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pezkuwi-subxt/substrate/srml/support/test/tests/instance.rs
T
Gavin Wood bda8641892 New sessions, kill consensus module (#2802) 
* Draft of new sessions

* Reintroduce tuple impls

* Move staking module to new session API

* More work on staking and grandpa.

* Use iterator to avoid cloning and tuple macro

* Make runtime build again

* Polish the OpaqueKeys devex

* Move consensus logic into system & aura.

* Fix up system module

* Get build mostly going. Stuck at service.rs

* Building again

* Update srml/staking/src/lib.rs

Co-Authored-By: DemiMarie-parity <48690212+DemiMarie-parity@users.noreply.github.com>

* Refactoring out Consensus module, AuthorityIdOf, &c.

* Refactored out DigestItem::AuthoritiesChanged. Building.

* Remove tentative code

* Remove invalid comment

* Make Seal opaque and introduce nice methods for handling opaque items.

* Start to use proper digest for Aura authorities tracking.

* Fix up grandpa, remove system::Raw/Log

* Refactor Grandpa to use new logging infrastructure.

Also make authorityid/sessionkey static. Switch over to storing
authorities in a straight Vec.

* Building again

* Tidy up some AuthorityIds

* Expunge most of the rest of the AuthorityKey confusion.

Also, de-generify Babe and re-generify Aura.

* Remove cruft

* Untangle last of the `AuthorityId`s.

* Sort out finality_tracker

* Refactor median getting

* Apply suggestions from code review

Co-Authored-By: Robert Habermeier <rphmeier@gmail.com>

* Session tests works

* Update core/sr-primitives/src/generic/digest.rs

Co-Authored-By: DemiMarie-parity <48690212+DemiMarie-parity@users.noreply.github.com>

* Session tests works

* Fix for staking from @dvc94ch

* log an error

* fix test runtime build

* Some test fixes

* Staking mock update to new session api.

* Fix build.

* Move OpaqueKeys to primitives.

* Use on_initialize instead of check_rotate_session.

* Update tests to new staking api.

* fixup mock

* Fix bond_extra_and_withdraw_unbonded_works.

* Fix bond_with_little_staked_value_bounded_by_slot_stake.

* Fix bond_with_no_staked_value.

* Fix change_controller_works.

* Fix less_than_needed_candidates_works.

* Fix multi_era_reward_should_work.

* Fix nominating_and_rewards_should_work.

* Fix nominators_also_get_slashed.

* Fix phragmen_large_scale_test.

* Fix phragmen_poc_works.

* Fix phragmen_score_should_be_accurate_on_large_stakes.

* Fix phragmen_should_not_overflow.

* Fix reward_destination_works.

* Fix rewards_should_work.

* Fix sessions_and_eras_should_work.

* Fix slot_stake_is_least_staked_validator.

* Fix too_many_unbond_calls_should_not_work.

* Fix wrong_vote_is_null.

* Fix runtime.

* Fix wasm runtime build.

* Update Cargo.lock

* Fix warnings.

* Fix grandpa tests.

* Fix test-runtime build.

* Fix template node build.

* Fix stuff.

* Update Cargo.lock to fix CI

* Re-add missing AuRa logs

Runtimes are required to know about every digest they receive ― they
panic otherwise.  This re-adds support for AuRa pre-runtime digests.

* Update core/consensus/babe/src/digest.rs

Co-Authored-By: DemiMarie-parity <48690212+DemiMarie-parity@users.noreply.github.com>

* Kill log trait and all that jazz.

* Refactor staking tests.

* Fix ci runtime wasm check.

* Line length 120.

* Make tests build again

* Remove trailing commas in function declarations

The `extern_functions!` macro doesn’t like them, perhaps due to a bug in
rustc.

* Fix type error

* Fix compilation errors

* Fix a test

* Another couple of fixes

* Fix another test

* More test fixes

* Another test fix

* Bump runtime.

* Wrap long line

* Fix build, remove redundant code.

* Issue to track TODO

* Leave the benchmark code alone.

