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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/>.
//! # I'm online Module
//!
//! If the local node is a validator (i.e. contains an authority key), this module
//! gossips a heartbeat transaction with each new session. The heartbeat functions
//! as a simple mechanism to signal that the node is online in the current era.
//!
//! Received heartbeats are tracked for one era and reset with each new era. The
//! module exposes two public functions to query if a heartbeat has been received
//! in the current era or session.
//!
//! The heartbeat is a signed transaction, which was signed using the session key
//! and includes the recent best block number of the local validators chain as well
//! as the [NetworkState](../../core/offchain/struct.NetworkState.html).
//! It is submitted as an Unsigned Transaction via off-chain workers.
//!
//! - [`im_online::Trait`](./trait.Trait.html)
//! - [`Call`](./enum.Call.html)
//! - [`Module`](./struct.Module.html)
//!
//! ## Interface
//!
//! ### Public Functions
//!
//! - `is_online_in_current_session` - True if the validator sent a heartbeat in the current session.
//!
//! ## Usage
//!
//! ```
//! use support::{decl_module, dispatch::Result};
//! use system::ensure_signed;
//! use srml_im_online::{self as im_online};
//!
//! pub trait Trait: im_online::Trait {}
//!
//! decl_module! {
//! pub struct Module<T: Trait> for enum Call where origin: T::Origin {
//! pub fn is_online(origin, authority_index: u32) -> Result {
//! let _sender = ensure_signed(origin)?;
//! let _is_online = <im_online::Module<T>>::is_online_in_current_session(authority_index);
//! Ok(())
//! }
//! }
//! }
//! # fn main() { }
//! ```
//!
//! ## Dependencies
//!
//! This module depends on the [Session module](../srml_session/index.html).
// Ensure we're `no_std` when compiling for Wasm.
#![cfg_attr(not(feature = "std"), no_std)]
mod mock;
mod tests;
use app_crypto::RuntimeAppPublic;
use primitives::offchain::{OpaqueNetworkState, StorageKind};
use rstd::prelude::*;
use session::historical::IdentificationTuple;
traits::{Convert, Member, Printable, Saturating}, Perbill,
transaction_validity::{
TransactionValidity, TransactionLongevity, ValidTransaction, InvalidTransaction,
},
offence::{ReportOffence, Offence, Kind},
};
decl_module, decl_event, decl_storage, print, ensure, Parameter, debug
use system::offchain::SubmitUnsignedTransaction;
pub mod sr25519 {
mod app_sr25519 {
use app_crypto::{app_crypto, key_types::IM_ONLINE, sr25519};
app_crypto!(sr25519, IM_ONLINE);
}
/// An i'm online keypair using sr25519 as its crypto.
#[cfg(feature = "std")]
pub type AuthorityPair = app_sr25519::Pair;
/// An i'm online signature using sr25519 as its crypto.
pub type AuthoritySignature = app_sr25519::Signature;
/// An i'm online identifier using sr25519 as its crypto.
pub type AuthorityId = app_sr25519::Public;
pub mod ed25519 {
mod app_ed25519 {
use app_crypto::{app_crypto, key_types::IM_ONLINE, ed25519};
app_crypto!(ed25519, IM_ONLINE);
}
/// An i'm online keypair using ed25519 as its crypto.
#[cfg(feature = "std")]
pub type AuthorityPair = app_ed25519::Pair;
/// An i'm online signature using ed25519 as its crypto.
pub type AuthoritySignature = app_ed25519::Signature;
/// An i'm online identifier using ed25519 as its crypto.
pub type AuthorityId = app_ed25519::Public;
}
/// The local storage database key under which the worker progress status
/// is tracked.
const DB_KEY: &[u8] = b"srml/im-online-worker-status";
/// It's important to persist the worker state, since e.g. the
/// server could be restarted while starting the gossip process, but before
/// finishing it. With every execution of the off-chain worker we check
/// if we need to recover and resume gossipping or if there is already
/// another off-chain worker in the process of gossipping.
