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* Happy new year Updates the copyright years and fixes wrong license headers. * Fix the template * Split HEADER into HEADER-APACHE & HEADER-GPL
456 lines
12 KiB
Rust
456 lines
12 KiB
Rust
// This file is part of Substrate.
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// Copyright (C) 2017-2021 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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//! Generic implementation of an unchecked (pre-verification) extrinsic.
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use sp_std::{fmt, prelude::*};
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use sp_io::hashing::blake2_256;
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use codec::{Decode, Encode, EncodeLike, Input, Error};
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use crate::{
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traits::{
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self, Member, MaybeDisplay, SignedExtension, Checkable, Extrinsic, ExtrinsicMetadata,
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IdentifyAccount,
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},
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generic::CheckedExtrinsic,
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transaction_validity::{TransactionValidityError, InvalidTransaction},
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OpaqueExtrinsic,
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};
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/// Current version of the [`UncheckedExtrinsic`] format.
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const EXTRINSIC_VERSION: u8 = 4;
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/// A extrinsic right from the external world. This is unchecked and so
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/// can contain a signature.
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#[derive(PartialEq, Eq, Clone)]
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pub struct UncheckedExtrinsic<Address, Call, Signature, Extra>
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where
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Extra: SignedExtension
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{
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/// The signature, address, number of extrinsics have come before from
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/// the same signer and an era describing the longevity of this transaction,
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/// if this is a signed extrinsic.
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pub signature: Option<(Address, Signature, Extra)>,
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/// The function that should be called.
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pub function: Call,
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}
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#[cfg(feature = "std")]
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impl<Address, Call, Signature, Extra> parity_util_mem::MallocSizeOf
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for UncheckedExtrinsic<Address, Call, Signature, Extra>
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where
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Extra: SignedExtension
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{
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fn size_of(&self, _ops: &mut parity_util_mem::MallocSizeOfOps) -> usize {
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// Instantiated only in runtime.
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0
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}
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}
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impl<Address, Call, Signature, Extra: SignedExtension>
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UncheckedExtrinsic<Address, Call, Signature, Extra>
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{
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/// New instance of a signed extrinsic aka "transaction".
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pub fn new_signed(
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function: Call,
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signed: Address,
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signature: Signature,
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extra: Extra
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) -> Self {
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UncheckedExtrinsic {
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signature: Some((signed, signature, extra)),
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function,
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}
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}
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/// New instance of an unsigned extrinsic aka "inherent".
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pub fn new_unsigned(function: Call) -> Self {
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UncheckedExtrinsic {
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signature: None,
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function,
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}
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}
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}
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impl<Address, Call, Signature, Extra: SignedExtension> Extrinsic
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for UncheckedExtrinsic<Address, Call, Signature, Extra>
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{
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type Call = Call;
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type SignaturePayload = (
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Address,
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Signature,
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Extra,
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);
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fn is_signed(&self) -> Option<bool> {
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Some(self.signature.is_some())
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}
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fn new(function: Call, signed_data: Option<Self::SignaturePayload>) -> Option<Self> {
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Some(if let Some((address, signature, extra)) = signed_data {
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UncheckedExtrinsic::new_signed(function, address, signature, extra)
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} else {
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UncheckedExtrinsic::new_unsigned(function)
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})
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}
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}
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impl<Address, AccountId, Call, Signature, Extra, Lookup>
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Checkable<Lookup>
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for
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UncheckedExtrinsic<Address, Call, Signature, Extra>
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where
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Address: Member + MaybeDisplay,
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Call: Encode + Member,
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Signature: Member + traits::Verify,
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<Signature as traits::Verify>::Signer: IdentifyAccount<AccountId=AccountId>,
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Extra: SignedExtension<AccountId=AccountId>,
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AccountId: Member + MaybeDisplay,
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Lookup: traits::Lookup<Source=Address, Target=AccountId>,
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{
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type Checked = CheckedExtrinsic<AccountId, Call, Extra>;
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fn check(self, lookup: &Lookup) -> Result<Self::Checked, TransactionValidityError> {
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Ok(match self.signature {
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Some((signed, signature, extra)) => {
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let signed = lookup.lookup(signed)?;
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let raw_payload = SignedPayload::new(self.function, extra)?;
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if !raw_payload.using_encoded(|payload| signature.verify(payload, &signed)) {
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return Err(InvalidTransaction::BadProof.into())
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}
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let (function, extra, _) = raw_payload.deconstruct();
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CheckedExtrinsic {
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signed: Some((signed, extra)),
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function,
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}
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}
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None => CheckedExtrinsic {
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signed: None,
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function: self.function,
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},
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})
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}
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}
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impl<Address, Call, Signature, Extra> ExtrinsicMetadata
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for UncheckedExtrinsic<Address, Call, Signature, Extra>
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where
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Extra: SignedExtension,
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{
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const VERSION: u8 = EXTRINSIC_VERSION;
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type SignedExtensions = Extra;
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}
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/// A payload that has been signed for an unchecked extrinsics.
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///
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/// Note that the payload that we sign to produce unchecked extrinsic signature
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/// is going to be different than the `SignaturePayload` - so the thing the extrinsic
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/// actually contains.
