic_index() -> Option<u32> {
		storage::unhashed::get(well_known_keys::EXTRINSIC_INDEX)
	/// Gets extrinsics count.
	pub fn extrinsic_count() -> u32 {
		ExtrinsicCount::get().unwrap_or_default()
	/// Gets a total weight of all executed extrinsics.
	pub fn all_extrinsics_weight() -> Weight {
		AllExtrinsicsWeight::get().unwrap_or_default()
	pub fn all_extrinsics_len() -> u32 {
		AllExtrinsicsLen::get().unwrap_or_default()
	}

	/// Inform the system module of some additional weight that should be accounted for, in the
	/// current block.
	///
	/// NOTE: use with extra care; this function is made public only be used for certain modules
	/// that need it. A runtime that does not have dynamic calls should never need this and should
	/// stick to static weights. A typical use case for this is inner calls or smart contract calls.
	/// Furthermore, it only makes sense to use this when it is presumably  _cheap_ to provide the
	/// argument `weight`; In other words, if this function is to be used to account for some
	/// unknown, user provided call's weight, it would only make sense to use it if you are sure you
	/// can rapidly compute the weight of the inner call.
	///
	/// Even more dangerous is to note that this function does NOT take any action, if the new sum
	/// of block weight is more than the block weight limit. This is what the _unchecked_.
	///
	/// Another potential use-case could be for the `on_initialize` and `on_finalize` hooks.
	///
	/// If no previous weight exists, the function initializes the weight to zero.
	pub fn register_extra_weight_unchecked(weight: Weight) {
		let current_weight = AllExtrinsicsWeight::get().unwrap_or_default();
		let next_weight = current_weight.saturating_add(weight).min(T::MaximumBlockWeight::get());
		AllExtrinsicsWeight::put(next_weight);
	}

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	/// Start the execution of a particular block.
	pub fn initialize(
		number: &T::BlockNumber,
		parent_hash: &T::Hash,
		txs_root: &T::Hash,
		digest: &DigestOf<T>,
		// populate environment
		storage::unhashed::put(well_known_keys::EXTRINSIC_INDEX, &0u32);
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		<Number<T>>::put(number);
		<Digest<T>>::put(digest);
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		<ParentHash<T>>::put(parent_hash);
		<BlockHash<T>>::insert(*number - One::one(), parent_hash);
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		<ExtrinsicsRoot<T>>::put(txs_root);

		if let InitKind::Full = kind {
			<Events<T>>::kill();
			EventCount::kill();
			<EventTopics<T>>::remove_all();
		}
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	}

	/// Remove temporary "environment" entries in storage.
	pub fn finalize() -> T::Header {
		ExtrinsicCount::kill();
		AllExtrinsicsWeight::kill();
		AllExtrinsicsLen::kill();
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		let number = <Number<T>>::take();
		let parent_hash = <ParentHash<T>>::take();
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		let extrinsics_root = <ExtrinsicsRoot<T>>::take();

		// move block hash pruning window by one block
		let block_hash_count = <T::BlockHashCount>::get();
		if number > block_hash_count {
			let to_remove = number - block_hash_count - One::one();

			// keep genesis hash
			if to_remove != Zero::zero() {
				<BlockHash<T>>::remove(to_remove);
			}
		}

		let storage_root = T::Hash::decode(&mut &sp_io::storage::root()[..])
			.expect("Node is configured to use the same hash; qed");
		let storage_changes_root = sp_io::storage::changes_root(&parent_hash.encode());

		// we can't compute changes trie root earlier && put it to the Digest
		// because it will include all currently existing temporaries.
		if let Some(storage_changes_root) = storage_changes_root {
			let item = generic::DigestItem::ChangesTrieRoot(
				T::Hash::decode(&mut &storage_changes_root[..])
					.expect("Node is configured to use the same hash; qed")
			);
		// The following fields
		//
		// - <Events<T>>
		// - <EventCount<T>>
		// - <EventTopics<T>>
		//
		// stay to be inspected by the client and will be cleared by `Self::initialize`.
		<T::Header as traits::Header>::new(number, extrinsics_root, storage_root, parent_hash, digest)
	/// Deposits a log and ensures it matches the block's log data.
	pub fn deposit_log(item: DigestItemOf<T>) {
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		let mut l = <Digest<T>>::get();
		l.push(item);
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		<Digest<T>>::put(l);
	}