* Fix missing `std::time::{Instant, Duration}`

* Indentation

* Aura ConsensusLog as enum
2019-06-14 16:34:34 +02:00

436 lines
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Rust
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// Copyright 2019 Parity Technologies (UK) Ltd.
// This file is part of Substrate.
// Substrate is free software: you can redistribute it and/or modify
// 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,
// 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/>.
#![recursion_limit="128"]
use runtime_io::{with_externalities, Blake2Hasher};
use srml_support::rstd::prelude::*;
use srml_support::rstd as rstd;
use srml_support::runtime_primitives::{generic, BuildStorage};
use srml_support::runtime_primitives::traits::{BlakeTwo256, Block as _, Verify};
use srml_support::Parameter;
use inherents::{
ProvideInherent, InherentData, InherentIdentifier, RuntimeString, MakeFatalError
};
use srml_support::{StorageValue, StorageMap, StorageDoubleMap};
use primitives::{H256, sr25519};
pub trait Currency {
}
// Mock
mod system {
use super::*;
pub trait Trait: 'static + Eq + Clone {
type Origin: Into<Result<RawOrigin<Self::AccountId>, Self::Origin>>
+ From<RawOrigin<Self::AccountId>>;
type BlockNumber;
type Hash;
type AccountId;
type Event: From<Event>;
}
pub type DigestItemOf<T> = generic::DigestItem<<T as Trait>::Hash>;
srml_support::decl_module! {
pub struct Module<T: Trait> for enum Call where origin: T::Origin {
pub fn deposit_event(_event: T::Event) {
}
}
}
impl<T: Trait> Module<T> {
pub fn deposit_log(_item: DigestItemOf<T>) {
unimplemented!();
}
}
srml_support::decl_event!(
pub enum Event {
ExtrinsicSuccess,
ExtrinsicFailed,
}
);
/// Origin for the system module.
#[derive(PartialEq, Eq, Clone)]
#[cfg_attr(feature = "std", derive(Debug))]
pub enum RawOrigin<AccountId> {
Root,
Signed(AccountId),
None,
}
impl<AccountId> From<Option<AccountId>> for RawOrigin<AccountId> {
fn from(s: Option<AccountId>) -> RawOrigin<AccountId> {
match s {
Some(who) => RawOrigin::Signed(who),
None => RawOrigin::None,
}
}
}
pub type Origin<T> = RawOrigin<<T as Trait>::AccountId>;
pub fn ensure_root<OuterOrigin, AccountId>(o: OuterOrigin) -> Result<(), &'static str>
where OuterOrigin: Into<Result<RawOrigin<AccountId>, OuterOrigin>>
{
o.into().map(|_| ()).map_err(|_| "bad origin: expected to be a root origin")
}
}
// Test for:
// * No default instance
// * Custom InstantiableTrait
// * Origin, Inherent, Event
mod module1 {
use super::*;
pub trait Trait<I>: system::Trait {
type Event: From<Event<Self, I>> + Into<<Self as system::Trait>::Event>;
type Origin: From<Origin<Self, I>>;
}
srml_support::decl_module! {
pub struct Module<T: Trait<I>, I: InstantiableThing> for enum Call where origin: <T as system::Trait>::Origin {
fn deposit_event<T, I>() = default;
fn one() {
Self::deposit_event(RawEvent::AnotherVariant(3));
}
}
}
srml_support::decl_storage! {
trait Store for Module<T: Trait<I>, I: InstantiableThing> as Module1 {
pub Value config(value): u64;
pub Map: map u32 => u64;
pub LinkedMap: linked_map u32 => u64;
}
}
srml_support::decl_event! {
pub enum Event<T, I> where Phantom = rstd::marker::PhantomData<T> {
_Phantom(Phantom),
AnotherVariant(u32),
}
}
#[derive(PartialEq, Eq, Clone)]
#[cfg_attr(feature = "std", derive(Debug))]
pub enum Origin<T: Trait<I>, I> {
