Merge pull request #369 from sigp/fixed-vec

Implement fixed-length lists for BeaconState
This commit is contained in:
Paul Hauner 2019-05-13 15:16:03 +10:00 committed by GitHub
commit bf23a5b7b0
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152 changed files with 1294 additions and 4644 deletions

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@ -2,9 +2,6 @@ language: rust
cache:
directories:
- /home/travis/.cargo
# Going to try caching the registry
#before_cache:
# - rm -rf /home/travis/.cargo/registry
before_install:
- curl -OL https://github.com/google/protobuf/releases/download/v3.4.0/protoc-3.4.0-linux-x86_64.zip
- unzip protoc-3.4.0-linux-x86_64.zip -d protoc3
@ -12,37 +9,14 @@ before_install:
- sudo mv protoc3/include/* /usr/local/include/
- sudo chown $USER /usr/local/bin/protoc
- sudo chown -R $USER /usr/local/include/google
env:
- BUILD=--all
# Not building --release on travis any more, only GitLab
# - BUILD=--release --all
- BUILD= --manifest-path eth2/state_processing/Cargo.toml --release --features fake_crypto
script:
- cargo build --verbose $BUILD
- cargo test --verbose $BUILD
- cargo fmt --all -- --check
# No clippy until later...
#- cargo clippy
- cargo build --verbose --all --release
rust:
- stable
- beta
- nightly
matrix:
allow_failures:
- rust: nightly
fast_finish: true
exclude:
# Not building --release on travis any more, only GitLab
# - rust: beta
# env: BUILD=--release --all
- rust: beta
env: BUILD= --manifest-path eth2/state_processing/Cargo.toml --release --features fake_crypto
# Not building --release on travis any more, only GitLab
# - rust: nightly
# env: BUILD=--release --all
- rust: nightly
env: BUILD= --manifest-path eth2/state_processing/Cargo.toml --release --features fake_crypto
install:
- rustup component add rustfmt
# No clippy for now
# - rustup component add clippy

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@ -1,15 +1,13 @@
[workspace]
members = [
"eth2/attester",
"eth2/block_proposer",
"eth2/fork_choice",
"eth2/operation_pool",
"eth2/state_processing",
"eth2/state_processing/yaml_utils",
"eth2/types",
"eth2/utils/bls",
"eth2/utils/boolean-bitfield",
"eth2/utils/cached_tree_hash",
"eth2/utils/fixed_len_vec",
"eth2/utils/hashing",
"eth2/utils/honey-badger-split",
"eth2/utils/merkle_proof",
@ -31,7 +29,6 @@ members = [
"beacon_node/rpc",
"beacon_node/version",
"beacon_node/beacon_chain",
"beacon_node/beacon_chain/test_harness",
"protos",
"validator_client",
"account_manager",

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@ -5,7 +5,6 @@ authors = ["Paul Hauner <paul@paulhauner.com>", "Age Manning <Age@AgeManning.com
edition = "2018"
[dependencies]
block_proposer = { path = "../../eth2/block_proposer" }
bls = { path = "../../eth2/utils/bls" }
boolean-bitfield = { path = "../../eth2/utils/boolean-bitfield" }
db = { path = "../db" }

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@ -83,30 +83,31 @@ impl BlockProcessingOutcome {
}
}
pub struct BeaconChain<T: ClientDB + Sized, U: SlotClock, F: ForkChoice> {
pub struct BeaconChain<T: ClientDB + Sized, U: SlotClock, F: ForkChoice, E: EthSpec> {
pub block_store: Arc<BeaconBlockStore<T>>,
pub state_store: Arc<BeaconStateStore<T>>,
pub slot_clock: U,
pub op_pool: OperationPool,
canonical_head: RwLock<CheckPoint>,
finalized_head: RwLock<CheckPoint>,
pub state: RwLock<BeaconState>,
pub op_pool: OperationPool<E>,
canonical_head: RwLock<CheckPoint<E>>,
finalized_head: RwLock<CheckPoint<E>>,
pub state: RwLock<BeaconState<E>>,
pub spec: ChainSpec,
pub fork_choice: RwLock<F>,
}
impl<T, U, F> BeaconChain<T, U, F>
impl<T, U, F, E> BeaconChain<T, U, F, E>
where
T: ClientDB,
U: SlotClock,
F: ForkChoice,
E: EthSpec,
{
/// Instantiate a new Beacon Chain, from genesis.
pub fn from_genesis(
state_store: Arc<BeaconStateStore<T>>,
block_store: Arc<BeaconBlockStore<T>>,
slot_clock: U,
mut genesis_state: BeaconState,
mut genesis_state: BeaconState<E>,
genesis_block: BeaconBlock,
spec: ChainSpec,
fork_choice: F,
@ -190,7 +191,6 @@ where
count: usize,
skip: usize,
) -> Result<Vec<Hash256>, Error> {
let spec = &self.spec;
let step_by = Slot::from(skip + 1);
let mut roots: Vec<Hash256> = vec![];
@ -218,7 +218,7 @@ where
//
// If we get `SlotOutOfBounds` error, load the oldest available historic
// state from the DB.
match state.get_block_root(slot, spec) {
match state.get_block_root(slot) {
Ok(root) => {
if slot < earliest_slot {
break;
@ -230,9 +230,9 @@ where
Err(BeaconStateError::SlotOutOfBounds) => {
// Read the earliest historic state in the current slot.
let earliest_historic_slot =
state.slot - Slot::from(spec.slots_per_historical_root);
state.slot - Slot::from(E::SlotsPerHistoricalRoot::to_usize());
// Load the earlier state from disk.
let new_state_root = state.get_state_root(earliest_historic_slot, spec)?;
let new_state_root = state.get_state_root(earliest_historic_slot)?;
// Break if the DB is unable to load the state.
state = match self.state_store.get_deserialized(&new_state_root) {
@ -270,7 +270,7 @@ where
&self,
new_beacon_block: BeaconBlock,
new_beacon_block_root: Hash256,
new_beacon_state: BeaconState,
new_beacon_state: BeaconState<E>,
new_beacon_state_root: Hash256,
) {
debug!(
@ -292,7 +292,7 @@ where
/// It is important to note that the `beacon_state` returned may not match the present slot. It
/// is the state as it was when the head block was received, which could be some slots prior to
/// now.
pub fn head(&self) -> RwLockReadGuard<CheckPoint> {
pub fn head(&self) -> RwLockReadGuard<CheckPoint<E>> {
self.canonical_head.read()
}
@ -302,7 +302,7 @@ where
/// state and calling `catchup_state` as it will not result in an old state being installed and
/// then having it iteratively updated -- in such a case it's possible for another thread to
/// find the state at an old slot.
pub fn update_state(&self, mut state: BeaconState) -> Result<(), Error> {
pub fn update_state(&self, mut state: BeaconState<E>) -> Result<(), Error> {
let present_slot = match self.slot_clock.present_slot() {
Ok(Some(slot)) => slot,
_ => return Err(Error::UnableToReadSlot),
@ -357,7 +357,7 @@ where
&self,
new_beacon_block: BeaconBlock,
new_beacon_block_root: Hash256,
new_beacon_state: BeaconState,
new_beacon_state: BeaconState<E>,
new_beacon_state_root: Hash256,
) {
let mut finalized_head = self.finalized_head.write();
@ -371,7 +371,7 @@ where
/// Returns a read-lock guarded `CheckPoint` struct for reading the justified head (as chosen,
/// indirectly, by the fork-choice rule).
pub fn finalized_head(&self) -> RwLockReadGuard<CheckPoint> {
pub fn finalized_head(&self) -> RwLockReadGuard<CheckPoint<E>> {
self.finalized_head.read()
}
@ -493,17 +493,14 @@ where
} else {
// If the current head block is not from this slot, use the slot from the previous
// epoch.
*self.state.read().get_block_root(
current_epoch_start_slot - self.spec.slots_per_epoch,
&self.spec,
)?
*self
.state
.read()
.get_block_root(current_epoch_start_slot - self.spec.slots_per_epoch)?
}
} else {
// If we're not on the first slot of the epoch.
*self
.state
.read()
.get_block_root(current_epoch_start_slot, &self.spec)?
*self.state.read().get_block_root(current_epoch_start_slot)?
};
Ok(AttestationData {
@ -667,7 +664,7 @@ where
pub fn produce_block(
&self,
randao_reveal: Signature,
) -> Result<(BeaconBlock, BeaconState), BlockProductionError> {
) -> Result<(BeaconBlock, BeaconState<E>), BlockProductionError> {
debug!("Producing block at slot {}...", self.state.read().slot);
let mut state = self.state.read().clone();
@ -677,7 +674,7 @@ where
trace!("Finding attestations for new block...");
let previous_block_root = *state
.get_block_root(state.slot - 1, &self.spec)
.get_block_root(state.slot - 1)
.map_err(|_| BlockProductionError::UnableToGetBlockRootFromState)?;
let (proposer_slashings, attester_slashings) =
@ -762,7 +759,7 @@ where
///
/// This could be a very expensive operation and should only be done in testing/analysis
/// activities.
pub fn chain_dump(&self) -> Result<Vec<CheckPoint>, Error> {
pub fn chain_dump(&self) -> Result<Vec<CheckPoint<E>>, Error> {
let mut dump = vec![];
let mut last_slot = CheckPoint {

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@ -1,22 +1,22 @@
use serde_derive::Serialize;
use types::{BeaconBlock, BeaconState, Hash256};
use types::{BeaconBlock, BeaconState, EthSpec, Hash256};
/// Represents some block and it's associated state. Generally, this will be used for tracking the
/// head, justified head and finalized head.
#[derive(Clone, Serialize, PartialEq, Debug)]
pub struct CheckPoint {
pub struct CheckPoint<E: EthSpec> {
pub beacon_block: BeaconBlock,
pub beacon_block_root: Hash256,
pub beacon_state: BeaconState,
pub beacon_state: BeaconState<E>,
pub beacon_state_root: Hash256,
}
impl CheckPoint {
impl<E: EthSpec> CheckPoint<E> {
/// Create a new checkpoint.
pub fn new(
beacon_block: BeaconBlock,
beacon_block_root: Hash256,
beacon_state: BeaconState,
beacon_state: BeaconState<E>,
beacon_state_root: Hash256,
) -> Self {
Self {
@ -32,7 +32,7 @@ impl CheckPoint {
&mut self,
beacon_block: BeaconBlock,
beacon_block_root: Hash256,
beacon_state: BeaconState,
beacon_state: BeaconState<E>,
beacon_state_root: Hash256,
) {
self.beacon_block = beacon_block;

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@ -11,14 +11,21 @@ use std::path::PathBuf;
use std::sync::Arc;
use tree_hash::TreeHash;
use types::test_utils::TestingBeaconStateBuilder;
use types::{BeaconBlock, ChainSpec, Hash256};
use types::{BeaconBlock, ChainSpec, FewValidatorsEthSpec, FoundationEthSpec, Hash256};
//TODO: Correct this for prod
//TODO: Account for historical db
pub fn initialise_beacon_chain(
spec: &ChainSpec,
db_name: Option<&PathBuf>,
) -> Arc<BeaconChain<DiskDB, SystemTimeSlotClock, BitwiseLMDGhost<DiskDB>>> {
) -> Arc<
BeaconChain<
DiskDB,
SystemTimeSlotClock,
BitwiseLMDGhost<DiskDB, FoundationEthSpec>,
FoundationEthSpec,
>,
> {
// set up the db
let db = Arc::new(DiskDB::open(
db_name.expect("Database directory must be included"),
@ -64,7 +71,14 @@ pub fn initialise_beacon_chain(
pub fn initialise_test_beacon_chain(
spec: &ChainSpec,
_db_name: Option<&PathBuf>,
) -> Arc<BeaconChain<MemoryDB, SystemTimeSlotClock, BitwiseLMDGhost<MemoryDB>>> {
) -> Arc<
BeaconChain<
MemoryDB,
SystemTimeSlotClock,
BitwiseLMDGhost<MemoryDB, FewValidatorsEthSpec>,
FewValidatorsEthSpec,
>,
> {
let db = Arc::new(MemoryDB::open());
let block_store = Arc::new(BeaconBlockStore::new(db.clone()));
let state_store = Arc::new(BeaconStateStore::new(db.clone()));

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@ -7,17 +7,18 @@ use fork_choice::BitwiseLMDGhost;
use slot_clock::TestingSlotClock;
use std::sync::Arc;
use tree_hash::TreeHash;
use types::test_utils::TestingBeaconStateBuilder;
use types::*;
use types::{test_utils::TestingBeaconStateBuilder, EthSpec, FewValidatorsEthSpec};
type TestingBeaconChain = BeaconChain<MemoryDB, TestingSlotClock, BitwiseLMDGhost<MemoryDB>>;
type TestingBeaconChain<E> =
BeaconChain<MemoryDB, TestingSlotClock, BitwiseLMDGhost<MemoryDB, FewValidatorsEthSpec>, E>;
pub struct TestingBeaconChainBuilder {
state_builder: TestingBeaconStateBuilder,
pub struct TestingBeaconChainBuilder<E: EthSpec> {
state_builder: TestingBeaconStateBuilder<E>,
}
impl TestingBeaconChainBuilder {
pub fn build(self, spec: &ChainSpec) -> TestingBeaconChain {
impl<E: EthSpec> TestingBeaconChainBuilder<E> {
pub fn build(self, spec: &ChainSpec) -> TestingBeaconChain<E> {
let db = Arc::new(MemoryDB::open());
let block_store = Arc::new(BeaconBlockStore::new(db.clone()));
let state_store = Arc::new(BeaconStateStore::new(db.clone()));
@ -43,8 +44,8 @@ impl TestingBeaconChainBuilder {
}
}
impl From<TestingBeaconStateBuilder> for TestingBeaconChainBuilder {
fn from(state_builder: TestingBeaconStateBuilder) -> TestingBeaconChainBuilder {
impl<E: EthSpec> From<TestingBeaconStateBuilder<E>> for TestingBeaconChainBuilder<E> {
fn from(state_builder: TestingBeaconStateBuilder<E>) -> TestingBeaconChainBuilder<E> {
TestingBeaconChainBuilder { state_builder }
}
}

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@ -1,43 +0,0 @@
[package]
name = "test_harness"
version = "0.1.0"
authors = ["Paul Hauner <paul@paulhauner.com>"]
edition = "2018"
[[bin]]
name = "test_harness"
path = "src/bin.rs"
[lib]
name = "test_harness"
path = "src/lib.rs"
[dev-dependencies]
state_processing = { path = "../../../eth2/state_processing" }
[dependencies]
attester = { path = "../../../eth2/attester" }
beacon_chain = { path = "../../beacon_chain" }
block_proposer = { path = "../../../eth2/block_proposer" }
bls = { path = "../../../eth2/utils/bls" }
boolean-bitfield = { path = "../../../eth2/utils/boolean-bitfield" }
clap = "2.32.0"
db = { path = "../../db" }
parking_lot = "0.7"
failure = "0.1"
failure_derive = "0.1"
fork_choice = { path = "../../../eth2/fork_choice" }
hashing = { path = "../../../eth2/utils/hashing" }
int_to_bytes = { path = "../../../eth2/utils/int_to_bytes" }
log = "0.4"
env_logger = "0.6.0"
rayon = "1.0"
serde = "1.0"
serde_derive = "1.0"
serde_json = "1.0"
serde_yaml = "0.8"
slot_clock = { path = "../../../eth2/utils/slot_clock" }
ssz = { path = "../../../eth2/utils/ssz" }
tree_hash = { path = "../../../eth2/utils/tree_hash" }
types = { path = "../../../eth2/types" }
yaml-rust = "0.4.2"

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@ -1,150 +0,0 @@
# Test Harness
Provides a testing environment for the `BeaconChain`, `Attester` and `BlockProposer` objects.
This environment bypasses networking and client run-times and connects the `Attester` and `Proposer`
directly to the `BeaconChain` via an `Arc`.
The `BeaconChainHarness` contains a single `BeaconChain` instance and many `ValidatorHarness`
instances. All of the `ValidatorHarness` instances work to advance the `BeaconChain` by
producing blocks and attestations.
The crate consists of a library and binary, examples for using both are
described below.
## YAML
Both the library and the binary are capable of parsing tests from a YAML file,
in fact this is the sole purpose of the binary.
You can find YAML test cases [here](specs/). An example is included below:
```yaml
title: Validator Registry Tests
summary: Tests deposit and slashing effects on validator registry.
test_suite: validator_registry
fork: tchaikovsky
version: 1.0
test_cases:
- config:
slots_per_epoch: 64
deposits_for_chain_start: 1000
num_slots: 64
skip_slots: [2, 3]
deposits:
# At slot 1, create a new validator deposit of 32 ETH.
- slot: 1
amount: 32
# Trigger more deposits...
- slot: 3
amount: 32
- slot: 5
amount: 32
proposer_slashings:
# At slot 2, trigger a proposer slashing for validator #42.
- slot: 2
validator_index: 42
# Trigger another slashing...
- slot: 8
validator_index: 13
attester_slashings:
# At slot 2, trigger an attester slashing for validators #11 and #12.
- slot: 2
validator_indices: [11, 12]
# Trigger another slashing...
- slot: 5
validator_indices: [14]
results:
num_skipped_slots: 2
states:
- slot: 63
num_validators: 1003
slashed_validators: [11, 12, 13, 14, 42]
exited_validators: []
```
Thanks to [prsym](http://github.com/prysmaticlabs/prysm) for coming up with the
base YAML format.
### Notes
Wherever `slot` is used, it is actually the "slot height", or slots since
genesis. This allows the tests to disregard the `GENESIS_EPOCH`.
### Differences from Prysmatic's format
1. The detail for `deposits`, `proposer_slashings` and `attester_slashings` is
ommitted from the test specification. It assumed they should be valid
objects.
2. There is a `states` list in `results` that runs checks against any state
specified by a `slot` number. This is in contrast to the variables in
`results` that assume the last (highest) state should be inspected.
#### Reasoning
Respective reasonings for above changes:
1. This removes the concerns of the actual object structure from the tests.
This allows for more variation in the deposits/slashings objects without
needing to update the tests. Also, it makes it makes it easier to create
tests.
2. This gives more fine-grained control over the tests. It allows for checking
that certain events happened at certain times whilst making the tests only
slightly more verbose.
_Notes: it may be useful to add an extra field to each slashing type to
indicate if it should be valid or not. It also may be useful to add an option
for double-vote/surround-vote attester slashings. The `amount` field was left
on `deposits` as it changes the behaviour of state significantly._
## Binary Usage Example
Follow these steps to run as a binary:
1. Navigate to the root of this crate (where this readme is located)
2. Run `$ cargo run --release -- --yaml examples/validator_registry.yaml`
_Note: the `--release` flag builds the binary without all the debugging
instrumentation. The test is much faster built using `--release`. As is
customary in cargo, the flags before `--` are passed to cargo and the flags
after are passed to the binary._
### CLI Options
```
Lighthouse Test Harness Runner 0.0.1
Sigma Prime <contact@sigmaprime.io>
Runs `test_harness` using a YAML test_case.
USAGE:
test_harness --log-level <LOG_LEVEL> --yaml <FILE>
FLAGS:
-h, --help Prints help information
-V, --version Prints version information
OPTIONS:
--log-level <LOG_LEVEL> Logging level. [default: debug] [possible values: error, warn, info, debug, trace]
--yaml <FILE> YAML file test_case.
```
## Library Usage Example
```rust
use test_harness::BeaconChainHarness;
use types::ChainSpec;
let validator_count = 8;
let spec = ChainSpec::few_validators();
let mut harness = BeaconChainHarness::new(spec, validator_count);
harness.advance_chain_with_block();
let chain = harness.chain_dump().unwrap();
// One block should have been built on top of the genesis block.
assert_eq!(chain.len(), 2);
```