	/// Get the basic externalities for this module, useful for tests.
	#[cfg(any(feature = "std", test))]
	pub fn externalities() -> TestExternalities {
		TestExternalities::new(sp_core::storage::Storage {
			top: map![
				<BlockHash<T>>::hashed_key_for(T::BlockNumber::zero()) => [69u8; 32].encode(),
				<Number<T>>::hashed_key().to_vec() => T::BlockNumber::one().encode(),
				<ParentHash<T>>::hashed_key().to_vec() => [69u8; 32].encode()
			],
			children: map![],
		})
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	}

	/// Set the block number to something in particular. Can be used as an alternative to
	/// `initialize` for tests that don't need to bother with the other environment entries.
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	#[cfg(any(feature = "std", test))]
	pub fn set_block_number(n: T::BlockNumber) {
		<Number<T>>::put(n);
	}

	/// Sets the index of extrinsic that is currently executing.
	#[cfg(any(feature = "std", test))]
	pub fn set_extrinsic_index(extrinsic_index: u32) {
		storage::unhashed::put(well_known_keys::EXTRINSIC_INDEX, &extrinsic_index)
	/// Set the parent hash number to something in particular. Can be used as an alternative to
	/// `initialize` for tests that don't need to bother with the other environment entries.
	#[cfg(any(feature = "std", test))]
	pub fn set_parent_hash(n: T::Hash) {
		<ParentHash<T>>::put(n);
	}

	/// Set the current block weight. This should only be used in some integration tests.
	#[cfg(any(feature = "std", test))]
	pub fn set_block_limits(weight: Weight, len: usize) {
		AllExtrinsicsWeight::put(weight);
		AllExtrinsicsLen::put(len as u32);
	}

	/// Return the chain's current runtime version.
	pub fn runtime_version() -> RuntimeVersion { T::Version::get() }

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	/// Retrieve the account transaction counter from storage.
	pub fn account_nonce(who: impl EncodeLike<T::AccountId>) -> T::Index {
		Account::<T>::get(who).0
	}

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	/// Increment a particular account's nonce by 1.
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	pub fn inc_account_nonce(who: impl EncodeLike<T::AccountId>) {
		Account::<T>::mutate(who, |a| a.0 += T::Index::one());
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	}
	/// Note what the extrinsic data of the current extrinsic index is. If this
	/// is called, then ensure `derive_extrinsics` is also called before
	/// block-building is completed.
	/// NOTE: This function is called only when the block is being constructed locally.
	/// `execute_block` doesn't note any extrinsics.
	pub fn note_extrinsic(encoded_xt: Vec<u8>) {
		ExtrinsicData::insert(Self::extrinsic_index().unwrap_or_default(), encoded_xt);
	}

	/// To be called immediately after an extrinsic has been applied.
	pub fn note_applied_extrinsic(r: &DispatchOutcome, _encoded_len: u32, info: DispatchInfo) {
		Self::deposit_event(
			match r {
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				Ok(()) => RawEvent::ExtrinsicSuccess(info),
				Err(err) => {
					sp_runtime::print(err);
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					RawEvent::ExtrinsicFailed(err.clone(), info)

		let next_extrinsic_index = Self::extrinsic_index().unwrap_or_default() + 1u32;
		storage::unhashed::put(well_known_keys::EXTRINSIC_INDEX, &next_extrinsic_index);
	}

	/// To be called immediately after `note_applied_extrinsic` of the last extrinsic of the block
	/// has been called.
	pub fn note_finished_extrinsics() {
		let extrinsic_index: u32 = storage::unhashed::take(well_known_keys::EXTRINSIC_INDEX)
			.unwrap_or_default();
		ExtrinsicCount::put(extrinsic_index);
	/// Remove all extrinsic data and save the extrinsics trie root.
	pub fn derive_extrinsics() {
		let extrinsics = (0..ExtrinsicCount::get().unwrap_or_default())
			.map(ExtrinsicData::take).collect();
		let xts_root = extrinsics_data_root::<T::Hashing>(extrinsics);
		<ExtrinsicsRoot<T>>::put(xts_root);
	}
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	/// An account is being created.
	pub fn on_created_account(who: T::AccountId) {
		T::OnNewAccount::on_new_account(&who);
		Self::deposit_event(RawEvent::NewAccount(who));
	}