#[derive(Encode, Decode, Clone, PartialEq, Eq, RuntimeDebug)]
struct WorkerStatus<BlockNumber> {
done: bool,
gossipping_at: BlockNumber,
}
/// Error which may occur while executing the off-chain code.
enum OffchainErr {
DecodeWorkerStatus,
FailedSigning,
NetworkState,
SubmitTransaction,
}
impl Printable for OffchainErr {
match self {
OffchainErr::DecodeWorkerStatus => print("Offchain error: decoding WorkerStatus failed!"),
OffchainErr::FailedSigning => print("Offchain error: signing failed!"),
OffchainErr::NetworkState => print("Offchain error: fetching network state failed!"),
OffchainErr::SubmitTransaction => print("Offchain error: submitting transaction failed!"),
}
}
}
pub type AuthIndex = u32;
/// Heartbeat which is sent/received.
#[derive(Encode, Decode, Clone, PartialEq, Eq, RuntimeDebug)]
where BlockNumber: PartialEq + Eq + Decode + Encode,
{
block_number: BlockNumber,
network_state: OpaqueNetworkState,
session_index: SessionIndex,
authority_index: AuthIndex,
pub trait Trait: system::Trait + session::historical::Trait {
/// The identifier type for an authority.
type AuthorityId: Member + Parameter + RuntimeAppPublic + Default + Ord;
type Event: From<Event<Self>> + Into<<Self as system::Trait>::Event>;
/// A transaction submitter.
type SubmitTransaction: SubmitUnsignedTransaction<Self, <Self as Trait>::Call>;
/// A type that gives us the ability to submit unresponsiveness offence reports.
type ReportUnresponsiveness:
ReportOffence<
Self::AccountId,
IdentificationTuple<Self>,
UnresponsivenessOffence<IdentificationTuple<Self>>,
>;
pub enum Event<T> where
<T as Trait>::AuthorityId,
{
/// A new heartbeat was received from `AuthorityId`
HeartbeatReceived(AuthorityId),
}
);
decl_storage! {
trait Store for Module<T: Trait> as ImOnline {
/// The block number when we should gossip.
GossipAt get(fn gossip_at): T::BlockNumber;
/// The current set of keys that may issue a heartbeat.
Keys get(fn keys): Vec<T::AuthorityId>;
/// For each session index we keep a mapping of `AuthorityId`
/// to `offchain::OpaqueNetworkState`.
ReceivedHeartbeats get(fn received_heartbeats): double_map SessionIndex,
build(|config| Module::<T>::initialize_keys(&config.keys))
decl_module! {
pub struct Module<T: Trait> for enum Call where origin: T::Origin {
fn deposit_event() = default;
signature: <T::AuthorityId as RuntimeAppPublic>::Signature
) {
ensure_none(origin)?;
let current_session = <session::Module<T>>::current_index();
ensure!(current_session == heartbeat.session_index, "Outdated heartbeat received.");
let exists = <ReceivedHeartbeats>::exists(
¤t_session,
&heartbeat.authority_index
);
let public = keys.get(heartbeat.authority_index as usize);
if let (true, Some(public)) = (!exists, public) {
Tomasz Drwięga
committed
let signature_valid = heartbeat.using_encoded(|encoded_heartbeat| {
public.verify(&encoded_heartbeat, &signature)
});
Tomasz Drwięga
committed
Self::deposit_event(Event::<T>::HeartbeatReceived(public.clone()));
let network_state = heartbeat.network_state.encode();
<ReceivedHeartbeats>::insert(
¤t_session,
&heartbeat.authority_index,
&network_state
);
} else if exists {
Err("Duplicated heartbeat.")?
} else {
Err("Non existent public key.")?
}
}
// Runs after every block.
fn offchain_worker(now: T::BlockNumber) {
// Only send messages if we are a potential validator.
if runtime_io::is_validator() {
}
}
}
impl<T: Trait> Module<T> {
/// Returns `true` if a heartbeat has been received for the authority at `authority_index` in
/// the authorities series, during the current session. Otherwise `false`.
pub fn is_online_in_current_session(authority_index: AuthIndex) -> bool {
let current_session = <session::Module<T>>::current_index();
<ReceivedHeartbeats>::exists(¤t_session, &authority_index)
}
pub(crate) fn offchain(now: T::BlockNumber) {
let next_gossip = <GossipAt<T>>::get();
let check = Self::check_not_yet_gossipped(now, next_gossip);
let (curr_worker_status, not_yet_gossipped) = match check {
Ok((s, v)) => (s, v),
Err(err) => {
print(err);
return;
};
if next_gossip < now && not_yet_gossipped {
let value_set = Self::compare_and_set_worker_status(now, false, curr_worker_status);
if !value_set {
// value could not be set in local storage, since the value was
// different from `curr_worker_status`. this indicates that
// another worker was running in parallel.