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@ -1,63 +0,0 @@
title: Validator Registry Tests
summary: Tests deposit and slashing effects on validator registry.
test_suite: validator_registry
fork: tchaikovsky
version: 1.0
test_cases:
- config:
slots_per_epoch: 64
deposits_for_chain_start: 1000
num_slots: 64
skip_slots: [2, 3]
persistent_committee_period: 0
deposits:
# At slot 1, create a new validator deposit of 5 ETH.
- slot: 1
amount: 5000000000
# Trigger more deposits...
- slot: 3
amount: 5000000000
- slot: 5
amount: 32000000000
exits:
# At slot 10, submit an exit for validator #50.
- slot: 10
validator_index: 50
transfers:
- slot: 6
from: 1000
to: 1001
amount: 5000000000
proposer_slashings:
# At slot 2, trigger a proposer slashing for validator #42.
- slot: 2
validator_index: 42
# Trigger another slashing...
- slot: 8
validator_index: 13
attester_slashings:
# At slot 2, trigger an attester slashing for validators #11 and #12.
- slot: 2
validator_indices: [11, 12]
# Trigger another slashing...
- slot: 5
validator_indices: [14]
results:
num_skipped_slots: 2
states:
- slot: 63
num_validators: 1003
num_previous_epoch_attestations: 0
# slots_per_epoch - attestation_inclusion_delay - skip_slots
num_current_epoch_attestations: 57
slashed_validators: [11, 12, 13, 14, 42]
exited_validators: []
exit_initiated_validators: [50]
balances:
- validator_index: 1000
comparison: "eq"
balance: 0
- validator_index: 1001
comparison: "eq"
balance: 10000000000

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@ -1,350 +0,0 @@
use super::ValidatorHarness;
use beacon_chain::{BeaconChain, BlockProcessingOutcome};
pub use beacon_chain::{BeaconChainError, CheckPoint};
use db::{
stores::{BeaconBlockStore, BeaconStateStore},
MemoryDB,
};
use fork_choice::BitwiseLMDGhost;
use log::debug;
use rayon::prelude::*;
use slot_clock::TestingSlotClock;
use std::sync::Arc;
use tree_hash::TreeHash;
use types::{test_utils::TestingBeaconStateBuilder, *};
type TestingBeaconChain = BeaconChain<MemoryDB, TestingSlotClock, BitwiseLMDGhost<MemoryDB>>;
/// The beacon chain harness simulates a single beacon node with `validator_count` validators connected
/// to it. Each validator is provided a borrow to the beacon chain, where it may read
/// information and submit blocks/attestations for processing.
///
/// This test harness is useful for testing validator and internal state transition logic. It
/// is not useful for testing that multiple beacon nodes can reach consensus.
pub struct BeaconChainHarness {
pub db: Arc<MemoryDB>,
pub beacon_chain: Arc<TestingBeaconChain>,
pub block_store: Arc<BeaconBlockStore<MemoryDB>>,
pub state_store: Arc<BeaconStateStore<MemoryDB>>,
pub validators: Vec<ValidatorHarness>,
pub spec: Arc<ChainSpec>,
}
impl BeaconChainHarness {
/// Create a new harness with:
///
/// - A keypair, `BlockProducer` and `Attester` for each validator.
/// - A new BeaconChain struct where the given validators are in the genesis.
pub fn new(spec: ChainSpec, validator_count: usize) -> Self {
let state_builder =
TestingBeaconStateBuilder::from_default_keypairs_file_if_exists(validator_count, &spec);
Self::from_beacon_state_builder(state_builder, spec)
}
pub fn from_beacon_state_builder(
state_builder: TestingBeaconStateBuilder,
spec: ChainSpec,
) -> Self {
let db = Arc::new(MemoryDB::open());
let block_store = Arc::new(BeaconBlockStore::new(db.clone()));
let state_store = Arc::new(BeaconStateStore::new(db.clone()));
let slot_clock = TestingSlotClock::new(spec.genesis_slot.as_u64());
let fork_choice = BitwiseLMDGhost::new(block_store.clone(), state_store.clone());
let (mut genesis_state, keypairs) = state_builder.build();
let mut genesis_block = BeaconBlock::empty(&spec);
genesis_block.state_root = Hash256::from_slice(&genesis_state.tree_hash_root());
genesis_state
.build_epoch_cache(RelativeEpoch::Previous, &spec)
.unwrap();
genesis_state
.build_epoch_cache(RelativeEpoch::Current, &spec)
.unwrap();
genesis_state
.build_epoch_cache(RelativeEpoch::NextWithoutRegistryChange, &spec)
.unwrap();
genesis_state
.build_epoch_cache(RelativeEpoch::NextWithRegistryChange, &spec)
.unwrap();
// Create the Beacon Chain
let beacon_chain = Arc::new(
BeaconChain::from_genesis(
state_store.clone(),
block_store.clone(),
slot_clock,
genesis_state,
genesis_block,
spec.clone(),
fork_choice,
)
.unwrap(),
);
let spec = Arc::new(spec);
debug!("Creating validator producer and attester instances...");
// Spawn the test validator instances.
let validators: Vec<ValidatorHarness> = keypairs
.iter()
.map(|keypair| {
ValidatorHarness::new(keypair.clone(), beacon_chain.clone(), spec.clone())
})
.collect();
debug!("Created {} ValidatorHarnesss", validators.len());
Self {
db,
beacon_chain,
block_store,
state_store,
validators,
spec,
}
}
/// Move the `slot_clock` for the `BeaconChain` forward one slot.
///
/// This is the equivalent of advancing a system clock forward one `SLOT_DURATION`.
///
/// Returns the new slot.
pub fn increment_beacon_chain_slot(&mut self) -> Slot {
let slot = self.beacon_chain.present_slot() + 1;
let nth_slot = slot
- slot
.epoch(self.spec.slots_per_epoch)
.start_slot(self.spec.slots_per_epoch);
let nth_epoch = slot.epoch(self.spec.slots_per_epoch) - self.spec.genesis_epoch;
debug!(
"Advancing BeaconChain to slot {}, epoch {} (epoch height: {}, slot {} in epoch.).",
slot,
slot.epoch(self.spec.slots_per_epoch),
nth_epoch,
nth_slot
);
self.beacon_chain.slot_clock.set_slot(slot.as_u64());
self.beacon_chain
.catchup_state()
.expect("Failed to catch state");
slot
}
pub fn gather_attesations(&mut self) -> Vec<Attestation> {
let present_slot = self.beacon_chain.present_slot();
let state = self.beacon_chain.state.read();
let mut attestations = vec![];
for committee in state
.get_crosslink_committees_at_slot(present_slot, &self.spec)
.unwrap()
{
for &validator in &committee.committee {
let duties = state
.get_attestation_duties(validator, &self.spec)
.unwrap()
.expect("Attesting validators by definition have duties");
// Obtain `AttestationData` from the beacon chain.
let data = self
.beacon_chain
.produce_attestation_data(duties.shard)
.unwrap();
// Produce an aggregate signature with a single signature.
let aggregate_signature = {
let message = AttestationDataAndCustodyBit {
data: data.clone(),
custody_bit: false,
}
.tree_hash_root();
let domain = self.spec.get_domain(
state.slot.epoch(self.spec.slots_per_epoch),
Domain::Attestation,
&state.fork,
);
let sig =
Signature::new(&message, domain, &self.validators[validator].keypair.sk);
let mut agg_sig = AggregateSignature::new();
agg_sig.add(&sig);
agg_sig
};
let mut aggregation_bitfield = Bitfield::with_capacity(duties.committee_len);
let custody_bitfield = Bitfield::with_capacity(duties.committee_len);
aggregation_bitfield.set(duties.committee_index, true);
attestations.push(Attestation {
aggregation_bitfield,
data,
custody_bitfield,
aggregate_signature,
})
}
}
attestations
}
/// Get the block from the proposer for the slot.
///
/// Note: the validator will only produce it _once per slot_. So, if you call this twice you'll
/// only get a block once.
pub fn produce_block(&mut self) -> BeaconBlock {
let present_slot = self.beacon_chain.present_slot();
let proposer = self.beacon_chain.block_proposer(present_slot).unwrap();
debug!(
"Producing block from validator #{} for slot {}.",
proposer, present_slot
);
// Ensure the validators slot clock is accurate.
self.validators[proposer].set_slot(present_slot);
self.validators[proposer].produce_block().unwrap()
}
/// Advances the chain with a BeaconBlock and attestations from all validators.
///
/// This is the ideal scenario for the Beacon Chain, 100% honest participation from
/// validators.
pub fn advance_chain_with_block(&mut self) -> BeaconBlock {
self.increment_beacon_chain_slot();
// Produce a new block.
let block = self.produce_block();
debug!("Submitting block for processing...");
match self.beacon_chain.process_block(block.clone()) {
Ok(BlockProcessingOutcome::ValidBlock(_)) => {}
other => panic!("block processing failed with {:?}", other),
};
debug!("...block processed by BeaconChain.");
debug!("Producing attestations...");
// Produce new attestations.
let attestations = self.gather_attesations();
debug!("Processing {} attestations...", attestations.len());
attestations
.par_iter()
.enumerate()
.for_each(|(i, attestation)| {
self.beacon_chain
.process_attestation(attestation.clone())
.unwrap_or_else(|_| panic!("Attestation {} invalid: {:?}", i, attestation));
});
debug!("Attestations processed.");
block
}
/// Signs a message using some validators secret key with the `Fork` info from the latest state
/// of the `BeaconChain`.
///
/// Useful for producing slashable messages and other objects that `BeaconChainHarness` does
/// not produce naturally.
pub fn validator_sign(
&self,
validator_index: usize,
message: &[u8],
epoch: Epoch,
domain_type: Domain,
) -> Option<Signature> {
let validator = self.validators.get(validator_index)?;
let domain = self
.spec
.get_domain(epoch, domain_type, &self.beacon_chain.state.read().fork);
Some(Signature::new(message, domain, &validator.keypair.sk))
}
/// Returns the current `Fork` of the `beacon_chain`.
pub fn fork(&self) -> Fork {
self.beacon_chain.state.read().fork.clone()
}
/// Returns the current `epoch` of the `beacon_chain`.
pub fn epoch(&self) -> Epoch {
self.beacon_chain
.state
.read()
.slot
.epoch(self.spec.slots_per_epoch)
}
/// Returns the keypair for some validator index.
pub fn validator_keypair(&self, validator_index: usize) -> Option<&Keypair> {
self.validators
.get(validator_index)
.and_then(|v| Some(&v.keypair))
}
/// Submit a deposit to the `BeaconChain` and, if given a keypair, create a new
/// `ValidatorHarness` instance for this validator.
///
/// If a new `ValidatorHarness` was created, the validator should become fully operational as
/// if the validator were created during `BeaconChainHarness` instantiation.
pub fn add_deposit(&mut self, deposit: Deposit, keypair: Option<Keypair>) {
self.beacon_chain.process_deposit(deposit).unwrap();
// If a keypair is present, add a new `ValidatorHarness` to the rig.
if let Some(keypair) = keypair {
let validator =
ValidatorHarness::new(keypair, self.beacon_chain.clone(), self.spec.clone());
self.validators.push(validator);
}
}
/// Submit an exit to the `BeaconChain` for inclusion in some block.
///
/// Note: the `ValidatorHarness` for this validator continues to exist. Once it is exited it
/// will stop receiving duties from the beacon chain and just do nothing when prompted to
/// produce/attest.
pub fn add_exit(&mut self, exit: VoluntaryExit) {
self.beacon_chain.process_voluntary_exit(exit).unwrap();
}
/// Submit an transfer to the `BeaconChain` for inclusion in some block.
pub fn add_transfer(&mut self, transfer: Transfer) {
self.beacon_chain.process_transfer(transfer).unwrap();
}
/// Submit a proposer slashing to the `BeaconChain` for inclusion in some block.
pub fn add_proposer_slashing(&mut self, proposer_slashing: ProposerSlashing) {
self.beacon_chain
.process_proposer_slashing(proposer_slashing)
.unwrap();
}
/// Submit an attester slashing to the `BeaconChain` for inclusion in some block.
pub fn add_attester_slashing(&mut self, attester_slashing: AttesterSlashing) {
self.beacon_chain
.process_attester_slashing(attester_slashing)
.unwrap();
}
/// Executes the fork choice rule on the `BeaconChain`, selecting a new canonical head.
pub fn run_fork_choice(&mut self) {
self.beacon_chain.fork_choice().unwrap()
}
/// Dump all blocks and states from the canonical beacon chain.
pub fn chain_dump(&self) -> Result<Vec<CheckPoint>, BeaconChainError> {
self.beacon_chain.chain_dump()
}
}

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@ -1,102 +0,0 @@
use clap::{App, Arg, SubCommand};
use env_logger::{Builder, Env};
use gen_keys::gen_keys;
use run_test::run_test;
use std::fs;
use types::test_utils::keypairs_path;
use types::ChainSpec;
mod beacon_chain_harness;
mod gen_keys;
mod run_test;
mod test_case;
mod validator_harness;
use validator_harness::ValidatorHarness;
fn main() {
let validator_file_path = keypairs_path();
let _ = fs::create_dir(validator_file_path.parent().unwrap());
let matches = App::new("Lighthouse Test Harness Runner")
.version("0.0.1")
.author("Sigma Prime <contact@sigmaprime.io>")
.about("Runs `test_harness` using a YAML test_case.")
.arg(
Arg::with_name("log")
.long("log-level")
.short("l")
.value_name("LOG_LEVEL")
.help("Logging level.")
.possible_values(&["error", "warn", "info", "debug", "trace"])
.default_value("debug")
.required(true),
)
.arg(
Arg::with_name("spec")
.long("spec")
.short("s")
.value_name("SPECIFICATION")
.help("ChainSpec instantiation.")
.possible_values(&["foundation", "few_validators"])
.default_value("foundation"),
)
.subcommand(
SubCommand::with_name("run_test")
.about("Executes a YAML test specification")
.arg(
Arg::with_name("yaml")
.long("yaml")
.value_name("FILE")
.help("YAML file test_case.")
.required(true),
)
.arg(
Arg::with_name("validators_dir")
.long("validators-dir")
.short("v")
.value_name("VALIDATORS_DIR")
.help("A directory with validator deposits and keypair YAML."),
),
)
.subcommand(
SubCommand::with_name("gen_keys")
.about("Builds a file of BLS keypairs for faster tests.")
.arg(
Arg::with_name("validator_count")
.long("validator_count")
.short("n")
.value_name("VALIDATOR_COUNT")
.help("Number of validators to generate.")
.required(true),
)
.arg(
Arg::with_name("output_file")
.long("output_file")
.short("d")
.value_name("GENESIS_TIME")
.help("Output directory for generated YAML.")
.default_value(validator_file_path.to_str().unwrap()),
),
)
.get_matches();
if let Some(log_level) = matches.value_of("log") {
Builder::from_env(Env::default().default_filter_or(log_level)).init();
}
let _spec = match matches.value_of("spec") {
Some("foundation") => ChainSpec::foundation(),
Some("few_validators") => ChainSpec::few_validators(),
_ => unreachable!(), // Has a default value, should always exist.
};
if let Some(matches) = matches.subcommand_matches("run_test") {
run_test(matches);
}
if let Some(matches) = matches.subcommand_matches("gen_keys") {
gen_keys(matches);
}
}

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@ -1,21 +0,0 @@
use clap::{value_t, ArgMatches};
use log::debug;
use std::path::Path;
use types::test_utils::{generate_deterministic_keypairs, KeypairsFile};
/// Creates a file containing BLS keypairs.
pub fn gen_keys(matches: &ArgMatches) {
let validator_count = value_t!(matches.value_of("validator_count"), usize)
.expect("Validator count is required argument");
let output_file = matches
.value_of("output_file")
.expect("Output file has a default value.");
let keypairs = generate_deterministic_keypairs(validator_count);
debug!("Writing keypairs to file...");
let keypairs_path = Path::new(output_file);
keypairs.to_raw_file(&keypairs_path, &keypairs).unwrap();
}