Members(u32),
_Phantom(rstd::marker::PhantomData<(T, I)>),
}
pub const INHERENT_IDENTIFIER: InherentIdentifier = *b"12345678";
impl<T: Trait<I>, I: InstantiableThing> ProvideInherent for Module<T, I> {
type Call = Call<T, I>;
type Error = MakeFatalError<RuntimeString>;
const INHERENT_IDENTIFIER: InherentIdentifier = INHERENT_IDENTIFIER;
fn create_inherent(_data: &InherentData) -> Option<Self::Call> {
unimplemented!();
}
fn check_inherent(_call: &Self::Call, _data: &InherentData) -> rstd::result::Result<(), Self::Error> {
unimplemented!();
}
}
}
// Test for:
// * default instance
// * use of no_genesis_config_phantom_data
mod module2 {
use super::*;
pub trait Trait<I=DefaultInstance>: system::Trait {
type Amount: Parameter + Default;
type Event: From<Event<Self, I>> + Into<<Self as system::Trait>::Event>;
type Origin: From<Origin<Self, I>>;
}
impl<T: Trait<I>, I: Instance> Currency for Module<T, I> {}
srml_support::decl_module! {
pub struct Module<T: Trait<I>, I: Instance=DefaultInstance> for enum Call where origin: <T as system::Trait>::Origin {
fn deposit_event<T, I>() = default;
}
}
srml_support::decl_storage! {
trait Store for Module<T: Trait<I>, I: Instance=DefaultInstance> as Module2 {
pub Value config(value): T::Amount;
pub Map config(map): map u64 => u64;
pub LinkedMap config(linked_map): linked_map u64 => u64;
pub DoubleMap config(double_map): double_map u64, blake2_256(u64) => u64;
}
extra_genesis_skip_phantom_data_field;
}
srml_support::decl_event! {
pub enum Event<T, I=DefaultInstance> where Amount = <T as Trait<I>>::Amount {
Variant(Amount),
}
}
#[derive(PartialEq, Eq, Clone)]
#[cfg_attr(feature = "std", derive(Debug))]
pub enum Origin<T: Trait<I>, I=DefaultInstance> {
Members(u32),
_Phantom(rstd::marker::PhantomData<(T, I)>),
}
pub const INHERENT_IDENTIFIER: InherentIdentifier = *b"12345678";
impl<T: Trait<I>, I: Instance> ProvideInherent for Module<T, I> {
type Call = Call<T, I>;
type Error = MakeFatalError<RuntimeString>;
const INHERENT_IDENTIFIER: InherentIdentifier = INHERENT_IDENTIFIER;
fn create_inherent(_data: &InherentData) -> Option<Self::Call> {
unimplemented!();
}
fn check_inherent(_call: &Self::Call, _data: &InherentData) -> rstd::result::Result<(), Self::Error> {
unimplemented!();
}
}
}
// Test for:
// * Depends on multiple instances of a module with instances
mod module3 {
use super::*;
pub trait Trait: module2::Trait + module2::Trait<module2::Instance1> + system::Trait {
type Currency: Currency;
type Currency2: Currency;
}
srml_support::decl_module! {
pub struct Module<T: Trait> for enum Call where origin: <T as system::Trait>::Origin {
}
}
}
impl module1::Trait<module1::Instance1> for Runtime {
type Event = Event;
type Origin = Origin;
}
impl module1::Trait<module1::Instance2> for Runtime {
type Event = Event;
type Origin = Origin;
}
impl module2::Trait for Runtime {
type Amount = u16;
type Event = Event;
type Origin = Origin;
}
impl module2::Trait<module2::Instance1> for Runtime {
type Amount = u32;
type Event = Event;
type Origin = Origin;
}
impl module2::Trait<module2::Instance2> for Runtime {
type Amount = u32;
type Event = Event;
type Origin = Origin;
}
impl module2::Trait<module2::Instance3> for Runtime {
type Amount = u64;
type Event = Event;
type Origin = Origin;
}
impl module3::Trait for Runtime {
type Currency = Module2_2;