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pub struct SignedPayload<Call, Extra: SignedExtension>((
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Call,
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Extra,
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Extra::AdditionalSigned,
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));
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impl<Call, Extra> SignedPayload<Call, Extra> where
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Call: Encode,
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Extra: SignedExtension,
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{
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/// Create new `SignedPayload`.
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///
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/// This function may fail if `additional_signed` of `Extra` is not available.
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pub fn new(call: Call, extra: Extra) -> Result<Self, TransactionValidityError> {
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let additional_signed = extra.additional_signed()?;
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let raw_payload = (call, extra, additional_signed);
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Ok(Self(raw_payload))
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}
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/// Create new `SignedPayload` from raw components.
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pub fn from_raw(call: Call, extra: Extra, additional_signed: Extra::AdditionalSigned) -> Self {
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Self((call, extra, additional_signed))
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}
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/// Deconstruct the payload into it's components.
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pub fn deconstruct(self) -> (Call, Extra, Extra::AdditionalSigned) {
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self.0
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}
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}
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impl<Call, Extra> Encode for SignedPayload<Call, Extra> where
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Call: Encode,
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Extra: SignedExtension,
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{
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/// Get an encoded version of this payload.
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///
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/// Payloads longer than 256 bytes are going to be `blake2_256`-hashed.
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fn using_encoded<R, F: FnOnce(&[u8]) -> R>(&self, f: F) -> R {
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self.0.using_encoded(|payload| {
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if payload.len() > 256 {
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f(&blake2_256(payload)[..])
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} else {
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f(payload)
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}
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})
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}
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}
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impl<Call, Extra> EncodeLike for SignedPayload<Call, Extra>
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where
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Call: Encode,
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Extra: SignedExtension,
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{}
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impl<Address, Call, Signature, Extra> Decode
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for UncheckedExtrinsic<Address, Call, Signature, Extra>
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where
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Address: Decode,
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Signature: Decode,
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Call: Decode,
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Extra: SignedExtension,
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{
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fn decode<I: Input>(input: &mut I) -> Result<Self, Error> {
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// This is a little more complicated than usual since the binary format must be compatible
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// with substrate's generic `Vec<u8>` type. Basically this just means accepting that there
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// will be a prefix of vector length (we don't need
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// to use this).
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let _length_do_not_remove_me_see_above: Vec<()> = Decode::decode(input)?;
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let version = input.read_byte()?;
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let is_signed = version & 0b1000_0000 != 0;
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let version = version & 0b0111_1111;
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if version != EXTRINSIC_VERSION {
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return Err("Invalid transaction version".into());
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}
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Ok(UncheckedExtrinsic {
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signature: if is_signed { Some(Decode::decode(input)?) } else { None },
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function: Decode::decode(input)?,
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})
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}
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}
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impl<Address, Call, Signature, Extra> Encode
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for UncheckedExtrinsic<Address, Call, Signature, Extra>
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where
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Address: Encode,
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Signature: Encode,
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Call: Encode,
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Extra: SignedExtension,
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{
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fn encode(&self) -> Vec<u8> {
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super::encode_with_vec_prefix::<Self, _>(|v| {
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// 1 byte version id.
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match self.signature.as_ref() {
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Some(s) => {
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v.push(EXTRINSIC_VERSION | 0b1000_0000);
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s.encode_to(v);
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}
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None => {
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v.push(EXTRINSIC_VERSION & 0b0111_1111);
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}
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}
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self.function.encode_to(v);
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})
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}
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}
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impl<Address, Call, Signature, Extra> EncodeLike
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for UncheckedExtrinsic<Address, Call, Signature, Extra>
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where
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Address: Encode,
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Signature: Encode,
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Call: Encode,
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Extra: SignedExtension,
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{}
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#[cfg(feature = "std")]
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impl<Address: Encode, Signature: Encode, Call: Encode, Extra: SignedExtension> serde::Serialize
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for UncheckedExtrinsic<Address, Call, Signature, Extra>
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{
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fn serialize<S>(&self, seq: S) -> Result<S::Ok, S::Error> where S: ::serde::Serializer {
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self.using_encoded(|bytes| seq.serialize_bytes(bytes))
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}
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}
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#[cfg(feature = "std")]
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impl<'a, Address: Decode, Signature: Decode, Call: Decode, Extra: SignedExtension> serde::Deserialize<'a>
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for UncheckedExtrinsic<Address, Call, Signature, Extra>
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{
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fn deserialize<D>(de: D) -> Result<Self, D::Error> where
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D: serde::Deserializer<'a>,
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{
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let r = sp_core::bytes::deserialize(de)?;
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Decode::decode(&mut &r[..])