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@ -1,33 +0,0 @@
//! Provides a testing environment for the `BeaconChain`, `Attester` and `BlockProposer` objects.
//!
//! This environment bypasses networking and client run-times and connects the `Attester` and `Proposer`
//! directly to the `BeaconChain` via an `Arc`.
//!
//! The `BeaconChainHarness` contains a single `BeaconChain` instance and many `ValidatorHarness`
//! instances. All of the `ValidatorHarness` instances work to advance the `BeaconChain` by
//! producing blocks and attestations.
//!
//! Example:
//! ```rust,no_run
//! use test_harness::BeaconChainHarness;
//! use types::ChainSpec;
//!
//! let validator_count = 8;
//! let spec = ChainSpec::few_validators();
//!
//! let mut harness = BeaconChainHarness::new(spec, validator_count);
//!
//! harness.advance_chain_with_block();
//!
//! let chain = harness.chain_dump().unwrap();
//!
//! // One block should have been built on top of the genesis block.
//! assert_eq!(chain.len(), 2);
//! ```
mod beacon_chain_harness;
pub mod test_case;
mod validator_harness;
pub use self::beacon_chain_harness::BeaconChainHarness;
pub use self::validator_harness::ValidatorHarness;

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@ -1,37 +0,0 @@
use crate::test_case::TestCase;
use clap::ArgMatches;
use std::{fs::File, io::prelude::*};
use yaml_rust::YamlLoader;
/// Runs a YAML-specified test case.
pub fn run_test(matches: &ArgMatches) {
if let Some(yaml_file) = matches.value_of("yaml") {
let docs = {
let mut file = File::open(yaml_file).unwrap();
let mut yaml_str = String::new();
file.read_to_string(&mut yaml_str).unwrap();
YamlLoader::load_from_str(&yaml_str).unwrap()
};
for doc in &docs {
// For each `test_cases` YAML in the document, build a `TestCase`, execute it and
// assert that the execution result matches the test_case description.
//
// In effect, for each `test_case` a new `BeaconChainHarness` is created from genesis
// and a new `BeaconChain` is built as per the test_case.
//
// After the `BeaconChain` has been built out as per the test_case, a dump of all blocks
// and states in the chain is obtained and checked against the `results` specified in
// the `test_case`.
//
// If any of the expectations in the results are not met, the process
// panics with a message.
for test_case in doc["test_cases"].as_vec().unwrap() {
let test_case = TestCase::from_yaml(test_case);
test_case.assert_result_valid(test_case.execute())
}
}
}
}

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@ -1,312 +0,0 @@
//! Defines execution and testing specs for a `BeaconChainHarness` instance. Supports loading from
//! a YAML file.
use crate::beacon_chain_harness::BeaconChainHarness;
use beacon_chain::CheckPoint;
use log::{info, warn};
use tree_hash::SignedRoot;
use types::*;
use types::test_utils::*;
use yaml_rust::Yaml;
mod config;
mod results;
mod state_check;
mod yaml_helpers;
pub use config::Config;
pub use results::Results;
pub use state_check::StateCheck;
/// Defines the execution and testing of a `BeaconChainHarness` instantiation.
///
/// Typical workflow is:
///
/// 1. Instantiate the `TestCase` from YAML: `let test_case = TestCase::from_yaml(&my_yaml);`
/// 2. Execute the test_case: `let result = test_case.execute();`
/// 3. Test the results against the test_case: `test_case.assert_result_valid(result);`
#[derive(Debug)]
pub struct TestCase {
/// Defines the execution.
pub config: Config,
/// Defines tests to run against the execution result.
pub results: Results,
}
/// The result of executing a `TestCase`.
///
pub struct ExecutionResult {
/// The canonical beacon chain generated from the execution.
pub chain: Vec<CheckPoint>,
/// The spec used for execution.
pub spec: ChainSpec,
}
impl TestCase {
/// Load the test case from a YAML document.
pub fn from_yaml(test_case: &Yaml) -> Self {
Self {
results: Results::from_yaml(&test_case["results"]),
config: Config::from_yaml(&test_case["config"]),
}
}
/// Return a `ChainSpec::foundation()`.
///
/// If specified in `config`, returns it with a modified `slots_per_epoch`.
fn spec(&self) -> ChainSpec {
let mut spec = ChainSpec::foundation();
if let Some(n) = self.config.slots_per_epoch {
spec.slots_per_epoch = n;
}
if let Some(n) = self.config.persistent_committee_period {
spec.persistent_committee_period = n;
}
spec
}
/// Executes the test case, returning an `ExecutionResult`.
#[allow(clippy::cyclomatic_complexity)]
pub fn execute(&self) -> ExecutionResult {
let spec = self.spec();
let validator_count = self.config.deposits_for_chain_start;
let slots = self.config.num_slots;
info!(
"Building BeaconChainHarness with {} validators...",
validator_count
);
let mut harness = BeaconChainHarness::new(spec, validator_count);
info!("Starting simulation across {} slots...", slots);
// Start at 1 because genesis counts as a slot.
for slot_height in 1..slots {
// Used to ensure that deposits in the same slot have incremental deposit indices.
let mut deposit_index_offset = 0;
// Feed deposits to the BeaconChain.
if let Some(ref deposits) = self.config.deposits {
for (slot, amount) in deposits {
if *slot == slot_height {
info!("Including deposit at slot height {}.", slot_height);
let (deposit, keypair) =
build_deposit(&harness, *amount, deposit_index_offset);
harness.add_deposit(deposit, Some(keypair.clone()));
deposit_index_offset += 1;
}
}
}
// Feed proposer slashings to the BeaconChain.
if let Some(ref slashings) = self.config.proposer_slashings {
for (slot, validator_index) in slashings {
if *slot == slot_height {
info!(
"Including proposer slashing at slot height {} for validator #{}.",
slot_height, validator_index
);
let slashing = build_proposer_slashing(&harness, *validator_index);
harness.add_proposer_slashing(slashing);
}
}
}
// Feed attester slashings to the BeaconChain.
if let Some(ref slashings) = self.config.attester_slashings {
for (slot, validator_indices) in slashings {
if *slot == slot_height {
info!(
"Including attester slashing at slot height {} for validators {:?}.",
slot_height, validator_indices
);
let slashing =
build_double_vote_attester_slashing(&harness, &validator_indices[..]);
harness.add_attester_slashing(slashing);
}
}
}
// Feed exits to the BeaconChain.
if let Some(ref exits) = self.config.exits {
for (slot, validator_index) in exits {
if *slot == slot_height {
info!(
"Including exit at slot height {} for validator {}.",
slot_height, validator_index
);
let exit = build_exit(&harness, *validator_index);
harness.add_exit(exit);
}
}
}
// Feed transfers to the BeaconChain.
if let Some(ref transfers) = self.config.transfers {
for (slot, from, to, amount) in transfers {
if *slot == slot_height {
info!(
"Including transfer at slot height {} from validator {}.",
slot_height, from
);
let transfer = build_transfer(&harness, *from, *to, *amount);
harness.add_transfer(transfer);
}
}
}
// Build a block or skip a slot.
match self.config.skip_slots {
Some(ref skip_slots) if skip_slots.contains(&slot_height) => {
warn!("Skipping slot at height {}.", slot_height);
harness.increment_beacon_chain_slot();
}
_ => {
info!("Producing block at slot height {}.", slot_height);
harness.advance_chain_with_block();
}
}
}
harness.run_fork_choice();
info!("Test execution complete!");
info!("Building chain dump for analysis...");
ExecutionResult {
chain: harness.chain_dump().expect("Chain dump failed."),
spec: (*harness.spec).clone(),
}
}
/// Checks that the `ExecutionResult` is consistent with the specifications in `self.results`.
///
/// # Panics
///
/// Panics with a message if any result does not match exepectations.
pub fn assert_result_valid(&self, execution_result: ExecutionResult) {
info!("Verifying test results...");
let spec = &execution_result.spec;
if let Some(num_skipped_slots) = self.results.num_skipped_slots {
assert_eq!(
execution_result.chain.len(),
self.config.num_slots as usize - num_skipped_slots,
"actual skipped slots != expected."
);
info!(
"OK: Chain length is {} ({} skipped slots).",
execution_result.chain.len(),
num_skipped_slots
);
}
if let Some(ref state_checks) = self.results.state_checks {
for checkpoint in &execution_result.chain {
let state = &checkpoint.beacon_state;
for state_check in state_checks {
let adjusted_state_slot =
state.slot - spec.genesis_epoch.start_slot(spec.slots_per_epoch);
if state_check.slot == adjusted_state_slot {
state_check.assert_valid(state, spec);
}
}
}
}
}
}
/// Builds a `Deposit` this is valid for the given `BeaconChainHarness` at its next slot.
fn build_transfer(
harness: &BeaconChainHarness,
sender: u64,
recipient: u64,
amount: u64,
) -> Transfer {
let slot = harness.beacon_chain.state.read().slot + 1;
let mut builder = TestingTransferBuilder::new(sender, recipient, amount, slot);
let keypair = harness.validator_keypair(sender as usize).unwrap();
builder.sign(keypair.clone(), &harness.fork(), &harness.spec);
builder.build()
}
/// Builds a `Deposit` this is valid for the given `BeaconChainHarness`.
///
/// `index_offset` is used to ensure that `deposit.index == state.index` when adding multiple
/// deposits.
fn build_deposit(
harness: &BeaconChainHarness,
amount: u64,
index_offset: u64,
) -> (Deposit, Keypair) {
let keypair = Keypair::random();
let mut builder = TestingDepositBuilder::new(keypair.pk.clone(), amount);
builder.set_index(harness.beacon_chain.state.read().deposit_index + index_offset);
builder.sign(&keypair, harness.epoch(), &harness.fork(), &harness.spec);
(builder.build(), keypair)
}
/// Builds a `VoluntaryExit` this is valid for the given `BeaconChainHarness`.
fn build_exit(harness: &BeaconChainHarness, validator_index: u64) -> VoluntaryExit {
let epoch = harness
.beacon_chain
.state
.read()
.current_epoch(&harness.spec);
let mut exit = VoluntaryExit {
epoch,
validator_index,
signature: Signature::empty_signature(),
};
let message = exit.signed_root();
exit.signature = harness
.validator_sign(validator_index as usize, &message[..], epoch, Domain::Exit)
.expect("Unable to sign VoluntaryExit");
exit
}
/// Builds an `AttesterSlashing` for some `validator_indices`.
///
/// Signs the message using a `BeaconChainHarness`.
fn build_double_vote_attester_slashing(
harness: &BeaconChainHarness,
validator_indices: &[u64],
) -> AttesterSlashing {
let signer = |validator_index: u64, message: &[u8], epoch: Epoch, domain: Domain| {
harness
.validator_sign(validator_index as usize, message, epoch, domain)
.expect("Unable to sign AttesterSlashing")
};
TestingAttesterSlashingBuilder::double_vote(validator_indices, signer)
}
/// Builds an `ProposerSlashing` for some `validator_index`.
///
/// Signs the message using a `BeaconChainHarness`.
fn build_proposer_slashing(harness: &BeaconChainHarness, validator_index: u64) -> ProposerSlashing {
let signer = |validator_index: u64, message: &[u8], epoch: Epoch, domain: Domain| {
harness
.validator_sign(validator_index as usize, message, epoch, domain)
.expect("Unable to sign AttesterSlashing")
};
TestingProposerSlashingBuilder::double_vote(validator_index, signer, &harness.spec)
}

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@ -1,135 +0,0 @@
use super::yaml_helpers::{as_u64, as_usize, as_vec_u64};
use types::*;
use yaml_rust::Yaml;
pub type ValidatorIndex = u64;
pub type ValidatorIndices = Vec<u64>;
pub type GweiAmount = u64;
pub type DepositTuple = (SlotHeight, GweiAmount);
pub type ExitTuple = (SlotHeight, ValidatorIndex);
pub type ProposerSlashingTuple = (SlotHeight, ValidatorIndex);
pub type AttesterSlashingTuple = (SlotHeight, ValidatorIndices);
/// (slot_height, from, to, amount)
pub type TransferTuple = (SlotHeight, ValidatorIndex, ValidatorIndex, GweiAmount);
/// Defines the execution of a `BeaconStateHarness` across a series of slots.
#[derive(Debug)]
pub struct Config {
/// Initial validators.
pub deposits_for_chain_start: usize,
/// Number of slots in an epoch.
pub slots_per_epoch: Option<u64>,
/// Affects the number of epochs a validator must be active before they can withdraw.
pub persistent_committee_period: Option<u64>,
/// Number of slots to build before ending execution.
pub num_slots: u64,
/// Number of slots that should be skipped due to inactive validator.
pub skip_slots: Option<Vec<u64>>,
/// Deposits to be included during execution.
pub deposits: Option<Vec<DepositTuple>>,
/// Proposer slashings to be included during execution.
pub proposer_slashings: Option<Vec<ProposerSlashingTuple>>,
/// Attester slashings to be including during execution.
pub attester_slashings: Option<Vec<AttesterSlashingTuple>>,
/// Exits to be including during execution.
pub exits: Option<Vec<ExitTuple>>,
/// Transfers to be including during execution.
pub transfers: Option<Vec<TransferTuple>>,
}
impl Config {
/// Load from a YAML document.
///
/// Expects to receive the `config` section of the document.
pub fn from_yaml(yaml: &Yaml) -> Self {
Self {
deposits_for_chain_start: as_usize(&yaml, "deposits_for_chain_start")
.expect("Must specify validator count"),
slots_per_epoch: as_u64(&yaml, "slots_per_epoch"),
persistent_committee_period: as_u64(&yaml, "persistent_committee_period"),
num_slots: as_u64(&yaml, "num_slots").expect("Must specify `config.num_slots`"),
skip_slots: as_vec_u64(yaml, "skip_slots"),
deposits: parse_deposits(&yaml),
proposer_slashings: parse_proposer_slashings(&yaml),
attester_slashings: parse_attester_slashings(&yaml),
exits: parse_exits(&yaml),
transfers: parse_transfers(&yaml),
}
}
}
/// Parse the `transfers` section of the YAML document.
fn parse_transfers(yaml: &Yaml) -> Option<Vec<TransferTuple>> {
let mut tuples = vec![];
for exit in yaml["transfers"].as_vec()? {
let slot = as_u64(exit, "slot").expect("Incomplete transfer (slot)");
let from = as_u64(exit, "from").expect("Incomplete transfer (from)");
let to = as_u64(exit, "to").expect("Incomplete transfer (to)");
let amount = as_u64(exit, "amount").expect("Incomplete transfer (amount)");
tuples.push((SlotHeight::from(slot), from, to, amount));
}
Some(tuples)
}
/// Parse the `attester_slashings` section of the YAML document.
fn parse_exits(yaml: &Yaml) -> Option<Vec<ExitTuple>> {
let mut tuples = vec![];
for exit in yaml["exits"].as_vec()? {
let slot = as_u64(exit, "slot").expect("Incomplete exit (slot)");
let validator_index =
as_u64(exit, "validator_index").expect("Incomplete exit (validator_index)");
tuples.push((SlotHeight::from(slot), validator_index));
}
Some(tuples)
}
/// Parse the `attester_slashings` section of the YAML document.
fn parse_attester_slashings(yaml: &Yaml) -> Option<Vec<AttesterSlashingTuple>> {
let mut slashings = vec![];
for slashing in yaml["attester_slashings"].as_vec()? {
let slot = as_u64(slashing, "slot").expect("Incomplete attester_slashing (slot)");
let validator_indices = as_vec_u64(slashing, "validator_indices")
.expect("Incomplete attester_slashing (validator_indices)");
slashings.push((SlotHeight::from(slot), validator_indices));
}
Some(slashings)
}
/// Parse the `proposer_slashings` section of the YAML document.
fn parse_proposer_slashings(yaml: &Yaml) -> Option<Vec<ProposerSlashingTuple>> {
let mut slashings = vec![];
for slashing in yaml["proposer_slashings"].as_vec()? {
let slot = as_u64(slashing, "slot").expect("Incomplete proposer slashing (slot)_");
let validator_index = as_u64(slashing, "validator_index")
.expect("Incomplete proposer slashing (validator_index)");
slashings.push((SlotHeight::from(slot), validator_index));
}
Some(slashings)
}
/// Parse the `deposits` section of the YAML document.
fn parse_deposits(yaml: &Yaml) -> Option<Vec<DepositTuple>> {
let mut deposits = vec![];
for deposit in yaml["deposits"].as_vec()? {
let slot = as_u64(deposit, "slot").expect("Incomplete deposit (slot)");
let amount = as_u64(deposit, "amount").expect("Incomplete deposit (amount)");
deposits.push((SlotHeight::from(slot), amount))
}
Some(deposits)
}

View File

@ -1,34 +0,0 @@
use super::state_check::StateCheck;
use super::yaml_helpers::as_usize;
use yaml_rust::Yaml;
/// A series of tests to be carried out upon an `ExecutionResult`, returned from executing a
/// `TestCase`.
#[derive(Debug)]
pub struct Results {
pub num_skipped_slots: Option<usize>,
pub state_checks: Option<Vec<StateCheck>>,
}
impl Results {
/// Load from a YAML document.
///
/// Expects the `results` section of the YAML document.
pub fn from_yaml(yaml: &Yaml) -> Self {
Self {
num_skipped_slots: as_usize(yaml, "num_skipped_slots"),
state_checks: parse_state_checks(yaml),
}
}
}
/// Parse the `state_checks` section of the YAML document.
fn parse_state_checks(yaml: &Yaml) -> Option<Vec<StateCheck>> {
let mut states = vec![];
for state_yaml in yaml["states"].as_vec()? {
states.push(StateCheck::from_yaml(state_yaml));
}
Some(states)
}