return;
}
match Self::do_gossip_at(now) {
Ok(_) => {},
Err(err) => print(err),
}
} else {
debug::native::trace!(
target: "imonline",
"Skipping gossip at: {:?} >= {:?} || {:?}",
next_gossip,
now,
if not_yet_gossipped { "not gossipped" } else { "gossipped" }
);
fn do_gossip_at(block_number: T::BlockNumber) -> Result<(), OffchainErr> {
// we run only when a local authority key is configured
let authorities = Keys::<T>::get();
let mut local_keys = T::AuthorityId::all();
local_keys.sort();
for (authority_index, key) in authorities.into_iter()
.enumerate()
.filter_map(|(index, authority)| {
local_keys.binary_search(&authority)
.ok()
.map(|location| (index as u32, &local_keys[location]))
})
{
let network_state = runtime_io::network_state().map_err(|_| OffchainErr::NetworkState)?;
let heartbeat_data = Heartbeat {
block_number,
network_state,
session_index: <session::Module<T>>::current_index(),
authority_index,
};
let signature = key.sign(&heartbeat_data.encode()).ok_or(OffchainErr::FailedSigning)?;
let call = Call::heartbeat(heartbeat_data, signature);
debug::info!(
target: "imonline",
"[index: {:?}] Reporting im-online at block: {:?}",
authority_index,
block_number
);
T::SubmitTransaction::submit_unsigned(call)
.map_err(|_| OffchainErr::SubmitTransaction)?;
// once finished we set the worker status without comparing
// if the existing value changed in the meantime. this is
// because at this point the heartbeat was definitely submitted.
Self::set_worker_status(block_number, true);
}
Ok(())
}
fn compare_and_set_worker_status(
gossipping_at: T::BlockNumber,
done: bool,
curr_worker_status: Option<Vec<u8>>,
) -> bool {
let enc = WorkerStatus {
done,
gossipping_at,
};
runtime_io::local_storage_compare_and_set(
StorageKind::PERSISTENT,
DB_KEY,
curr_worker_status.as_ref().map(Vec::as_slice),
&enc.encode()
)
}
fn set_worker_status(
gossipping_at: T::BlockNumber,
done: bool,
) {
let enc = WorkerStatus {
done,
gossipping_at,
runtime_io::local_storage_set(
StorageKind::PERSISTENT, DB_KEY, &enc.encode());
// Checks if a heartbeat gossip already occurred at this block number.
// Returns a tuple of `(current worker status, bool)`, whereby the bool
// is true if not yet gossipped.
fn check_not_yet_gossipped(
now: T::BlockNumber,
next_gossip: T::BlockNumber,
) -> Result<(Option<Vec<u8>>, bool), OffchainErr> {
let last_gossip = runtime_io::local_storage_get(StorageKind::PERSISTENT, DB_KEY);
match last_gossip {
Some(last) => {
let worker_status: WorkerStatus<T::BlockNumber> = Decode::decode(&mut &last[..])
.map_err(|_| OffchainErr::DecodeWorkerStatus)?;
let was_aborted = !worker_status.done && worker_status.gossipping_at < now;
// another off-chain worker is currently in the process of submitting
let already_submitting =
!worker_status.done && worker_status.gossipping_at == now;
let not_yet_gossipped =
worker_status.done && worker_status.gossipping_at < next_gossip;
let ret = (was_aborted && !already_submitting) || not_yet_gossipped;
Ok((Some(last), ret))
fn initialize_keys(keys: &[T::AuthorityId]) {
assert!(Keys::<T>::get().is_empty(), "Keys are already initialized!");
impl<T: Trait> sr_primitives::BoundToRuntimeAppPublic for Module<T> {
type Public = T::AuthorityId;
}
impl<T: Trait> session::OneSessionHandler<T::AccountId> for Module<T> {
fn on_genesis_session<'a, I: 'a>(validators: I)
where I: Iterator<Item=(&'a T::AccountId, T::AuthorityId)>
{
let keys = validators.map(|x| x.1).collect::<Vec<_>>();
Self::initialize_keys(&keys);
}
fn on_new_session<'a, I: 'a>(_changed: bool, validators: I, _queued_validators: I)
where I: Iterator<Item=(&'a T::AccountId, T::AuthorityId)>
{
// Tell the offchain worker to start making the next session's heartbeats.