	/// Kill the account and reap any related information.
	pub fn kill_account(who: T::AccountId) {
		if Account::<T>::contains_key(&who) {
			Account::<T>::remove(&who);
			Self::on_killed_account(who);
		}
	}

	/// Do anything that needs to be done after an account has been killed.
	fn on_killed_account(who: T::AccountId) {
		T::OnReapAccount::on_reap_account(&who);
		Self::deposit_event(RawEvent::ReapedAccount(who));
	}
}

/// Event handler which calls on_created_account when it happens.
pub struct CallOnCreatedAccount<T>(PhantomData<T>);
impl<T: Trait> Happened<T::AccountId> for CallOnCreatedAccount<T> {
	fn happened(who: &T::AccountId) {
		Module::<T>::on_created_account(who.clone());
	}
}

/// Event handler which calls kill_account when it happens.
pub struct CallKillAccount<T>(PhantomData<T>);
impl<T: Trait> Happened<T::AccountId> for CallKillAccount<T> {
	fn happened(who: &T::AccountId) {
		Module::<T>::kill_account(who.clone());
	}
}

// Implement StoredMap for a simple single-item, kill-account-on-remove system. This works fine for
// storing a single item which is required to not be empty/default for the account to exist.
// Anything more complex will need more sophisticated logic.
impl<T: Trait> StoredMap<T::AccountId, T::AccountData> for Module<T> {
	fn get(k: &T::AccountId) -> T::AccountData {
		Account::<T>::get(k).1
	}
	fn is_explicit(k: &T::AccountId) -> bool {
		Account::<T>::contains_key(k)
	}
	fn insert(k: &T::AccountId, t: T::AccountData) {
		let existed = Account::<T>::contains_key(k);
		Account::<T>::insert(k, (T::Index::default(), t));
		if !existed {
			Self::on_created_account(k.clone());
		}
	}
	fn remove(k: &T::AccountId) {
		if Account::<T>::contains_key(&k) {
			Self::kill_account(k.clone());
		}
	}
	fn mutate<R>(k: &T::AccountId, f: impl FnOnce(&mut T::AccountData) -> R) -> R {
		let existed = Account::<T>::contains_key(k);
		let r = Account::<T>::mutate(k, |a| f(&mut a.1));
		if !existed {
			Self::on_created_account(k.clone());
		}
		r
	}
	fn mutate_exists<R>(k: &T::AccountId, f: impl FnOnce(&mut Option<T::AccountData>) -> R) -> R {
		let (existed, exists, r) = Account::<T>::mutate_exists(k, |maybe_value| {
			let existed = maybe_value.is_some();
			let (maybe_nonce, mut maybe_extra) = split_inner(maybe_value.take(), |v| v);
			let r = f(&mut maybe_extra);
			*maybe_value = maybe_extra.map(|extra| (maybe_nonce.unwrap_or_default(), extra));
			(existed, maybe_value.is_some(), r)
		});
		if !existed && exists {
			Self::on_created_account(k.clone());
		} else if existed && !exists {
			Self::on_killed_account(k.clone());
		}
		r
	}
	fn try_mutate_exists<R, E>(k: &T::AccountId, f: impl FnOnce(&mut Option<T::AccountData>) -> Result<R, E>) -> Result<R, E> {
		Account::<T>::try_mutate_exists(k, |maybe_value| {
			let existed = maybe_value.is_some();
			let (maybe_nonce, mut maybe_extra) = split_inner(maybe_value.take(), |v| v);
			f(&mut maybe_extra).map(|v| {
				*maybe_value = maybe_extra.map(|extra| (maybe_nonce.unwrap_or_default(), extra));
				(existed, maybe_value.is_some(), v)
			})
		}).map(|(existed, exists, v)| {
			if !existed && exists {
				Self::on_created_account(k.clone());
			} else if existed && !exists {
				Self::on_killed_account(k.clone());
			}