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.map_err(|e| serde::de::Error::custom(format!("Decode error: {}", e)))
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}
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}
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impl<Address, Call, Signature, Extra> fmt::Debug
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for UncheckedExtrinsic<Address, Call, Signature, Extra>
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where
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Address: fmt::Debug,
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Call: fmt::Debug,
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Extra: SignedExtension,
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{
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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write!(
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f,
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"UncheckedExtrinsic({:?}, {:?})",
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self.signature.as_ref().map(|x| (&x.0, &x.2)),
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self.function,
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)
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}
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}
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impl<Address, Call, Signature, Extra> From<UncheckedExtrinsic<Address, Call, Signature, Extra>>
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for OpaqueExtrinsic
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where
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Address: Encode,
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Signature: Encode,
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Call: Encode,
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Extra: SignedExtension,
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{
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fn from(extrinsic: UncheckedExtrinsic<Address, Call, Signature, Extra>) -> Self {
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OpaqueExtrinsic::from_bytes(extrinsic.encode().as_slice())
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.expect(
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"both OpaqueExtrinsic and UncheckedExtrinsic have encoding that is compatible with \
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raw Vec<u8> encoding; qed"
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)
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}
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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use sp_io::hashing::blake2_256;
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use crate::codec::{Encode, Decode};
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use crate::traits::{SignedExtension, IdentityLookup};
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use crate::testing::TestSignature as TestSig;
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type TestContext = IdentityLookup<u64>;
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type TestAccountId = u64;
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type TestCall = Vec<u8>;
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const TEST_ACCOUNT: TestAccountId = 0;
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// NOTE: this is demonstration. One can simply use `()` for testing.
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#[derive(Debug, Encode, Decode, Clone, Eq, PartialEq, Ord, PartialOrd)]
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struct TestExtra;
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impl SignedExtension for TestExtra {
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const IDENTIFIER: &'static str = "TestExtra";
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type AccountId = u64;
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type Call = ();
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type AdditionalSigned = ();
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type Pre = ();
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fn additional_signed(&self) -> sp_std::result::Result<(), TransactionValidityError> { Ok(()) }
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}
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type Ex = UncheckedExtrinsic<TestAccountId, TestCall, TestSig, TestExtra>;
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type CEx = CheckedExtrinsic<TestAccountId, TestCall, TestExtra>;
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#[test]
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fn unsigned_codec_should_work() {
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let ux = Ex::new_unsigned(vec![0u8; 0]);
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let encoded = ux.encode();
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assert_eq!(Ex::decode(&mut &encoded[..]), Ok(ux));
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}
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#[test]
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fn signed_codec_should_work() {
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let ux = Ex::new_signed(
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vec![0u8; 0],
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TEST_ACCOUNT,
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TestSig(TEST_ACCOUNT, (vec![0u8; 0], TestExtra).encode()),
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TestExtra
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);
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let encoded = ux.encode();
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assert_eq!(Ex::decode(&mut &encoded[..]), Ok(ux));
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}
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#[test]
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fn large_signed_codec_should_work() {
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let ux = Ex::new_signed(
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vec![0u8; 0],
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TEST_ACCOUNT,
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TestSig(TEST_ACCOUNT, (vec![0u8; 257], TestExtra)
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.using_encoded(blake2_256)[..].to_owned()),
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TestExtra
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);
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let encoded = ux.encode();
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assert_eq!(Ex::decode(&mut &encoded[..]), Ok(ux));
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}
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#[test]
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fn unsigned_check_should_work() {
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let ux = Ex::new_unsigned(vec![0u8; 0]);
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assert!(!ux.is_signed().unwrap_or(false));
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assert!(<Ex as Checkable<TestContext>>::check(ux, &Default::default()).is_ok());
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}
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#[test]
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fn badly_signed_check_should_fail() {
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let ux = Ex::new_signed(
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vec![0u8; 0],
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TEST_ACCOUNT,
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TestSig(TEST_ACCOUNT, vec![0u8; 0]),
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TestExtra,
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);
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assert!(ux.is_signed().unwrap_or(false));
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assert_eq!(
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<Ex as Checkable<TestContext>>::check(ux, &Default::default()),
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Err(InvalidTransaction::BadProof.into()),
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);
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}
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#[test]
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fn signed_check_should_work() {
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let ux = Ex::new_signed(
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vec![0u8; 0],
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TEST_ACCOUNT,
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TestSig(TEST_ACCOUNT, (vec![0u8; 0], TestExtra).encode()),
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TestExtra,
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);
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assert!(ux.is_signed().unwrap_or(false));
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assert_eq!(
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<Ex as Checkable<TestContext>>::check(ux, &Default::default()),
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Ok(CEx { signed: Some((TEST_ACCOUNT, TestExtra)), function: vec![0u8; 0] }),
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);
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}
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#[test]
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fn encoding_matches_vec() {
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let ex = Ex::new_unsigned(vec![0u8; 0]);
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let encoded = ex.encode();
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let decoded = Ex::decode(&mut encoded.as_slice()).unwrap();
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assert_eq!(decoded, ex);
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let as_vec: Vec<u8> = Decode::decode(&mut encoded.as_slice()).unwrap();
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assert_eq!(as_vec.encode(), encoded);
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}
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#[test]
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fn conversion_to_opaque() {
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let ux = Ex::new_unsigned(vec![0u8; 0]);
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let encoded = ux.encode();
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let opaque: OpaqueExtrinsic = ux.into();
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let opaque_encoded = opaque.encode();
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assert_eq!(opaque_encoded, encoded);
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}
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}
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