<GossipAt<T>>::put(<system::Module<T>>::block_number());
// Remember who the authorities are for the new session.
Keys::<T>::put(validators.map(|x| x.1).collect::<Vec<_>>());
fn on_before_session_ending() {
let mut unresponsive = vec![];
let current_session = <session::Module<T>>::current_index();
let current_validators = <session::Module<T>>::validators();
for (auth_idx, validator_id) in current_validators.into_iter().enumerate() {
let auth_idx = auth_idx as u32;
let exists = <ReceivedHeartbeats>::exists(¤t_session, &auth_idx);
if !exists {
let full_identification = T::FullIdentificationOf::convert(validator_id.clone())
.expect(
"we got the validator_id from current_validators;
current_validators is set of currently acting validators;
the mapping between the validator id and its full identification should be valid;
thus `FullIdentificationOf::convert` can't return `None`;
qed",
);
unresponsive.push((validator_id, full_identification));
}
}
if unresponsive.is_empty() {
return;
}
let validator_set_count = keys.len() as u32;
let offence = UnresponsivenessOffence {
session_index: current_session,
validator_set_count,
offenders: unresponsive,
};
T::ReportUnresponsiveness::report_offence(vec![], offence);
// Remove all received heartbeats from the current session, they have
// already been processed and won't be needed anymore.
<ReceivedHeartbeats>::remove_prefix(&<session::Module<T>>::current_index());
fn on_disabled(_i: usize) {
// ignore
}
}
impl<T: Trait> support::unsigned::ValidateUnsigned for Module<T> {
fn validate_unsigned(call: &Self::Call) -> TransactionValidity {
if let Call::heartbeat(heartbeat, signature) = call {
if <Module<T>>::is_online_in_current_session(heartbeat.authority_index) {
// we already received a heartbeat for this authority
return InvalidTransaction::Stale.into();
// check if session index from heartbeat is recent
let current_session = <session::Module<T>>::current_index();
if heartbeat.session_index != current_session {
return InvalidTransaction::Stale.into();
// verify that the incoming (unverified) pubkey is actually an authority id
let authority_id = match keys.get(heartbeat.authority_index as usize) {
Some(id) => id,
None => return InvalidTransaction::BadProof.into(),
// check signature (this is expensive so we do it last).
let signature_valid = heartbeat.using_encoded(|encoded_heartbeat| {
authority_id.verify(&encoded_heartbeat, &signature)
});
return InvalidTransaction::BadProof.into();
provides: vec![(current_session, authority_id).encode()],
longevity: TransactionLongevity::max_value(),
propagate: true,
} else {
InvalidTransaction::Call.into()
/// An offence that is filed if a validator didn't send a heartbeat message.
#[derive(RuntimeDebug)]
#[cfg_attr(feature = "std", derive(Clone, PartialEq, Eq))]
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pub struct UnresponsivenessOffence<Offender> {
/// The current session index in which we report the unresponsive validators.
///
/// It acts as a time measure for unresponsiveness reports and effectively will always point
/// at the end of the session.
session_index: SessionIndex,
/// The size of the validator set in current session/era.
validator_set_count: u32,
/// Authorities that were unresponsive during the current era.
offenders: Vec<Offender>,
}
impl<Offender: Clone> Offence<Offender> for UnresponsivenessOffence<Offender> {
const ID: Kind = *b"im-online:offlin";
type TimeSlot = SessionIndex;
fn offenders(&self) -> Vec<Offender> {
self.offenders.clone()
}
fn session_index(&self) -> SessionIndex {
self.session_index
}
fn validator_set_count(&self) -> u32 {
self.validator_set_count
}
fn time_slot(&self) -> Self::TimeSlot {
self.session_index
}
fn slash_fraction(offenders: u32, validator_set_count: u32) -> Perbill {
// the formula is min((3 * (k - 1)) / n, 1) * 0.05
let x = Perbill::from_rational_approximation(3 * (offenders - 1), validator_set_count);
x.saturating_mul(Perbill::from_percent(5))