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@ -1,206 +0,0 @@
use super::yaml_helpers::{as_u64, as_usize, as_vec_u64};
use log::info;
use types::*;
use yaml_rust::Yaml;
type ValidatorIndex = u64;
type BalanceGwei = u64;
type BalanceCheckTuple = (ValidatorIndex, String, BalanceGwei);
/// Tests to be conducted upon a `BeaconState` object generated during the execution of a
/// `TestCase`.
#[derive(Debug)]
pub struct StateCheck {
/// Checked against `beacon_state.slot`.
pub slot: Slot,
/// Checked against `beacon_state.validator_registry.len()`.
pub num_validators: Option<usize>,
/// The number of pending attestations from the previous epoch that should be in the state.
pub num_previous_epoch_attestations: Option<usize>,
/// The number of pending attestations from the current epoch that should be in the state.
pub num_current_epoch_attestations: Option<usize>,
/// A list of validator indices which have been penalized. Must be in ascending order.
pub slashed_validators: Option<Vec<u64>>,
/// A list of validator indices which have been fully exited. Must be in ascending order.
pub exited_validators: Option<Vec<u64>>,
/// A list of validator indices which have had an exit initiated. Must be in ascending order.
pub exit_initiated_validators: Option<Vec<u64>>,
/// A list of balances to check.
pub balances: Option<Vec<BalanceCheckTuple>>,
}
impl StateCheck {
/// Load from a YAML document.
///
/// Expects the `state_check` section of the YAML document.
pub fn from_yaml(yaml: &Yaml) -> Self {
Self {
slot: Slot::from(as_u64(&yaml, "slot").expect("State must specify slot")),
num_validators: as_usize(&yaml, "num_validators"),
num_previous_epoch_attestations: as_usize(&yaml, "num_previous_epoch_attestations"),
num_current_epoch_attestations: as_usize(&yaml, "num_current_epoch_attestations"),
slashed_validators: as_vec_u64(&yaml, "slashed_validators"),
exited_validators: as_vec_u64(&yaml, "exited_validators"),
exit_initiated_validators: as_vec_u64(&yaml, "exit_initiated_validators"),
balances: parse_balances(&yaml),
}
}
/// Performs all checks against a `BeaconState`
///
/// # Panics
///
/// Panics with an error message if any test fails.
#[allow(clippy::cyclomatic_complexity)]
pub fn assert_valid(&self, state: &BeaconState, spec: &ChainSpec) {
let state_epoch = state.slot.epoch(spec.slots_per_epoch);
info!("Running state check for slot height {}.", self.slot);
// Check the state slot.
assert_eq!(
self.slot,
state.slot - spec.genesis_epoch.start_slot(spec.slots_per_epoch),
"State slot is invalid."
);
// Check the validator count
if let Some(num_validators) = self.num_validators {
assert_eq!(
state.validator_registry.len(),
num_validators,
"State validator count != expected."
);
info!("OK: num_validators = {}.", num_validators);
}
// Check the previous epoch attestations
if let Some(n) = self.num_previous_epoch_attestations {
assert_eq!(
state.previous_epoch_attestations.len(),
n,
"previous epoch attestations count != expected."
);
info!("OK: num_previous_epoch_attestations = {}.", n);
}
// Check the current epoch attestations
if let Some(n) = self.num_current_epoch_attestations {
assert_eq!(
state.current_epoch_attestations.len(),
n,
"current epoch attestations count != expected."
);
info!("OK: num_current_epoch_attestations = {}.", n);
}
// Check for slashed validators.
if let Some(ref slashed_validators) = self.slashed_validators {
let actually_slashed_validators: Vec<u64> = state
.validator_registry
.iter()
.enumerate()
.filter_map(|(i, validator)| {
if validator.slashed {
Some(i as u64)
} else {
None
}
})
.collect();
assert_eq!(
actually_slashed_validators, *slashed_validators,
"Slashed validators != expected."
);
info!("OK: slashed_validators = {:?}.", slashed_validators);
}
// Check for exited validators.
if let Some(ref exited_validators) = self.exited_validators {
let actually_exited_validators: Vec<u64> = state
.validator_registry
.iter()
.enumerate()
.filter_map(|(i, validator)| {
if validator.is_exited_at(state_epoch) {
Some(i as u64)
} else {
None
}
})
.collect();
assert_eq!(
actually_exited_validators, *exited_validators,
"Exited validators != expected."
);
info!("OK: exited_validators = {:?}.", exited_validators);
}
// Check for validators that have initiated exit.
if let Some(ref exit_initiated_validators) = self.exit_initiated_validators {
let actual: Vec<u64> = state
.validator_registry
.iter()
.enumerate()
.filter_map(|(i, validator)| {
if validator.initiated_exit {
Some(i as u64)
} else {
None
}
})
.collect();
assert_eq!(
actual, *exit_initiated_validators,
"Exit initiated validators != expected."
);
info!(
"OK: exit_initiated_validators = {:?}.",
exit_initiated_validators
);
}
// Check validator balances.
if let Some(ref balances) = self.balances {
for (index, comparison, expected) in balances {
let actual = *state
.validator_balances
.get(*index as usize)
.expect("Balance check specifies unknown validator");
let result = match comparison.as_ref() {
"eq" => actual == *expected,
_ => panic!("Unknown balance comparison (use `eq`)"),
};
assert!(
result,
format!(
"Validator balance for {}: {} !{} {}.",
index, actual, comparison, expected
)
);
info!("OK: validator balance for {:?}.", index);
}
}
}
}
/// Parse the `transfers` section of the YAML document.
fn parse_balances(yaml: &Yaml) -> Option<Vec<BalanceCheckTuple>> {
let mut tuples = vec![];
for exit in yaml["balances"].as_vec()? {
let from =
as_u64(exit, "validator_index").expect("Incomplete balance check (validator_index)");
let comparison = exit["comparison"]
.clone()
.into_string()
.expect("Incomplete balance check (amount)");
let balance = as_u64(exit, "balance").expect("Incomplete balance check (balance)");
tuples.push((from, comparison, balance));
}
Some(tuples)
}

View File

@ -1,19 +0,0 @@
use yaml_rust::Yaml;
pub fn as_usize(yaml: &Yaml, key: &str) -> Option<usize> {
yaml[key].as_i64().and_then(|n| Some(n as usize))
}
pub fn as_u64(yaml: &Yaml, key: &str) -> Option<u64> {
yaml[key].as_i64().and_then(|n| Some(n as u64))
}
pub fn as_vec_u64(yaml: &Yaml, key: &str) -> Option<Vec<u64>> {
yaml[key].clone().into_vec().and_then(|vec| {
Some(
vec.iter()
.map(|item| item.as_i64().unwrap() as u64)
.collect(),
)
})
}

View File

@ -1,100 +0,0 @@
use attester::{
BeaconNode as AttesterBeaconNode, BeaconNodeError as NodeError,
PublishOutcome as AttestationPublishOutcome,
};
use beacon_chain::BeaconChain;
use block_proposer::{
BeaconNode as BeaconBlockNode, BeaconNodeError as BeaconBlockNodeError,
PublishOutcome as BlockPublishOutcome,
};
use db::ClientDB;
use fork_choice::ForkChoice;
use parking_lot::RwLock;
use slot_clock::SlotClock;
use std::sync::Arc;
use types::{AttestationData, BeaconBlock, FreeAttestation, Signature, Slot};
/// Connect directly to a borrowed `BeaconChain` instance so an attester/producer can request/submit
/// blocks/attestations.
///
/// `BeaconBlock`s and `FreeAttestation`s are not actually published to the `BeaconChain`, instead
/// they are stored inside this struct. This is to allow one to benchmark the submission of the
/// block/attestation directly, or modify it before submission.
pub struct DirectBeaconNode<T: ClientDB, U: SlotClock, F: ForkChoice> {
beacon_chain: Arc<BeaconChain<T, U, F>>,
published_blocks: RwLock<Vec<BeaconBlock>>,
published_attestations: RwLock<Vec<FreeAttestation>>,
}
impl<T: ClientDB, U: SlotClock, F: ForkChoice> DirectBeaconNode<T, U, F> {
pub fn new(beacon_chain: Arc<BeaconChain<T, U, F>>) -> Self {
Self {
beacon_chain,
published_blocks: RwLock::new(vec![]),
published_attestations: RwLock::new(vec![]),
}
}
/// Get the last published block (if any).
pub fn last_published_block(&self) -> Option<BeaconBlock> {
Some(self.published_blocks.read().last()?.clone())
}
}
impl<T: ClientDB, U: SlotClock, F: ForkChoice> AttesterBeaconNode for DirectBeaconNode<T, U, F> {
fn produce_attestation_data(
&self,
_slot: Slot,
shard: u64,
) -> Result<Option<AttestationData>, NodeError> {
match self.beacon_chain.produce_attestation_data(shard) {
Ok(attestation_data) => Ok(Some(attestation_data)),
Err(e) => Err(NodeError::RemoteFailure(format!("{:?}", e))),
}
}
fn publish_attestation(
&self,
free_attestation: FreeAttestation,
) -> Result<AttestationPublishOutcome, NodeError> {
self.published_attestations.write().push(free_attestation);
Ok(AttestationPublishOutcome::ValidAttestation)
}
}
impl<T: ClientDB, U: SlotClock, F: ForkChoice> BeaconBlockNode for DirectBeaconNode<T, U, F> {
/// Requests a new `BeaconBlock from the `BeaconChain`.
fn produce_beacon_block(
&self,
slot: Slot,
randao_reveal: &Signature,
) -> Result<Option<BeaconBlock>, BeaconBlockNodeError> {
let (block, _state) = self
.beacon_chain
.produce_block(randao_reveal.clone())
.map_err(|e| {
BeaconBlockNodeError::RemoteFailure(format!("Did not produce block: {:?}", e))
})?;
if block.slot == slot {
Ok(Some(block))
} else {
Err(BeaconBlockNodeError::RemoteFailure(
"Unable to produce at non-current slot.".to_string(),
))
}
}
/// A block is not _actually_ published to the `BeaconChain`, instead it is stored in the
/// `published_block_vec` and a successful `ValidBlock` is returned to the caller.
///
/// The block may be retrieved and then applied to the `BeaconChain` manually, potentially in a
/// benchmarking scenario.
fn publish_beacon_block(
&self,
block: BeaconBlock,
) -> Result<BlockPublishOutcome, BeaconBlockNodeError> {
self.published_blocks.write().push(block);
Ok(BlockPublishOutcome::ValidBlock)
}
}

View File

@ -1,74 +0,0 @@
use attester::{
DutiesReader as AttesterDutiesReader, DutiesReaderError as AttesterDutiesReaderError,
};
use beacon_chain::BeaconChain;
use block_proposer::{
DutiesReader as ProducerDutiesReader, DutiesReaderError as ProducerDutiesReaderError,
};
use db::ClientDB;
use fork_choice::ForkChoice;
use slot_clock::SlotClock;
use std::sync::Arc;
use types::{Fork, PublicKey, Slot};
/// Connects directly to a borrowed `BeaconChain` and reads attester/proposer duties directly from
/// it.
pub struct DirectDuties<T: ClientDB, U: SlotClock, F: ForkChoice> {
beacon_chain: Arc<BeaconChain<T, U, F>>,
pubkey: PublicKey,
}
impl<T: ClientDB, U: SlotClock, F: ForkChoice> DirectDuties<T, U, F> {
pub fn new(pubkey: PublicKey, beacon_chain: Arc<BeaconChain<T, U, F>>) -> Self {
Self {
beacon_chain,
pubkey,
}
}
}
impl<T: ClientDB, U: SlotClock, F: ForkChoice> ProducerDutiesReader for DirectDuties<T, U, F> {
fn is_block_production_slot(&self, slot: Slot) -> Result<bool, ProducerDutiesReaderError> {
let validator_index = self
.beacon_chain
.validator_index(&self.pubkey)
.ok_or_else(|| ProducerDutiesReaderError::UnknownValidator)?;
match self.beacon_chain.block_proposer(slot) {
Ok(proposer) if proposer == validator_index => Ok(true),
Ok(_) => Ok(false),
Err(_) => Err(ProducerDutiesReaderError::UnknownEpoch),
}
}
fn fork(&self) -> Result<Fork, ProducerDutiesReaderError> {
Ok(self.beacon_chain.state.read().fork.clone())
}
}
impl<T: ClientDB, U: SlotClock, F: ForkChoice> AttesterDutiesReader for DirectDuties<T, U, F> {
fn validator_index(&self) -> Option<u64> {
match self.beacon_chain.validator_index(&self.pubkey) {
Some(index) => Some(index as u64),
None => None,
}
}
fn attestation_shard(&self, slot: Slot) -> Result<Option<u64>, AttesterDutiesReaderError> {
if let Some(validator_index) = self.validator_index() {
match self
.beacon_chain
.validator_attestion_slot_and_shard(validator_index as usize)
{
Ok(Some((attest_slot, attest_shard))) if attest_slot == slot => {
Ok(Some(attest_shard))
}
Ok(Some(_)) => Ok(None),
Ok(None) => Err(AttesterDutiesReaderError::UnknownEpoch),
Err(_) => unreachable!("Error when getting validator attestation shard."),
}
} else {
Err(AttesterDutiesReaderError::UnknownValidator)
}
}
}

View File

@ -1,36 +0,0 @@
use attester::Signer as AttesterSigner;
use block_proposer::Signer as BlockProposerSigner;
use types::{Keypair, Signature};
/// A test-only struct used to perform signing for a proposer or attester.
pub struct LocalSigner {
keypair: Keypair,
}
impl LocalSigner {
/// Produce a new TestSigner with signing enabled by default.
pub fn new(keypair: Keypair) -> Self {
Self { keypair }
}
/// Sign some message.
fn bls_sign(&self, message: &[u8], domain: u64) -> Option<Signature> {
Some(Signature::new(message, domain, &self.keypair.sk))
}
}
impl BlockProposerSigner for LocalSigner {
fn sign_block_proposal(&self, message: &[u8], domain: u64) -> Option<Signature> {
self.bls_sign(message, domain)
}
fn sign_randao_reveal(&self, message: &[u8], domain: u64) -> Option<Signature> {
self.bls_sign(message, domain)
}
}
impl AttesterSigner for LocalSigner {
fn sign_attestation_message(&self, message: &[u8], domain: u64) -> Option<Signature> {
self.bls_sign(message, domain)
}
}

View File

@ -1,119 +0,0 @@
mod direct_beacon_node;
mod direct_duties;
mod local_signer;
use attester::Attester;
use beacon_chain::BeaconChain;
use block_proposer::PollOutcome as BlockPollOutcome;
use block_proposer::{BlockProducer, Error as BlockPollError};
use db::MemoryDB;
use direct_beacon_node::DirectBeaconNode;
use direct_duties::DirectDuties;
use fork_choice::BitwiseLMDGhost;
use local_signer::LocalSigner;
use slot_clock::TestingSlotClock;
use std::sync::Arc;
use types::{BeaconBlock, ChainSpec, Keypair, Slot};
#[derive(Debug, PartialEq)]
pub enum BlockProduceError {
DidNotProduce(BlockPollOutcome),
PollError(BlockPollError),
}
type TestingBlockProducer = BlockProducer<
TestingSlotClock,
DirectBeaconNode<MemoryDB, TestingSlotClock, BitwiseLMDGhost<MemoryDB>>,
DirectDuties<MemoryDB, TestingSlotClock, BitwiseLMDGhost<MemoryDB>>,
LocalSigner,
>;
type TestingAttester = Attester<
TestingSlotClock,
DirectBeaconNode<MemoryDB, TestingSlotClock, BitwiseLMDGhost<MemoryDB>>,
DirectDuties<MemoryDB, TestingSlotClock, BitwiseLMDGhost<MemoryDB>>,
LocalSigner,
>;
/// A `BlockProducer` and `Attester` which sign using a common keypair.
///
/// The test validator connects directly to a borrowed `BeaconChain` struct. It is useful for
/// testing that the core proposer and attester logic is functioning. Also for supporting beacon
/// chain tests.
pub struct ValidatorHarness {
pub block_producer: TestingBlockProducer,
pub attester: TestingAttester,
pub spec: Arc<ChainSpec>,
pub epoch_map: Arc<DirectDuties<MemoryDB, TestingSlotClock, BitwiseLMDGhost<MemoryDB>>>,
pub keypair: Keypair,
pub beacon_node: Arc<DirectBeaconNode<MemoryDB, TestingSlotClock, BitwiseLMDGhost<MemoryDB>>>,
pub slot_clock: Arc<TestingSlotClock>,
pub signer: Arc<LocalSigner>,
}
impl ValidatorHarness {
/// Create a new ValidatorHarness that signs with the given keypair, operates per the given spec and connects to the
/// supplied beacon node.
///
/// A `BlockProducer` and `Attester` is created..
pub fn new(
keypair: Keypair,
beacon_chain: Arc<BeaconChain<MemoryDB, TestingSlotClock, BitwiseLMDGhost<MemoryDB>>>,
spec: Arc<ChainSpec>,
) -> Self {
let slot_clock = Arc::new(TestingSlotClock::new(spec.genesis_slot.as_u64()));
let signer = Arc::new(LocalSigner::new(keypair.clone()));
let beacon_node = Arc::new(DirectBeaconNode::new(beacon_chain.clone()));
let epoch_map = Arc::new(DirectDuties::new(keypair.pk.clone(), beacon_chain.clone()));
let block_producer = BlockProducer::new(
spec.clone(),
epoch_map.clone(),
slot_clock.clone(),
beacon_node.clone(),
signer.clone(),
);
let attester = Attester::new(
epoch_map.clone(),
slot_clock.clone(),
beacon_node.clone(),
signer.clone(),
);
Self {
block_producer,
attester,
spec,
epoch_map,
keypair,
beacon_node,
slot_clock,
signer,
}
}
/// Run the `poll` function on the `BlockProducer` and produce a block.
///
/// An error is returned if the producer refuses to produce.
pub fn produce_block(&mut self) -> Result<BeaconBlock, BlockProduceError> {
// Using `DirectBeaconNode`, the validator will always return sucessufully if it tries to
// publish a block.
match self.block_producer.poll() {
Ok(BlockPollOutcome::BlockProduced(_)) => {}
Ok(outcome) => return Err(BlockProduceError::DidNotProduce(outcome)),
Err(error) => return Err(BlockProduceError::PollError(error)),
};
Ok(self
.beacon_node
.last_published_block()
.expect("Unable to obtain produced block."))
}
/// Set the validators slot clock to the specified slot.
///
/// The validators slot clock will always read this value until it is set to something else.
pub fn set_slot(&mut self, slot: Slot) {
self.slot_clock.set_slot(slot.as_u64())
}
}