type Currency2 = Module2_3;
}
pub type Signature = sr25519::Signature;
pub type AccountId = <Signature as Verify>::Signer;
pub type BlockNumber = u64;
pub type Index = u64;
impl system::Trait for Runtime {
type Hash = H256;
type Origin = Origin;
type BlockNumber = BlockNumber;
type AccountId = AccountId;
type Event = Event;
}
srml_support::construct_runtime!(
pub enum Runtime where
Block = Block,
NodeBlock = Block,
UncheckedExtrinsic = UncheckedExtrinsic
{
System: system::{Module, Call, Event},
Module1_1: module1::<Instance1>::{Module, Call, Storage, Event<T, I>, Config<T, I>, Origin<T, I>, Inherent},
Module1_2: module1::<Instance2>::{Module, Call, Storage, Event<T, I>, Config<T, I>, Origin<T, I>, Inherent},
Module2: module2::{Module, Call, Storage, Event<T>, Config<T>, Origin<T>, Inherent},
Module2_1: module2::<Instance1>::{Module, Call, Storage, Event<T, I>, Config<T, I>, Origin<T, I>, Inherent},
Module2_2: module2::<Instance2>::{Module, Call, Storage, Event<T, I>, Config<T, I>, Origin<T, I>, Inherent},
Module2_3: module2::<Instance3>::{Module, Call, Storage, Event<T, I>, Config<T, I>, Origin<T, I>, Inherent},
Module3: module3::{Module, Call},
}
);
pub type Header = generic::Header<BlockNumber, BlakeTwo256>;
pub type Block = generic::Block<Header, UncheckedExtrinsic>;
pub type UncheckedExtrinsic = generic::UncheckedMortalCompactExtrinsic<u32, Index, Call, Signature>;
fn new_test_ext() -> runtime_io::TestExternalities<Blake2Hasher> {
GenesisConfig{
module1_Instance1: Some(module1::GenesisConfig {
value: 3,
.. Default::default()
}),
module1_Instance2: Some(module1::GenesisConfig {
value: 4,
_genesis_phantom_data: Default::default(),
}),
module2: Some(module2::GenesisConfig {
value: 4,
map: vec![(0, 0)],
linked_map: vec![(0, 0)],
double_map: vec![(0, 0, 0)],
}),
module2_Instance1: Some(module2::GenesisConfig {
value: 4,
map: vec![(0, 0)],
linked_map: vec![(0, 0)],
double_map: vec![(0, 0, 0)],
}),
module2_Instance2: None,
module2_Instance3: None,
}.build_storage().unwrap().0.into()
}
#[test]
fn storage_instance_independance() {
with_externalities(&mut new_test_ext(), || {
let mut map = rstd::collections::btree_map::BTreeMap::new();
for key in [
module2::Value::<Runtime>::key().to_vec(),
module2::Value::<Runtime, module2::Instance1>::key().to_vec(),
module2::Value::<Runtime, module2::Instance2>::key().to_vec(),
module2::Value::<Runtime, module2::Instance3>::key().to_vec(),
module2::Map::<Runtime>::prefix().to_vec(),
module2::Map::<Runtime, module2::Instance1>::prefix().to_vec(),
module2::Map::<Runtime, module2::Instance2>::prefix().to_vec(),
module2::Map::<Runtime, module2::Instance3>::prefix().to_vec(),
module2::LinkedMap::<Runtime>::prefix().to_vec(),
module2::LinkedMap::<Runtime, module2::Instance1>::prefix().to_vec(),
module2::LinkedMap::<Runtime, module2::Instance2>::prefix().to_vec(),
module2::LinkedMap::<Runtime, module2::Instance3>::prefix().to_vec(),
module2::DoubleMap::<Runtime>::prefix().to_vec(),
module2::DoubleMap::<Runtime, module2::Instance1>::prefix().to_vec(),
module2::DoubleMap::<Runtime, module2::Instance2>::prefix().to_vec(),
module2::DoubleMap::<Runtime, module2::Instance3>::prefix().to_vec(),
module2::Map::<Runtime>::key_for(0),
module2::Map::<Runtime, module2::Instance1>::key_for(0).to_vec(),
module2::Map::<Runtime, module2::Instance2>::key_for(0).to_vec(),