View File

@ -1,46 +0,0 @@
#![cfg(not(debug_assertions))]
use env_logger::{Builder, Env};
use log::debug;
use test_harness::BeaconChainHarness;
use types::ChainSpec;
#[test]
fn it_can_build_on_genesis_block() {
Builder::from_env(Env::default().default_filter_or("info")).init();
let spec = ChainSpec::few_validators();
let validator_count = 8;
let mut harness = BeaconChainHarness::new(spec, validator_count as usize);
harness.advance_chain_with_block();
}
#[test]
#[ignore]
fn it_can_produce_past_first_epoch_boundary() {
Builder::from_env(Env::default().default_filter_or("info")).init();
let spec = ChainSpec::few_validators();
let validator_count = 8;
debug!("Starting harness build...");
let mut harness = BeaconChainHarness::new(spec, validator_count);
debug!("Harness built, tests starting..");
let blocks = harness.spec.slots_per_epoch * 2 + 1;
for i in 0..blocks {
harness.advance_chain_with_block();
debug!("Produced block {}/{}.", i + 1, blocks);
}
harness.run_fork_choice();
let dump = harness.chain_dump().expect("Chain dump failed.");
assert_eq!(dump.len() as u64, blocks + 1); // + 1 for genesis block.
}

View File

@ -9,8 +9,8 @@ use std::net::{IpAddr, Ipv4Addr};
use std::path::PathBuf;
use types::multiaddr::Protocol;
use types::multiaddr::ToMultiaddr;
use types::ChainSpec;
use types::Multiaddr;
use types::{ChainSpec, EthSpec, LighthouseTestnetEthSpec};
/// Stores the client configuration for this Lighthouse instance.
#[derive(Debug, Clone)]
@ -35,7 +35,7 @@ impl Default for ClientConfig {
fs::create_dir_all(&data_dir)
.unwrap_or_else(|_| panic!("Unable to create {:?}", &data_dir));
let default_spec = ChainSpec::lighthouse_testnet();
let default_spec = LighthouseTestnetEthSpec::spec();
let default_net_conf = NetworkConfig::new(default_spec.boot_nodes.clone());
Self {

View File

@ -1,23 +1,22 @@
use crate::ClientConfig;
use crate::{ArcBeaconChain, ClientConfig};
use beacon_chain::{
db::{ClientDB, DiskDB, MemoryDB},
fork_choice::BitwiseLMDGhost,
initialise,
slot_clock::{SlotClock, SystemTimeSlotClock},
BeaconChain,
};
use fork_choice::ForkChoice;
use std::sync::Arc;
use types::{EthSpec, FewValidatorsEthSpec, FoundationEthSpec};
pub trait ClientTypes {
type DB: ClientDB + 'static;
type SlotClock: SlotClock + 'static;
type ForkChoice: ForkChoice + 'static;
type EthSpec: EthSpec + 'static;
fn initialise_beacon_chain(
config: &ClientConfig,
) -> Arc<BeaconChain<Self::DB, Self::SlotClock, Self::ForkChoice>>;
) -> ArcBeaconChain<Self::DB, Self::SlotClock, Self::ForkChoice, Self::EthSpec>;
}
pub struct StandardClientType;
@ -25,11 +24,12 @@ pub struct StandardClientType;
impl ClientTypes for StandardClientType {
type DB = DiskDB;
type SlotClock = SystemTimeSlotClock;
type ForkChoice = BitwiseLMDGhost<DiskDB>;
type ForkChoice = BitwiseLMDGhost<DiskDB, Self::EthSpec>;
type EthSpec = FoundationEthSpec;
fn initialise_beacon_chain(
config: &ClientConfig,
) -> Arc<BeaconChain<Self::DB, Self::SlotClock, Self::ForkChoice>> {
) -> ArcBeaconChain<Self::DB, Self::SlotClock, Self::ForkChoice, Self::EthSpec> {
initialise::initialise_beacon_chain(&config.spec, Some(&config.db_name))
}
}
@ -39,11 +39,12 @@ pub struct TestingClientType;
impl ClientTypes for TestingClientType {
type DB = MemoryDB;
type SlotClock = SystemTimeSlotClock;
type ForkChoice = BitwiseLMDGhost<MemoryDB>;
type ForkChoice = BitwiseLMDGhost<MemoryDB, Self::EthSpec>;
type EthSpec = FewValidatorsEthSpec;
fn initialise_beacon_chain(
config: &ClientConfig,
) -> Arc<BeaconChain<Self::DB, Self::SlotClock, Self::ForkChoice>> {
) -> ArcBeaconChain<Self::DB, Self::SlotClock, Self::ForkChoice, Self::EthSpec> {
initialise::initialise_test_beacon_chain(&config.spec, None)
}
}

View File

@ -20,6 +20,9 @@ use std::sync::Arc;
use std::time::{Duration, Instant};
use tokio::runtime::TaskExecutor;
use tokio::timer::Interval;
use types::EthSpec;
type ArcBeaconChain<D, S, F, B> = Arc<BeaconChain<D, S, F, B>>;
/// Main beacon node client service. This provides the connection and initialisation of the clients
/// sub-services in multiple threads.
@ -27,9 +30,9 @@ pub struct Client<T: ClientTypes> {
/// Configuration for the lighthouse client.
_config: ClientConfig,
/// The beacon chain for the running client.
_beacon_chain: Arc<BeaconChain<T::DB, T::SlotClock, T::ForkChoice>>,
_beacon_chain: ArcBeaconChain<T::DB, T::SlotClock, T::ForkChoice, T::EthSpec>,
/// Reference to the network service.
pub network: Arc<NetworkService>,
pub network: Arc<NetworkService<T::EthSpec>>,
/// Signal to terminate the RPC server.
pub rpc_exit_signal: Option<Signal>,
/// Signal to terminate the slot timer.
@ -141,11 +144,12 @@ impl<TClientType: ClientTypes> Client<TClientType> {
}
}
fn do_state_catchup<T, U, F>(chain: &Arc<BeaconChain<T, U, F>>, log: &slog::Logger)
fn do_state_catchup<T, U, F, E>(chain: &Arc<BeaconChain<T, U, F, E>>, log: &slog::Logger)
where
T: ClientDB,
U: SlotClock,
F: ForkChoice,
E: EthSpec,
{
if let Some(genesis_height) = chain.slots_since_genesis() {
let result = chain.catchup_state();

View File

@ -97,7 +97,7 @@ impl ClientDB for DiskDB {
None => Err(DBError {
message: "Unknown column".to_string(),
}),
Some(handle) => self.db.put_cf(handle, key, val).map_err(|e| e.into()),
Some(handle) => self.db.put_cf(handle, key, val).map_err(Into::into),
}
}

View File

@ -2,7 +2,7 @@ use super::STATES_DB_COLUMN as DB_COLUMN;
use super::{ClientDB, DBError};
use ssz::decode;
use std::sync::Arc;
use types::{BeaconState, Hash256};
use types::{BeaconState, EthSpec, Hash256};
pub struct BeaconStateStore<T>
where
@ -19,11 +19,14 @@ impl<T: ClientDB> BeaconStateStore<T> {
Self { db }
}
pub fn get_deserialized(&self, hash: &Hash256) -> Result<Option<BeaconState>, DBError> {
pub fn get_deserialized<E: EthSpec>(
&self,
hash: &Hash256,
) -> Result<Option<BeaconState<E>>, DBError> {
match self.get(&hash)? {
None => Ok(None),
Some(ssz) => {
let state = decode::<BeaconState>(&ssz).map_err(|_| DBError {
let state = decode::<BeaconState<E>>(&ssz).map_err(|_| DBError {
message: "Bad State SSZ.".to_string(),
})?;
Ok(Some(state))
@ -40,7 +43,7 @@ mod tests {
use ssz::ssz_encode;
use std::sync::Arc;
use types::test_utils::{SeedableRng, TestRandom, XorShiftRng};
use types::Hash256;
use types::{FoundationBeaconState, Hash256};
test_crud_for_store!(BeaconStateStore, DB_COLUMN);
@ -50,7 +53,7 @@ mod tests {
let store = BeaconStateStore::new(db.clone());
let mut rng = XorShiftRng::from_seed([42; 16]);
let state = BeaconState::random_for_test(&mut rng);
let state: FoundationBeaconState = BeaconState::random_for_test(&mut rng);
let state_root = state.canonical_root();
store.put(&state_root, &ssz_encode(&state)).unwrap();

View File

@ -236,7 +236,7 @@ mod test {
#[test]
fn ssz_encoding() {
let original = PubsubMessage::Block(BeaconBlock::empty(&ChainSpec::foundation()));
let original = PubsubMessage::Block(BeaconBlock::empty(&FoundationEthSpec::spec()));
let encoded = ssz_encode(&original);

View File

@ -5,7 +5,6 @@ authors = ["Age Manning <Age@AgeManning.com>"]
edition = "2018"
[dev-dependencies]
test_harness = { path = "../beacon_chain/test_harness" }
sloggers = "0.3.2"
[dependencies]

View File

@ -8,19 +8,21 @@ use beacon_chain::{
AttestationValidationError, CheckPoint,
};
use eth2_libp2p::rpc::HelloMessage;
use types::{Attestation, BeaconBlock, BeaconBlockBody, BeaconBlockHeader, Epoch, Hash256, Slot};
use types::{
Attestation, BeaconBlock, BeaconBlockBody, BeaconBlockHeader, Epoch, EthSpec, Hash256, Slot,
};
pub use beacon_chain::{BeaconChainError, BlockProcessingOutcome, InvalidBlock};
/// The network's API to the beacon chain.
pub trait BeaconChain: Send + Sync {
pub trait BeaconChain<E: EthSpec>: Send + Sync {
fn get_spec(&self) -> &ChainSpec;
fn get_state(&self) -> RwLockReadGuard<BeaconState>;
fn get_state(&self) -> RwLockReadGuard<BeaconState<E>>;
fn slot(&self) -> Slot;
fn head(&self) -> RwLockReadGuard<CheckPoint>;
fn head(&self) -> RwLockReadGuard<CheckPoint<E>>;
fn get_block(&self, block_root: &Hash256) -> Result<Option<BeaconBlock>, BeaconChainError>;
@ -28,7 +30,7 @@ pub trait BeaconChain: Send + Sync {
fn best_block_root(&self) -> Hash256;
fn finalized_head(&self) -> RwLockReadGuard<CheckPoint>;
fn finalized_head(&self) -> RwLockReadGuard<CheckPoint<E>>;
fn finalized_epoch(&self) -> Epoch;
@ -62,17 +64,18 @@ pub trait BeaconChain: Send + Sync {
fn is_new_block_root(&self, beacon_block_root: &Hash256) -> Result<bool, BeaconChainError>;
}
impl<T, U, F> BeaconChain for RawBeaconChain<T, U, F>
impl<T, U, F, E> BeaconChain<E> for RawBeaconChain<T, U, F, E>
where
T: ClientDB + Sized,
U: SlotClock,
F: ForkChoice,
E: EthSpec,
{
fn get_spec(&self) -> &ChainSpec {
&self.spec
}
fn get_state(&self) -> RwLockReadGuard<BeaconState> {
fn get_state(&self) -> RwLockReadGuard<BeaconState<E>> {
self.state.read()
}
@ -80,7 +83,7 @@ where
self.get_state().slot
}
fn head(&self) -> RwLockReadGuard<CheckPoint> {
fn head(&self) -> RwLockReadGuard<CheckPoint<E>> {
self.head()
}
@ -92,7 +95,7 @@ where
self.get_state().finalized_epoch
}
fn finalized_head(&self) -> RwLockReadGuard<CheckPoint> {
fn finalized_head(&self) -> RwLockReadGuard<CheckPoint<E>> {
self.finalized_head()
}

View File

@ -13,6 +13,7 @@ use slog::{debug, warn};
use std::collections::HashMap;
use std::sync::Arc;
use std::time::Instant;
use types::EthSpec;
/// Timeout for RPC requests.
// const REQUEST_TIMEOUT: Duration = Duration::from_secs(30);
@ -20,11 +21,11 @@ use std::time::Instant;
// const HELLO_TIMEOUT: Duration = Duration::from_secs(30);
/// Handles messages received from the network and client and organises syncing.
pub struct MessageHandler {
pub struct MessageHandler<E: EthSpec> {
/// Currently loaded and initialised beacon chain.
_chain: Arc<BeaconChain>,
_chain: Arc<BeaconChain<E>>,
/// The syncing framework.
sync: SimpleSync,
sync: SimpleSync<E>,
/// The context required to send messages to, and process messages from peers.
network_context: NetworkContext,
/// The `MessageHandler` logger.
@ -44,10 +45,10 @@ pub enum HandlerMessage {
PubsubMessage(PeerId, Box<PubsubMessage>),
}
impl MessageHandler {
impl<E: EthSpec> MessageHandler<E> {
/// Initializes and runs the MessageHandler.
pub fn spawn(
beacon_chain: Arc<BeaconChain>,
beacon_chain: Arc<BeaconChain<E>>,
network_send: crossbeam_channel::Sender<NetworkMessage>,
executor: &tokio::runtime::TaskExecutor,
log: slog::Logger,
@ -299,7 +300,7 @@ impl NetworkContext {
let next_id = self
.outgoing_request_ids
.entry(peer_id.clone())
.and_modify(|id| id.increment())
.and_modify(RequestId::increment)
.or_insert_with(|| RequestId::from(1));
next_id.previous()

View File

@ -10,22 +10,23 @@ use futures::prelude::*;
use futures::sync::oneshot;
use futures::Stream;
use slog::{debug, info, o, trace};
use std::marker::PhantomData;
use std::sync::Arc;
use tokio::runtime::TaskExecutor;
use types::Topic;
use types::{EthSpec, Topic};
/// Service that handles communication between internal services and the eth2_libp2p network service.
pub struct Service {
pub struct Service<E: EthSpec> {
//libp2p_service: Arc<Mutex<LibP2PService>>,
_libp2p_exit: oneshot::Sender<()>,
network_send: crossbeam_channel::Sender<NetworkMessage>,
//message_handler: MessageHandler,
//message_handler_send: Sender<HandlerMessage>,
_phantom: PhantomData<E>, //message_handler: MessageHandler,
//message_handler_send: Sender<HandlerMessage>
}
impl Service {
impl<E: EthSpec> Service<E> {
pub fn new(
beacon_chain: Arc<BeaconChain>,
beacon_chain: Arc<BeaconChain<E>>,
config: &NetworkConfig,
executor: &TaskExecutor,
log: slog::Logger,
@ -56,6 +57,7 @@ impl Service {
let network_service = Service {
_libp2p_exit: libp2p_exit,
network_send: network_send.clone(),
_phantom: PhantomData,
};
Ok((Arc::new(network_service), network_send))

View File

@ -5,7 +5,7 @@ use slog::{debug, error};
use std::sync::Arc;
use std::time::{Duration, Instant};
use tree_hash::TreeHash;
use types::{BeaconBlock, BeaconBlockBody, BeaconBlockHeader, Hash256, Slot};
use types::{BeaconBlock, BeaconBlockBody, BeaconBlockHeader, EthSpec, Hash256, Slot};
/// Provides a queue for fully and partially built `BeaconBlock`s.
///
@ -19,8 +19,8 @@ use types::{BeaconBlock, BeaconBlockBody, BeaconBlockHeader, Hash256, Slot};
/// `BeaconBlockBody` as the key.
/// - It is possible for multiple distinct blocks to have identical `BeaconBlockBodies`. Therefore
/// we cannot use a `HashMap` keyed by the root of `BeaconBlockBody`.
pub struct ImportQueue {
pub chain: Arc<BeaconChain>,
pub struct ImportQueue<E: EthSpec> {
pub chain: Arc<BeaconChain<E>>,
/// Partially imported blocks, keyed by the root of `BeaconBlockBody`.
pub partials: Vec<PartialBeaconBlock>,
/// Time before a queue entry is considered state.
@ -29,9 +29,9 @@ pub struct ImportQueue {
log: slog::Logger,
}
impl ImportQueue {
impl<E: EthSpec> ImportQueue<E> {
/// Return a new, empty queue.
pub fn new(chain: Arc<BeaconChain>, stale_time: Duration, log: slog::Logger) -> Self {
pub fn new(chain: Arc<BeaconChain<E>>, stale_time: Duration, log: slog::Logger) -> Self {
Self {
chain,
partials: vec![],

View File

@ -9,7 +9,7 @@ use std::collections::HashMap;
use std::sync::Arc;
use std::time::Duration;
use tree_hash::TreeHash;
use types::{Attestation, BeaconBlock, Epoch, Hash256, Slot};
use types::{Attestation, BeaconBlock, Epoch, EthSpec, Hash256, Slot};
/// The number of slots that we can import blocks ahead of us, before going into full Sync mode.
const SLOT_IMPORT_TOLERANCE: u64 = 100;
@ -88,8 +88,8 @@ impl From<HelloMessage> for PeerSyncInfo {
}
}
impl From<&Arc<BeaconChain>> for PeerSyncInfo {
fn from(chain: &Arc<BeaconChain>) -> PeerSyncInfo {
impl<E: EthSpec> From<&Arc<BeaconChain<E>>> for PeerSyncInfo {
fn from(chain: &Arc<BeaconChain<E>>) -> PeerSyncInfo {
Self::from(chain.hello_message())
}
}
@ -103,22 +103,22 @@ pub enum SyncState {
}
/// Simple Syncing protocol.
pub struct SimpleSync {
pub struct SimpleSync<E: EthSpec> {
/// A reference to the underlying beacon chain.
chain: Arc<BeaconChain>,
chain: Arc<BeaconChain<E>>,
/// A mapping of Peers to their respective PeerSyncInfo.
known_peers: HashMap<PeerId, PeerSyncInfo>,
/// A queue to allow importing of blocks
import_queue: ImportQueue,
import_queue: ImportQueue<E>,
/// The current state of the syncing protocol.
state: SyncState,
/// Sync logger.
log: slog::Logger,
}
impl SimpleSync {
impl<E: EthSpec> SimpleSync<E> {
/// Instantiate a `SimpleSync` instance, with no peers and an empty queue.
pub fn new(beacon_chain: Arc<BeaconChain>, log: &slog::Logger) -> Self {
pub fn new(beacon_chain: Arc<BeaconChain<E>>, log: &slog::Logger) -> Self {
let sync_logger = log.new(o!("Service"=> "Sync"));
let queue_item_stale_time = Duration::from_secs(QUEUE_STALE_SECS);

View File

@ -1,570 +0,0 @@
use crossbeam_channel::{unbounded, Receiver, RecvTimeoutError, Sender};
use eth2_libp2p::rpc::methods::*;
use eth2_libp2p::rpc::{RPCMethod, RPCRequest, RPCResponse, RequestId};
use eth2_libp2p::{PeerId, RPCEvent};
use network::beacon_chain::BeaconChain as NetworkBeaconChain;
use network::message_handler::{HandlerMessage, MessageHandler};
use network::service::{NetworkMessage, OutgoingMessage};
use sloggers::terminal::{Destination, TerminalLoggerBuilder};
use sloggers::types::Severity;
use sloggers::Build;
use std::time::Duration;
use test_harness::BeaconChainHarness;
use tokio::runtime::TaskExecutor;
use types::{test_utils::TestingBeaconStateBuilder, *};
pub struct SyncNode {
pub id: usize,
sender: Sender<HandlerMessage>,
receiver: Receiver<NetworkMessage>,
peer_id: PeerId,
harness: BeaconChainHarness,
}
impl SyncNode {
fn from_beacon_state_builder(
id: usize,
executor: &TaskExecutor,
state_builder: TestingBeaconStateBuilder,
spec: &ChainSpec,
logger: slog::Logger,
) -> Self {
let harness = BeaconChainHarness::from_beacon_state_builder(state_builder, spec.clone());
let (network_sender, network_receiver) = unbounded();
let message_handler_sender = MessageHandler::spawn(
harness.beacon_chain.clone(),
network_sender,
executor,
logger,
)
.unwrap();
Self {
id,
sender: message_handler_sender,
receiver: network_receiver,
peer_id: PeerId::random(),
harness,
}
}
fn increment_beacon_chain_slot(&mut self) {
self.harness.increment_beacon_chain_slot();
}
fn send(&self, message: HandlerMessage) {
self.sender.send(message).unwrap();
}
fn recv(&self) -> Result<NetworkMessage, RecvTimeoutError> {
self.receiver.recv_timeout(Duration::from_millis(500))
}
fn hello_message(&self) -> HelloMessage {
self.harness.beacon_chain.hello_message()
}
pub fn connect_to(&mut self, node: &SyncNode) {
let message = HandlerMessage::PeerDialed(self.peer_id.clone());
node.send(message);
}
/// Reads the receive queue from one node and passes the message to the other. Also returns a
/// copy of the message.
///
/// self -----> node
/// |
/// us
///
/// Named after the unix `tee` command.
fn tee(&mut self, node: &SyncNode) -> NetworkMessage {
let network_message = self.recv().expect("Timeout on tee");
let handler_message = match network_message.clone() {
NetworkMessage::Send(_to_peer_id, OutgoingMessage::RPC(event)) => {
HandlerMessage::RPC(self.peer_id.clone(), event)
}
_ => panic!("tee cannot parse {:?}", network_message),
};
node.send(handler_message);
network_message
}
fn tee_hello_request(&mut self, node: &SyncNode) -> HelloMessage {
let request = self.tee_rpc_request(node);
match request {
RPCRequest::Hello(message) => message,
_ => panic!("tee_hello_request got: {:?}", request),
}
}
fn tee_hello_response(&mut self, node: &SyncNode) -> HelloMessage {
let response = self.tee_rpc_response(node);
match response {
RPCResponse::Hello(message) => message,
_ => panic!("tee_hello_response got: {:?}", response),
}
}
fn tee_block_root_request(&mut self, node: &SyncNode) -> BeaconBlockRootsRequest {
let msg = self.tee_rpc_request(node);
match msg {
RPCRequest::BeaconBlockRoots(data) => data,
_ => panic!("tee_block_root_request got: {:?}", msg),
}
}
fn tee_block_root_response(&mut self, node: &SyncNode) -> BeaconBlockRootsResponse {
let msg = self.tee_rpc_response(node);
match msg {
RPCResponse::BeaconBlockRoots(data) => data,
_ => panic!("tee_block_root_response got: {:?}", msg),
}
}
fn tee_block_header_request(&mut self, node: &SyncNode) -> BeaconBlockHeadersRequest {
let msg = self.tee_rpc_request(node);
match msg {
RPCRequest::BeaconBlockHeaders(data) => data,
_ => panic!("tee_block_header_request got: {:?}", msg),
}
}
fn tee_block_header_response(&mut self, node: &SyncNode) -> BeaconBlockHeadersResponse {
let msg = self.tee_rpc_response(node);
match msg {
RPCResponse::BeaconBlockHeaders(data) => data,
_ => panic!("tee_block_header_response got: {:?}", msg),
}
}
fn tee_block_body_request(&mut self, node: &SyncNode) -> BeaconBlockBodiesRequest {
let msg = self.tee_rpc_request(node);
match msg {
RPCRequest::BeaconBlockBodies(data) => data,
_ => panic!("tee_block_body_request got: {:?}", msg),
}
}
fn tee_block_body_response(&mut self, node: &SyncNode) -> BeaconBlockBodiesResponse {
let msg = self.tee_rpc_response(node);
match msg {
RPCResponse::BeaconBlockBodies(data) => data,
_ => panic!("tee_block_body_response got: {:?}", msg),
}
}
fn tee_rpc_request(&mut self, node: &SyncNode) -> RPCRequest {
let network_message = self.tee(node);
match network_message {
NetworkMessage::Send(
_peer_id,
OutgoingMessage::RPC(RPCEvent::Request {
id: _,
method_id: _,
body,
}),
) => body,
_ => panic!("tee_rpc_request failed! got {:?}", network_message),
}
}
fn tee_rpc_response(&mut self, node: &SyncNode) -> RPCResponse {
let network_message = self.tee(node);
match network_message {
NetworkMessage::Send(
_peer_id,
OutgoingMessage::RPC(RPCEvent::Response {
id: _,
method_id: _,
result,
}),
) => result,
_ => panic!("tee_rpc_response failed! got {:?}", network_message),
}
}
pub fn get_block_root_request(&self) -> BeaconBlockRootsRequest {
let request = self.recv_rpc_request().expect("No block root request");
match request {
RPCRequest::BeaconBlockRoots(request) => request,
_ => panic!("Did not get block root request"),
}
}
pub fn get_block_headers_request(&self) -> BeaconBlockHeadersRequest {
let request = self.recv_rpc_request().expect("No block headers request");
match request {
RPCRequest::BeaconBlockHeaders(request) => request,
_ => panic!("Did not get block headers request"),
}
}
pub fn get_block_bodies_request(&self) -> BeaconBlockBodiesRequest {
let request = self.recv_rpc_request().expect("No block bodies request");
match request {
RPCRequest::BeaconBlockBodies(request) => request,
_ => panic!("Did not get block bodies request"),
}
}
fn _recv_rpc_response(&self) -> Result<RPCResponse, RecvTimeoutError> {
let network_message = self.recv()?;
Ok(match network_message {
NetworkMessage::Send(
_peer_id,
OutgoingMessage::RPC(RPCEvent::Response {
id: _,
method_id: _,
result,
}),
) => result,
_ => panic!("get_rpc_response failed! got {:?}", network_message),
})
}
fn recv_rpc_request(&self) -> Result<RPCRequest, RecvTimeoutError> {
let network_message = self.recv()?;
Ok(match network_message {
NetworkMessage::Send(
_peer_id,
OutgoingMessage::RPC(RPCEvent::Request {
id: _,
method_id: _,
body,
}),
) => body,
_ => panic!("get_rpc_request failed! got {:?}", network_message),
})
}
}
fn get_logger() -> slog::Logger {
let mut builder = TerminalLoggerBuilder::new();
builder.level(Severity::Debug);
builder.destination(Destination::Stderr);
builder.build().unwrap()
}
pub struct SyncMaster {
harness: BeaconChainHarness,
peer_id: PeerId,
response_ids: Vec<RequestId>,
}
impl SyncMaster {
fn from_beacon_state_builder(
state_builder: TestingBeaconStateBuilder,
node_count: usize,
spec: &ChainSpec,
) -> Self {
let harness = BeaconChainHarness::from_beacon_state_builder(state_builder, spec.clone());
let peer_id = PeerId::random();
let response_ids = vec![RequestId::from(0); node_count];
Self {
harness,
peer_id,
response_ids,
}
}
pub fn response_id(&mut self, node: &SyncNode) -> RequestId {
let id = self.response_ids[node.id].clone();
self.response_ids[node.id].increment();
id
}
pub fn do_hello_with(&mut self, node: &SyncNode) {
let message = HandlerMessage::PeerDialed(self.peer_id.clone());
node.send(message);
let request = node.recv_rpc_request().expect("No hello response");
match request {
RPCRequest::Hello(_hello) => {
let hello = self.harness.beacon_chain.hello_message();
let response = self.rpc_response(node, RPCResponse::Hello(hello));
node.send(response);
}
_ => panic!("Got message other than hello from node."),
}
}
pub fn respond_to_block_roots_request(
&mut self,
node: &SyncNode,
request: BeaconBlockRootsRequest,
) {
let roots = self
.harness
.beacon_chain
.get_block_roots(request.start_slot, request.count as usize, 0)
.expect("Beacon chain did not give block roots")
.iter()
.enumerate()
.map(|(i, root)| BlockRootSlot {
block_root: *root,
slot: Slot::from(i) + request.start_slot,
})
.collect();
let response = RPCResponse::BeaconBlockRoots(BeaconBlockRootsResponse { roots });
self.send_rpc_response(node, response)
}
pub fn respond_to_block_headers_request(
&mut self,
node: &SyncNode,
request: BeaconBlockHeadersRequest,
) {
let roots = self
.harness
.beacon_chain
.get_block_roots(
request.start_slot,
request.max_headers as usize,
request.skip_slots as usize,
)
.expect("Beacon chain did not give blocks");
if roots.is_empty() {
panic!("Roots was empty when trying to get headers.")
}
assert_eq!(
roots[0], request.start_root,
"Got the wrong start root when getting headers"
);
let headers: Vec<BeaconBlockHeader> = roots
.iter()
.map(|root| {
let block = self
.harness
.beacon_chain
.get_block(root)
.expect("Failed to load block")
.expect("Block did not exist");
block.block_header()
})
.collect();
let response = RPCResponse::BeaconBlockHeaders(BeaconBlockHeadersResponse { headers });
self.send_rpc_response(node, response)
}
pub fn respond_to_block_bodies_request(
&mut self,
node: &SyncNode,
request: BeaconBlockBodiesRequest,
) {
let block_bodies: Vec<BeaconBlockBody> = request
.block_roots
.iter()
.map(|root| {
let block = self
.harness
.beacon_chain
.get_block(root)
.expect("Failed to load block")
.expect("Block did not exist");
block.body
})
.collect();
let response = RPCResponse::BeaconBlockBodies(BeaconBlockBodiesResponse { block_bodies });
self.send_rpc_response(node, response)
}
fn send_rpc_response(&mut self, node: &SyncNode, rpc_response: RPCResponse) {
node.send(self.rpc_response(node, rpc_response));
}
fn rpc_response(&mut self, node: &SyncNode, rpc_response: RPCResponse) -> HandlerMessage {
HandlerMessage::RPC(
self.peer_id.clone(),
RPCEvent::Response {
id: self.response_id(node),
method_id: RPCMethod::Hello.into(),
result: rpc_response,
},
)
}
}
fn test_setup(
state_builder: TestingBeaconStateBuilder,
node_count: usize,
spec: &ChainSpec,
logger: slog::Logger,
) -> (tokio::runtime::Runtime, SyncMaster, Vec<SyncNode>) {
let runtime = tokio::runtime::Runtime::new().unwrap();
let mut nodes = Vec::with_capacity(node_count);
for id in 0..node_count {
let node = SyncNode::from_beacon_state_builder(
id,
&runtime.executor(),
state_builder.clone(),
&spec,
logger.clone(),
);
nodes.push(node);
}
let master = SyncMaster::from_beacon_state_builder(state_builder, node_count, &spec);
(runtime, master, nodes)
}
pub fn build_blocks(blocks: usize, master: &mut SyncMaster, nodes: &mut Vec<SyncNode>) {
for _ in 0..blocks {
master.harness.advance_chain_with_block();
for i in 0..nodes.len() {
nodes[i].increment_beacon_chain_slot();
}
}
master.harness.run_fork_choice();
for i in 0..nodes.len() {
nodes[i].harness.run_fork_choice();
}
}
#[test]
#[ignore]
fn sync_node_with_master() {
let logger = get_logger();
let spec = ChainSpec::few_validators();
let validator_count = 8;
let node_count = 1;
let state_builder =
TestingBeaconStateBuilder::from_default_keypairs_file_if_exists(validator_count, &spec);
let (runtime, mut master, mut nodes) =
test_setup(state_builder, node_count, &spec, logger.clone());
let original_node_slot = nodes[0].hello_message().best_slot;
build_blocks(2, &mut master, &mut nodes);
master.do_hello_with(&nodes[0]);
let roots_request = nodes[0].get_block_root_request();
assert_eq!(roots_request.start_slot, original_node_slot + 1);
assert_eq!(roots_request.count, 2);
master.respond_to_block_roots_request(&nodes[0], roots_request);
let headers_request = nodes[0].get_block_headers_request();
assert_eq!(headers_request.start_slot, original_node_slot + 1);
assert_eq!(headers_request.max_headers, 2);
assert_eq!(headers_request.skip_slots, 0);
master.respond_to_block_headers_request(&nodes[0], headers_request);
let bodies_request = nodes[0].get_block_bodies_request();
assert_eq!(bodies_request.block_roots.len(), 2);
master.respond_to_block_bodies_request(&nodes[0], bodies_request);
std::thread::sleep(Duration::from_millis(10000));
runtime.shutdown_now();
}
#[test]
#[ignore]
fn sync_two_nodes() {
let logger = get_logger();
let spec = ChainSpec::few_validators();
let validator_count = 8;
let node_count = 2;
let state_builder =
TestingBeaconStateBuilder::from_default_keypairs_file_if_exists(validator_count, &spec);
let (runtime, _master, mut nodes) =
test_setup(state_builder, node_count, &spec, logger.clone());
// let original_node_slot = nodes[0].hello_message().best_slot;
let mut node_a = nodes.remove(0);
let mut node_b = nodes.remove(0);
let blocks = 2;
// Node A builds out a longer, better chain.
for _ in 0..blocks {
// Node A should build a block.
node_a.harness.advance_chain_with_block();
// Node B should just increment it's slot without a block.
node_b.harness.increment_beacon_chain_slot();
}
node_a.harness.run_fork_choice();
// A connects to B.
node_a.connect_to(&node_b);
// B says hello to A.
node_b.tee_hello_request(&node_a);
// A says hello back.
node_a.tee_hello_response(&node_b);
// B requests block roots from A.
node_b.tee_block_root_request(&node_a);
// A provides block roots to A.
node_a.tee_block_root_response(&node_b);
// B requests block headers from A.
node_b.tee_block_header_request(&node_a);
// A provides block headers to B.
node_a.tee_block_header_response(&node_b);
// B requests block bodies from A.
node_b.tee_block_body_request(&node_a);
// A provides block bodies to B.
node_a.tee_block_body_response(&node_b);
std::thread::sleep(Duration::from_secs(20));
node_b.harness.run_fork_choice();
let node_a_chain = node_a
.harness
.beacon_chain
.chain_dump()
.expect("Can't dump node a chain");
let node_b_chain = node_b
.harness
.beacon_chain
.chain_dump()
.expect("Can't dump node b chain");
assert_eq!(
node_a_chain.len(),
node_b_chain.len(),
"Chains should be equal length"
);
assert_eq!(node_a_chain, node_b_chain, "Chains should be identical");
runtime.shutdown_now();
}

View File

@ -9,15 +9,15 @@ use protos::services_grpc::AttestationService;
use slog::{error, info, trace, warn};
use ssz::{ssz_encode, Decodable};
use std::sync::Arc;
use types::Attestation;
use types::{Attestation, EthSpec};
#[derive(Clone)]
pub struct AttestationServiceInstance {
pub chain: Arc<BeaconChain>,
pub struct AttestationServiceInstance<E: EthSpec> {
pub chain: Arc<BeaconChain<E>>,
pub log: slog::Logger,
}
impl AttestationService for AttestationServiceInstance {
impl<E: EthSpec> AttestationService for AttestationServiceInstance<E> {
/// Produce the `AttestationData` for signing by a validator.
fn produce_attestation_data(
&mut self,