module2::Map::<Runtime, module2::Instance3>::key_for(0).to_vec(),
module2::LinkedMap::<Runtime>::key_for(0),
module2::LinkedMap::<Runtime, module2::Instance1>::key_for(0).to_vec(),
module2::LinkedMap::<Runtime, module2::Instance2>::key_for(0).to_vec(),
module2::LinkedMap::<Runtime, module2::Instance3>::key_for(0).to_vec(),
module2::Map::<Runtime>::key_for(1),
module2::Map::<Runtime, module2::Instance1>::key_for(1).to_vec(),
module2::Map::<Runtime, module2::Instance2>::key_for(1).to_vec(),
module2::Map::<Runtime, module2::Instance3>::key_for(1).to_vec(),
module2::LinkedMap::<Runtime>::key_for(1),
module2::LinkedMap::<Runtime, module2::Instance1>::key_for(1).to_vec(),
module2::LinkedMap::<Runtime, module2::Instance2>::key_for(1).to_vec(),
module2::LinkedMap::<Runtime, module2::Instance3>::key_for(1).to_vec(),
module2::DoubleMap::<Runtime>::prefix_for(1),
module2::DoubleMap::<Runtime, module2::Instance1>::prefix_for(1).to_vec(),
module2::DoubleMap::<Runtime, module2::Instance2>::prefix_for(1).to_vec(),
module2::DoubleMap::<Runtime, module2::Instance3>::prefix_for(1).to_vec(),
module2::DoubleMap::<Runtime>::key_for(1, 1),
module2::DoubleMap::<Runtime, module2::Instance1>::key_for(1, 1).to_vec(),
module2::DoubleMap::<Runtime, module2::Instance2>::key_for(1, 1).to_vec(),
module2::DoubleMap::<Runtime, module2::Instance3>::key_for(1, 1).to_vec(),
].iter() {
assert!(map.insert(key, ()).is_none())
}
});
}
#[test]
fn storage_with_instance_basic_operation() {
with_externalities(&mut new_test_ext(), || {
type Value = module2::Value<Runtime, module2::Instance1>;
type Map = module2::Map<Runtime, module2::Instance1>;
type LinkedMap = module2::LinkedMap<Runtime, module2::Instance1>;
type DoubleMap = module2::DoubleMap<Runtime, module2::Instance1>;
assert_eq!(Value::exists(), true);
assert_eq!(Value::get(), 4);
Value::put(1);
assert_eq!(Value::get(), 1);
assert_eq!(Value::take(), 1);
assert_eq!(Value::get(), 0);
Value::mutate(|a| *a=2);
assert_eq!(Value::get(), 2);
Value::kill();
assert_eq!(Value::exists(), false);
assert_eq!(Value::get(), 0);
let key = 1;
assert_eq!(Map::exists(0), true);
assert_eq!(Map::exists(key), false);
Map::insert(key, 1);
assert_eq!(Map::get(key), 1);
assert_eq!(Map::take(key), 1);
assert_eq!(Map::get(key), 0);
Map::mutate(key, |a| *a=2);
assert_eq!(Map::get(key), 2);
Map::remove(key);
assert_eq!(Map::exists(key), false);
assert_eq!(Map::get(key), 0);
assert_eq!(LinkedMap::exists(0), true);
assert_eq!(LinkedMap::exists(key), false);
LinkedMap::insert(key, 1);
assert_eq!(LinkedMap::get(key), 1);
assert_eq!(LinkedMap::take(key), 1);
assert_eq!(LinkedMap::get(key), 0);
LinkedMap::mutate(key, |a| *a=2);
assert_eq!(LinkedMap::get(key), 2);
LinkedMap::remove(key);
assert_eq!(LinkedMap::exists(key), false);
assert_eq!(LinkedMap::get(key), 0);
let key1 = 1;
let key2 = 1;
assert_eq!(DoubleMap::exists(0, 0), true);
assert_eq!(DoubleMap::exists(key1, key2), false);
DoubleMap::insert(key1, key2, 1);
assert_eq!(DoubleMap::get(key1, key2), 1);
assert_eq!(DoubleMap::take(key1, key2), 1);
assert_eq!(DoubleMap::get(key1, key2), 0);
DoubleMap::mutate(key1, key2, |a| *a=2);
assert_eq!(DoubleMap::get(key1, key2), 2);
DoubleMap::remove(key1, key2);
assert_eq!(DoubleMap::get(key1, key2), 0);
});
}
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