View File

@ -13,16 +13,16 @@ use slog::Logger;
use slog::{error, info, trace, warn};
use ssz::{ssz_encode, Decodable};
use std::sync::Arc;
use types::{BeaconBlock, Signature, Slot};
use types::{BeaconBlock, EthSpec, Signature, Slot};
#[derive(Clone)]
pub struct BeaconBlockServiceInstance {
pub chain: Arc<BeaconChain>,
pub struct BeaconBlockServiceInstance<E: EthSpec> {
pub chain: Arc<BeaconChain<E>>,
pub network_chan: crossbeam_channel::Sender<NetworkMessage>,
pub log: Logger,
}
impl BeaconBlockService for BeaconBlockServiceInstance {
impl<E: EthSpec> BeaconBlockService for BeaconBlockServiceInstance<E> {
/// Produce a `BeaconBlock` for signing by a validator.
fn produce_beacon_block(
&mut self,

View File

@ -8,15 +8,15 @@ use beacon_chain::{
AttestationValidationError, BlockProductionError,
};
pub use beacon_chain::{BeaconChainError, BlockProcessingOutcome};
use types::{Attestation, AttestationData, BeaconBlock};
use types::{Attestation, AttestationData, BeaconBlock, EthSpec};
/// The RPC's API to the beacon chain.
pub trait BeaconChain: Send + Sync {
pub trait BeaconChain<E: EthSpec>: Send + Sync {
fn get_spec(&self) -> &ChainSpec;
fn get_state(&self) -> RwLockReadGuard<BeaconState>;
fn get_state(&self) -> RwLockReadGuard<BeaconState<E>>;
fn get_mut_state(&self) -> RwLockWriteGuard<BeaconState>;
fn get_mut_state(&self) -> RwLockWriteGuard<BeaconState<E>>;
fn process_block(&self, block: BeaconBlock)
-> Result<BlockProcessingOutcome, BeaconChainError>;
@ -24,7 +24,7 @@ pub trait BeaconChain: Send + Sync {
fn produce_block(
&self,
randao_reveal: Signature,
) -> Result<(BeaconBlock, BeaconState), BlockProductionError>;
) -> Result<(BeaconBlock, BeaconState<E>), BlockProductionError>;
fn produce_attestation_data(&self, shard: u64) -> Result<AttestationData, BeaconChainError>;
@ -34,21 +34,22 @@ pub trait BeaconChain: Send + Sync {
) -> Result<(), AttestationValidationError>;
}
impl<T, U, F> BeaconChain for RawBeaconChain<T, U, F>
impl<T, U, F, E> BeaconChain<E> for RawBeaconChain<T, U, F, E>
where
T: ClientDB + Sized,
U: SlotClock,
F: ForkChoice,
E: EthSpec,
{
fn get_spec(&self) -> &ChainSpec {
&self.spec
}
fn get_state(&self) -> RwLockReadGuard<BeaconState> {
fn get_state(&self) -> RwLockReadGuard<BeaconState<E>> {
self.state.read()
}
fn get_mut_state(&self) -> RwLockWriteGuard<BeaconState> {
fn get_mut_state(&self) -> RwLockWriteGuard<BeaconState<E>> {
self.state.write()
}
@ -62,7 +63,7 @@ where
fn produce_block(
&self,
randao_reveal: Signature,
) -> Result<(BeaconBlock, BeaconState), BlockProductionError> {
) -> Result<(BeaconBlock, BeaconState<E>), BlockProductionError> {
self.produce_block(randao_reveal)
}

View File

@ -5,14 +5,15 @@ use protos::services::{Empty, Fork, NodeInfoResponse};
use protos::services_grpc::BeaconNodeService;
use slog::{trace, warn};
use std::sync::Arc;
use types::EthSpec;
#[derive(Clone)]
pub struct BeaconNodeServiceInstance {
pub chain: Arc<BeaconChain>,
pub struct BeaconNodeServiceInstance<E: EthSpec> {
pub chain: Arc<BeaconChain<E>>,
pub log: slog::Logger,
}
impl BeaconNodeService for BeaconNodeServiceInstance {
impl<E: EthSpec> BeaconNodeService for BeaconNodeServiceInstance<E> {
/// Provides basic node information.
fn info(&mut self, ctx: RpcContext, _req: Empty, sink: UnarySink<NodeInfoResponse>) {
trace!(self.log, "Node info requested via RPC");

View File

@ -21,12 +21,13 @@ use protos::services_grpc::{
use slog::{info, o, warn};
use std::sync::Arc;
use tokio::runtime::TaskExecutor;
use types::EthSpec;
pub fn start_server(
pub fn start_server<E: EthSpec>(
config: &RPCConfig,
executor: &TaskExecutor,
network_chan: crossbeam_channel::Sender<NetworkMessage>,
beacon_chain: Arc<BeaconChain>,
beacon_chain: Arc<BeaconChain<E>>,
log: &slog::Logger,
) -> exit_future::Signal {
let log = log.new(o!("Service"=>"RPC"));

View File

@ -7,16 +7,16 @@ use protos::services_grpc::ValidatorService;
use slog::{trace, warn};
use ssz::decode;
use std::sync::Arc;
use types::{Epoch, RelativeEpoch};
use types::{Epoch, EthSpec, RelativeEpoch};
#[derive(Clone)]
pub struct ValidatorServiceInstance {
pub chain: Arc<BeaconChain>,
pub struct ValidatorServiceInstance<E: EthSpec> {
pub chain: Arc<BeaconChain<E>>,
pub log: slog::Logger,
}
//TODO: Refactor Errors
impl ValidatorService for ValidatorServiceInstance {
impl<E: EthSpec> ValidatorService for ValidatorServiceInstance<E> {
/// For a list of validator public keys, this function returns the slot at which each
/// validator must propose a block, attest to a shard, their shard committee and the shard they
/// need to attest to.

View File

@ -1,11 +0,0 @@
[package]
name = "attester"
version = "0.1.0"
authors = ["Paul Hauner <paul@paulhauner.com>"]
edition = "2018"
[dependencies]
slot_clock = { path = "../../eth2/utils/slot_clock" }
ssz = { path = "../../eth2/utils/ssz" }
tree_hash = { path = "../../eth2/utils/tree_hash" }
types = { path = "../../eth2/types" }

View File

@ -1,257 +0,0 @@
pub mod test_utils;
mod traits;
use slot_clock::SlotClock;
use std::sync::Arc;
use tree_hash::TreeHash;
use types::{AttestationData, AttestationDataAndCustodyBit, FreeAttestation, Signature, Slot};
pub use self::traits::{
BeaconNode, BeaconNodeError, DutiesReader, DutiesReaderError, PublishOutcome, Signer,
};
const PHASE_0_CUSTODY_BIT: bool = false;
const DOMAIN_ATTESTATION: u64 = 1;
#[derive(Debug, PartialEq)]
pub enum PollOutcome {
AttestationProduced(Slot),
AttestationNotRequired(Slot),
SlashableAttestationNotProduced(Slot),
BeaconNodeUnableToProduceAttestation(Slot),
ProducerDutiesUnknown(Slot),
SlotAlreadyProcessed(Slot),
SignerRejection(Slot),
ValidatorIsUnknown(Slot),
}
#[derive(Debug, PartialEq)]
pub enum Error {
SlotClockError,
SlotUnknowable,
EpochMapPoisoned,
SlotClockPoisoned,
EpochLengthIsZero,
BeaconNodeError(BeaconNodeError),
}
/// A polling state machine which performs block production duties, based upon some epoch duties
/// (`EpochDutiesMap`) and a concept of time (`SlotClock`).
///
/// Ensures that messages are not slashable.
///
/// Relies upon an external service to keep the `EpochDutiesMap` updated.
pub struct Attester<T: SlotClock, U: BeaconNode, V: DutiesReader, W: Signer> {
pub last_processed_slot: Option<Slot>,
duties: Arc<V>,
slot_clock: Arc<T>,
beacon_node: Arc<U>,
signer: Arc<W>,
}
impl<T: SlotClock, U: BeaconNode, V: DutiesReader, W: Signer> Attester<T, U, V, W> {
/// Returns a new instance where `last_processed_slot == 0`.
pub fn new(duties: Arc<V>, slot_clock: Arc<T>, beacon_node: Arc<U>, signer: Arc<W>) -> Self {
Self {
last_processed_slot: None,
duties,
slot_clock,
beacon_node,
signer,
}
}
}
impl<T: SlotClock, U: BeaconNode, V: DutiesReader, W: Signer> Attester<T, U, V, W> {
/// Poll the `BeaconNode` and produce an attestation if required.
pub fn poll(&mut self) -> Result<PollOutcome, Error> {
let slot = self
.slot_clock
.present_slot()
.map_err(|_| Error::SlotClockError)?
.ok_or(Error::SlotUnknowable)?;
if !self.is_processed_slot(slot) {
self.last_processed_slot = Some(slot);
let shard = match self.duties.attestation_shard(slot) {
Ok(Some(result)) => result,
Ok(None) => return Ok(PollOutcome::AttestationNotRequired(slot)),
Err(DutiesReaderError::UnknownEpoch) => {
return Ok(PollOutcome::ProducerDutiesUnknown(slot));
}
Err(DutiesReaderError::UnknownValidator) => {
return Ok(PollOutcome::ValidatorIsUnknown(slot));
}
Err(DutiesReaderError::EpochLengthIsZero) => return Err(Error::EpochLengthIsZero),
Err(DutiesReaderError::Poisoned) => return Err(Error::EpochMapPoisoned),
};
self.produce_attestation(slot, shard)
} else {
Ok(PollOutcome::SlotAlreadyProcessed(slot))
}
}
fn produce_attestation(&mut self, slot: Slot, shard: u64) -> Result<PollOutcome, Error> {
let attestation_data = match self.beacon_node.produce_attestation_data(slot, shard)? {
Some(attestation_data) => attestation_data,
None => return Ok(PollOutcome::BeaconNodeUnableToProduceAttestation(slot)),
};
if !self.safe_to_produce(&attestation_data) {
return Ok(PollOutcome::SlashableAttestationNotProduced(slot));
}
let signature = match self.sign_attestation_data(&attestation_data) {
Some(signature) => signature,
None => return Ok(PollOutcome::SignerRejection(slot)),
};
let validator_index = match self.duties.validator_index() {
Some(validator_index) => validator_index,
None => return Ok(PollOutcome::ValidatorIsUnknown(slot)),
};
let free_attestation = FreeAttestation {
data: attestation_data,
signature,
validator_index,
};
self.beacon_node.publish_attestation(free_attestation)?;
Ok(PollOutcome::AttestationProduced(slot))
}
fn is_processed_slot(&self, slot: Slot) -> bool {
match self.last_processed_slot {
Some(processed_slot) if slot <= processed_slot => true,
_ => false,
}
}
/// Consumes a block, returning that block signed by the validators private key.
///
/// Important: this function will not check to ensure the block is not slashable. This must be
/// done upstream.
fn sign_attestation_data(&mut self, attestation_data: &AttestationData) -> Option<Signature> {
self.store_produce(attestation_data);
let message = AttestationDataAndCustodyBit {
data: attestation_data.clone(),
custody_bit: PHASE_0_CUSTODY_BIT,
}
.tree_hash_root();
self.signer
.sign_attestation_message(&message[..], DOMAIN_ATTESTATION)
}
/// Returns `true` if signing some attestation_data is safe (non-slashable).
///
/// !!! UNSAFE !!!
///
/// Important: this function is presently stubbed-out. It provides ZERO SAFETY.
fn safe_to_produce(&self, _attestation_data: &AttestationData) -> bool {
// TODO: ensure the producer doesn't produce slashable blocks.
// https://github.com/sigp/lighthouse/issues/160
true
}
/// Record that a block was produced so that slashable votes may not be made in the future.
///
/// !!! UNSAFE !!!
///
/// Important: this function is presently stubbed-out. It provides ZERO SAFETY.
fn store_produce(&mut self, _block: &AttestationData) {
// TODO: record this block production to prevent future slashings.
// https://github.com/sigp/lighthouse/issues/160
}
}
impl From<BeaconNodeError> for Error {
fn from(e: BeaconNodeError) -> Error {
Error::BeaconNodeError(e)
}
}
#[cfg(test)]
mod tests {
use super::test_utils::{EpochMap, LocalSigner, SimulatedBeaconNode};
use super::*;
use slot_clock::TestingSlotClock;
use types::{
test_utils::{SeedableRng, TestRandom, XorShiftRng},
ChainSpec, Keypair,
};
// TODO: implement more thorough testing.
// https://github.com/sigp/lighthouse/issues/160
//
// These tests should serve as a good example for future tests.
#[test]
pub fn polling() {
let mut rng = XorShiftRng::from_seed([42; 16]);
let spec = Arc::new(ChainSpec::foundation());
let slot_clock = Arc::new(TestingSlotClock::new(0));
let beacon_node = Arc::new(SimulatedBeaconNode::default());
let signer = Arc::new(LocalSigner::new(Keypair::random()));
let mut duties = EpochMap::new(spec.slots_per_epoch);
let attest_slot = Slot::new(100);
let attest_epoch = attest_slot / spec.slots_per_epoch;
let attest_shard = 12;
duties.insert_attestation_shard(attest_slot, attest_shard);
duties.set_validator_index(Some(2));
let duties = Arc::new(duties);
let mut attester = Attester::new(
duties.clone(),
slot_clock.clone(),
beacon_node.clone(),
signer.clone(),
);
// Configure responses from the BeaconNode.
beacon_node.set_next_produce_result(Ok(Some(AttestationData::random_for_test(&mut rng))));
beacon_node.set_next_publish_result(Ok(PublishOutcome::ValidAttestation));
// One slot before attestation slot...
slot_clock.set_slot(attest_slot.as_u64() - 1);
assert_eq!(
attester.poll(),
Ok(PollOutcome::AttestationNotRequired(attest_slot - 1))
);
// On the attest slot...
slot_clock.set_slot(attest_slot.as_u64());
assert_eq!(
attester.poll(),
Ok(PollOutcome::AttestationProduced(attest_slot))
);
// Trying the same attest slot again...
slot_clock.set_slot(attest_slot.as_u64());
assert_eq!(
attester.poll(),
Ok(PollOutcome::SlotAlreadyProcessed(attest_slot))
);
// One slot after the attest slot...
slot_clock.set_slot(attest_slot.as_u64() + 1);
assert_eq!(
attester.poll(),
Ok(PollOutcome::AttestationNotRequired(attest_slot + 1))
);
// In an epoch without known duties...
let slot = (attest_epoch + 1) * spec.slots_per_epoch;
slot_clock.set_slot(slot.into());
assert_eq!(
attester.poll(),
Ok(PollOutcome::ProducerDutiesUnknown(slot))
);
}
}

View File

@ -1,44 +0,0 @@
use crate::{DutiesReader, DutiesReaderError};
use std::collections::HashMap;
use types::{Epoch, Slot};
pub struct EpochMap {
slots_per_epoch: u64,
validator_index: Option<u64>,
map: HashMap<Epoch, (Slot, u64)>,
}
impl EpochMap {
pub fn new(slots_per_epoch: u64) -> Self {
Self {
slots_per_epoch,
validator_index: None,
map: HashMap::new(),
}
}
pub fn insert_attestation_shard(&mut self, slot: Slot, shard: u64) {
let epoch = slot.epoch(self.slots_per_epoch);
self.map.insert(epoch, (slot, shard));
}
pub fn set_validator_index(&mut self, index: Option<u64>) {
self.validator_index = index;
}
}
impl DutiesReader for EpochMap {
fn attestation_shard(&self, slot: Slot) -> Result<Option<u64>, DutiesReaderError> {
let epoch = slot.epoch(self.slots_per_epoch);
match self.map.get(&epoch) {
Some((attest_slot, attest_shard)) if *attest_slot == slot => Ok(Some(*attest_shard)),
Some((attest_slot, _attest_shard)) if *attest_slot != slot => Ok(None),
_ => Err(DutiesReaderError::UnknownEpoch),
}
}
fn validator_index(&self) -> Option<u64> {
self.validator_index
}
}

View File

@ -1,31 +0,0 @@
use crate::traits::Signer;
use std::sync::RwLock;
use types::{Keypair, Signature};
/// A test-only struct used to simulate a Beacon Node.
pub struct LocalSigner {
keypair: Keypair,
should_sign: RwLock<bool>,
}
impl LocalSigner {
/// Produce a new LocalSigner with signing enabled by default.
pub fn new(keypair: Keypair) -> Self {
Self {
keypair,
should_sign: RwLock::new(true),
}
}
/// If set to `false`, the service will refuse to sign all messages. Otherwise, all messages
/// will be signed.
pub fn enable_signing(&self, enabled: bool) {
*self.should_sign.write().unwrap() = enabled;
}
}
impl Signer for LocalSigner {
fn sign_attestation_message(&self, message: &[u8], domain: u64) -> Option<Signature> {
Some(Signature::new(message, domain, &self.keypair.sk))
}
}

View File

@ -1,7 +0,0 @@
mod epoch_map;
mod local_signer;
mod simulated_beacon_node;
pub use self::epoch_map::EpochMap;
pub use self::local_signer::LocalSigner;
pub use self::simulated_beacon_node::SimulatedBeaconNode;

View File

@ -1,44 +0,0 @@
use crate::traits::{BeaconNode, BeaconNodeError, PublishOutcome};
use std::sync::RwLock;
use types::{AttestationData, FreeAttestation, Slot};
type ProduceResult = Result<Option<AttestationData>, BeaconNodeError>;
type PublishResult = Result<PublishOutcome, BeaconNodeError>;
/// A test-only struct used to simulate a Beacon Node.
#[derive(Default)]
pub struct SimulatedBeaconNode {
pub produce_input: RwLock<Option<(Slot, u64)>>,
pub produce_result: RwLock<Option<ProduceResult>>,
pub publish_input: RwLock<Option<FreeAttestation>>,
pub publish_result: RwLock<Option<PublishResult>>,
}
impl SimulatedBeaconNode {
pub fn set_next_produce_result(&self, result: ProduceResult) {
*self.produce_result.write().unwrap() = Some(result);
}
pub fn set_next_publish_result(&self, result: PublishResult) {
*self.publish_result.write().unwrap() = Some(result);
}
}
impl BeaconNode for SimulatedBeaconNode {
fn produce_attestation_data(&self, slot: Slot, shard: u64) -> ProduceResult {
*self.produce_input.write().unwrap() = Some((slot, shard));
match *self.produce_result.read().unwrap() {
Some(ref r) => r.clone(),
None => panic!("TestBeaconNode: produce_result == None"),
}
}
fn publish_attestation(&self, free_attestation: FreeAttestation) -> PublishResult {
*self.publish_input.write().unwrap() = Some(free_attestation.clone());
match *self.publish_result.read().unwrap() {
Some(ref r) => r.clone(),
None => panic!("TestBeaconNode: publish_result == None"),
}
}
}

View File

@ -1,49 +0,0 @@
use types::{AttestationData, FreeAttestation, Signature, Slot};
#[derive(Debug, PartialEq, Clone)]
pub enum BeaconNodeError {
RemoteFailure(String),
DecodeFailure,
}
#[derive(Debug, PartialEq, Clone)]
pub enum PublishOutcome {
ValidAttestation,
InvalidAttestation(String),
}
/// Defines the methods required to produce and publish blocks on a Beacon Node.
pub trait BeaconNode: Send + Sync {
fn produce_attestation_data(
&self,
slot: Slot,
shard: u64,
) -> Result<Option<AttestationData>, BeaconNodeError>;
fn publish_attestation(
&self,
free_attestation: FreeAttestation,
) -> Result<PublishOutcome, BeaconNodeError>;
}
#[derive(Debug, PartialEq, Clone)]
pub enum DutiesReaderError {
UnknownValidator,
UnknownEpoch,
EpochLengthIsZero,
Poisoned,
}
/// Informs a validator of their duties (e.g., block production).
pub trait DutiesReader: Send + Sync {
/// Returns `Some(shard)` if this slot is an attestation slot. Otherwise, returns `None.`
fn attestation_shard(&self, slot: Slot) -> Result<Option<u64>, DutiesReaderError>;
/// Returns `Some(shard)` if this slot is an attestation slot. Otherwise, returns `None.`
fn validator_index(&self) -> Option<u64>;
}
/// Signs message using an internally-maintained private key.
pub trait Signer {
fn sign_attestation_message(&self, message: &[u8], domain: u64) -> Option<Signature>;
}

View File

@ -1,12 +0,0 @@
[package]
name = "block_proposer"
version = "0.1.0"
authors = ["Paul Hauner <paul@paulhauner.com>"]
edition = "2018"
[dependencies]
int_to_bytes = { path = "../utils/int_to_bytes" }
slot_clock = { path = "../utils/slot_clock" }
ssz = { path = "../utils/ssz" }
tree_hash = { path = "../../eth2/utils/tree_hash" }
types = { path = "../types" }

View File

@ -1,303 +0,0 @@
pub mod test_utils;
mod traits;
use slot_clock::SlotClock;
use std::sync::Arc;
use tree_hash::{SignedRoot, TreeHash};
use types::{BeaconBlock, ChainSpec, Domain, Slot};
pub use self::traits::{
BeaconNode, BeaconNodeError, DutiesReader, DutiesReaderError, PublishOutcome, Signer,
};
#[derive(Debug, PartialEq)]
pub enum PollOutcome {
/// A new block was produced.
BlockProduced(Slot),
/// A block was not produced as it would have been slashable.
SlashableBlockNotProduced(Slot),
/// The validator duties did not require a block to be produced.
BlockProductionNotRequired(Slot),
/// The duties for the present epoch were not found.
ProducerDutiesUnknown(Slot),
/// The slot has already been processed, execution was skipped.
SlotAlreadyProcessed(Slot),
/// The Beacon Node was unable to produce a block at that slot.
BeaconNodeUnableToProduceBlock(Slot),
/// The signer failed to sign the message.
SignerRejection(Slot),
/// The public key for this validator is not an active validator.
ValidatorIsUnknown(Slot),
/// Unable to determine a `Fork` for signature domain generation.
UnableToGetFork(Slot),
}
#[derive(Debug, PartialEq)]
pub enum Error {
SlotClockError,
SlotUnknowable,
EpochMapPoisoned,
SlotClockPoisoned,
EpochLengthIsZero,
BeaconNodeError(BeaconNodeError),
}
/// A polling state machine which performs block production duties, based upon some epoch duties
/// (`EpochDutiesMap`) and a concept of time (`SlotClock`).
///
/// Ensures that messages are not slashable.
///
/// Relies upon an external service to keep the `EpochDutiesMap` updated.
pub struct BlockProducer<T: SlotClock, U: BeaconNode, V: DutiesReader, W: Signer> {
pub last_processed_slot: Option<Slot>,
spec: Arc<ChainSpec>,
epoch_map: Arc<V>,
slot_clock: Arc<T>,
beacon_node: Arc<U>,
signer: Arc<W>,
}
impl<T: SlotClock, U: BeaconNode, V: DutiesReader, W: Signer> BlockProducer<T, U, V, W> {
/// Returns a new instance where `last_processed_slot == 0`.
pub fn new(
spec: Arc<ChainSpec>,
epoch_map: Arc<V>,
slot_clock: Arc<T>,
beacon_node: Arc<U>,
signer: Arc<W>,
) -> Self {
Self {
last_processed_slot: None,
spec,
epoch_map,
slot_clock,
beacon_node,
signer,
}
}
}
impl<T: SlotClock, U: BeaconNode, V: DutiesReader, W: Signer> BlockProducer<T, U, V, W> {
/// "Poll" to see if the validator is required to take any action.
///
/// The slot clock will be read and any new actions undertaken.
pub fn poll(&mut self) -> Result<PollOutcome, Error> {
let slot = self
.slot_clock
.present_slot()
.map_err(|_| Error::SlotClockError)?
.ok_or(Error::SlotUnknowable)?;
// If this is a new slot.
if !self.is_processed_slot(slot) {
let is_block_production_slot = match self.epoch_map.is_block_production_slot(slot) {
Ok(result) => result,
Err(DutiesReaderError::UnknownEpoch) => {
return Ok(PollOutcome::ProducerDutiesUnknown(slot));
}
Err(DutiesReaderError::UnknownValidator) => {
return Ok(PollOutcome::ValidatorIsUnknown(slot));
}
Err(DutiesReaderError::EpochLengthIsZero) => return Err(Error::EpochLengthIsZero),
Err(DutiesReaderError::Poisoned) => return Err(Error::EpochMapPoisoned),
};
if is_block_production_slot {
self.last_processed_slot = Some(slot);
self.produce_block(slot)
} else {
Ok(PollOutcome::BlockProductionNotRequired(slot))
}
} else {
Ok(PollOutcome::SlotAlreadyProcessed(slot))
}
}
fn is_processed_slot(&self, slot: Slot) -> bool {
match self.last_processed_slot {
Some(processed_slot) if processed_slot >= slot => true,
_ => false,
}
}
/// Produce a block at some slot.
///
/// Assumes that a block is required at this slot (does not check the duties).
///
/// Ensures the message is not slashable.
///
/// !!! UNSAFE !!!
///
/// The slash-protection code is not yet implemented. There is zero protection against
/// slashing.
fn produce_block(&mut self, slot: Slot) -> Result<PollOutcome, Error> {
let fork = match self.epoch_map.fork() {
Ok(fork) => fork,
Err(_) => return Ok(PollOutcome::UnableToGetFork(slot)),
};
let randao_reveal = {
// TODO: add domain, etc to this message. Also ensure result matches `into_to_bytes32`.
let message = slot.epoch(self.spec.slots_per_epoch).tree_hash_root();
match self.signer.sign_randao_reveal(
&message,
self.spec
.get_domain(slot.epoch(self.spec.slots_per_epoch), Domain::Randao, &fork),
) {
None => return Ok(PollOutcome::SignerRejection(slot)),
Some(signature) => signature,
}
};
if let Some(block) = self
.beacon_node
.produce_beacon_block(slot, &randao_reveal)?
{
if self.safe_to_produce(&block) {
let domain = self.spec.get_domain(
slot.epoch(self.spec.slots_per_epoch),
Domain::BeaconBlock,
&fork,
);
if let Some(block) = self.sign_block(block, domain) {
self.beacon_node.publish_beacon_block(block)?;
Ok(PollOutcome::BlockProduced(slot))
} else {
Ok(PollOutcome::SignerRejection(slot))
}
} else {
Ok(PollOutcome::SlashableBlockNotProduced(slot))
}
} else {
Ok(PollOutcome::BeaconNodeUnableToProduceBlock(slot))
}
}
/// Consumes a block, returning that block signed by the validators private key.
///
/// Important: this function will not check to ensure the block is not slashable. This must be
/// done upstream.
fn sign_block(&mut self, mut block: BeaconBlock, domain: u64) -> Option<BeaconBlock> {
self.store_produce(&block);
match self
.signer
.sign_block_proposal(&block.signed_root()[..], domain)
{
None => None,
Some(signature) => {
block.signature = signature;
Some(block)
}
}
}
/// Returns `true` if signing a block is safe (non-slashable).
///
/// !!! UNSAFE !!!
///
/// Important: this function is presently stubbed-out. It provides ZERO SAFETY.
fn safe_to_produce(&self, _block: &BeaconBlock) -> bool {
// TODO: ensure the producer doesn't produce slashable blocks.
// https://github.com/sigp/lighthouse/issues/160
true
}
/// Record that a block was produced so that slashable votes may not be made in the future.
///
/// !!! UNSAFE !!!
///
/// Important: this function is presently stubbed-out. It provides ZERO SAFETY.
fn store_produce(&mut self, _block: &BeaconBlock) {
// TODO: record this block production to prevent future slashings.
// https://github.com/sigp/lighthouse/issues/160
}
}
impl From<BeaconNodeError> for Error {
fn from(e: BeaconNodeError) -> Error {
Error::BeaconNodeError(e)
}
}
#[cfg(test)]
mod tests {
use super::test_utils::{EpochMap, LocalSigner, SimulatedBeaconNode};
use super::*;
use slot_clock::TestingSlotClock;
use types::{
test_utils::{SeedableRng, TestRandom, XorShiftRng},
Keypair,
};
// TODO: implement more thorough testing.
// https://github.com/sigp/lighthouse/issues/160
//
// These tests should serve as a good example for future tests.
#[test]
pub fn polling() {
let mut rng = XorShiftRng::from_seed([42; 16]);
let spec = Arc::new(ChainSpec::foundation());
let slot_clock = Arc::new(TestingSlotClock::new(0));
let beacon_node = Arc::new(SimulatedBeaconNode::default());
let signer = Arc::new(LocalSigner::new(Keypair::random()));
let mut epoch_map = EpochMap::new(spec.slots_per_epoch);
let produce_slot = Slot::new(100);
let produce_epoch = produce_slot.epoch(spec.slots_per_epoch);
epoch_map.map.insert(produce_epoch, produce_slot);
let epoch_map = Arc::new(epoch_map);
let mut block_proposer = BlockProducer::new(
spec.clone(),
epoch_map.clone(),
slot_clock.clone(),
beacon_node.clone(),
signer.clone(),
);
// Configure responses from the BeaconNode.
beacon_node.set_next_produce_result(Ok(Some(BeaconBlock::random_for_test(&mut rng))));
beacon_node.set_next_publish_result(Ok(PublishOutcome::ValidBlock));
// One slot before production slot...
slot_clock.set_slot(produce_slot.as_u64() - 1);
assert_eq!(
block_proposer.poll(),
Ok(PollOutcome::BlockProductionNotRequired(produce_slot - 1))
);
// On the produce slot...
slot_clock.set_slot(produce_slot.as_u64());
assert_eq!(
block_proposer.poll(),
Ok(PollOutcome::BlockProduced(produce_slot.into()))
);
// Trying the same produce slot again...
slot_clock.set_slot(produce_slot.as_u64());
assert_eq!(
block_proposer.poll(),
Ok(PollOutcome::SlotAlreadyProcessed(produce_slot))
);
// One slot after the produce slot...
slot_clock.set_slot(produce_slot.as_u64() + 1);
assert_eq!(
block_proposer.poll(),
Ok(PollOutcome::BlockProductionNotRequired(produce_slot + 1))
);
// In an epoch without known duties...
let slot = (produce_epoch.as_u64() + 1) * spec.slots_per_epoch;
slot_clock.set_slot(slot);
assert_eq!(
block_proposer.poll(),
Ok(PollOutcome::ProducerDutiesUnknown(Slot::new(slot)))
);
}
}

View File

@ -1,36 +0,0 @@
use crate::{DutiesReader, DutiesReaderError};
use std::collections::HashMap;
use types::{Epoch, Fork, Slot};
pub struct EpochMap {
slots_per_epoch: u64,
pub map: HashMap<Epoch, Slot>,
}
impl EpochMap {
pub fn new(slots_per_epoch: u64) -> Self {
Self {
slots_per_epoch,
map: HashMap::new(),
}
}
}
impl DutiesReader for EpochMap {
fn is_block_production_slot(&self, slot: Slot) -> Result<bool, DutiesReaderError> {
let epoch = slot.epoch(self.slots_per_epoch);
match self.map.get(&epoch) {
Some(s) if *s == slot => Ok(true),
Some(s) if *s != slot => Ok(false),
_ => Err(DutiesReaderError::UnknownEpoch),
}
}
fn fork(&self) -> Result<Fork, DutiesReaderError> {
Ok(Fork {
previous_version: [0; 4],
current_version: [0; 4],
epoch: Epoch::new(0),
})
}
}

View File

@ -1,35 +0,0 @@
use crate::traits::Signer;
use std::sync::RwLock;
use types::{Keypair, Signature};
/// A test-only struct used to simulate a Beacon Node.
pub struct LocalSigner {
keypair: Keypair,
should_sign: RwLock<bool>,
}
impl LocalSigner {
/// Produce a new LocalSigner with signing enabled by default.
pub fn new(keypair: Keypair) -> Self {
Self {
keypair,
should_sign: RwLock::new(true),
}
}
/// If set to `false`, the service will refuse to sign all messages. Otherwise, all messages
/// will be signed.
pub fn enable_signing(&self, enabled: bool) {
*self.should_sign.write().unwrap() = enabled;
}
}
impl Signer for LocalSigner {
fn sign_block_proposal(&self, message: &[u8], domain: u64) -> Option<Signature> {
Some(Signature::new(message, domain, &self.keypair.sk))
}
fn sign_randao_reveal(&self, message: &[u8], domain: u64) -> Option<Signature> {
Some(Signature::new(message, domain, &self.keypair.sk))
}
}

View File

@ -1,7 +0,0 @@
mod epoch_map;
mod local_signer;
mod simulated_beacon_node;
pub use self::epoch_map::EpochMap;
pub use self::local_signer::LocalSigner;
pub use self::simulated_beacon_node::SimulatedBeaconNode;

View File

@ -1,48 +0,0 @@
use crate::traits::{BeaconNode, BeaconNodeError, PublishOutcome};
use std::sync::RwLock;
use types::{BeaconBlock, Signature, Slot};
type ProduceResult = Result<Option<BeaconBlock>, BeaconNodeError>;
type PublishResult = Result<PublishOutcome, BeaconNodeError>;
/// A test-only struct used to simulate a Beacon Node.
#[derive(Default)]
pub struct SimulatedBeaconNode {
pub produce_input: RwLock<Option<(Slot, Signature)>>,
pub produce_result: RwLock<Option<ProduceResult>>,
pub publish_input: RwLock<Option<BeaconBlock>>,
pub publish_result: RwLock<Option<PublishResult>>,
}
impl SimulatedBeaconNode {
/// Set the result to be returned when `produce_beacon_block` is called.
pub fn set_next_produce_result(&self, result: ProduceResult) {
*self.produce_result.write().unwrap() = Some(result);
}
/// Set the result to be returned when `publish_beacon_block` is called.
pub fn set_next_publish_result(&self, result: PublishResult) {
*self.publish_result.write().unwrap() = Some(result);
}
}
impl BeaconNode for SimulatedBeaconNode {
/// Returns the value specified by the `set_next_produce_result`.
fn produce_beacon_block(&self, slot: Slot, randao_reveal: &Signature) -> ProduceResult {
*self.produce_input.write().unwrap() = Some((slot, randao_reveal.clone()));
match *self.produce_result.read().unwrap() {
Some(ref r) => r.clone(),
None => panic!("SimulatedBeaconNode: produce_result == None"),
}
}
/// Returns the value specified by the `set_next_publish_result`.
fn publish_beacon_block(&self, block: BeaconBlock) -> PublishResult {
*self.publish_input.write().unwrap() = Some(block);
match *self.publish_result.read().unwrap() {
Some(ref r) => r.clone(),
None => panic!("SimulatedBeaconNode: publish_result == None"),
}
}
}

View File

@ -1,50 +0,0 @@
use types::{BeaconBlock, Fork, Signature, Slot};
#[derive(Debug, PartialEq, Clone)]
pub enum BeaconNodeError {
RemoteFailure(String),
DecodeFailure,
}
#[derive(Debug, PartialEq, Clone)]
pub enum PublishOutcome {
ValidBlock,
InvalidBlock(String),
}
/// Defines the methods required to produce and publish blocks on a Beacon Node.
pub trait BeaconNode: Send + Sync {
/// Request that the node produces a block.
///
/// Returns Ok(None) if the Beacon Node is unable to produce at the given slot.
fn produce_beacon_block(
&self,
slot: Slot,
randao_reveal: &Signature,
) -> Result<Option<BeaconBlock>, BeaconNodeError>;
/// Request that the node publishes a block.
///
/// Returns `true` if the publish was sucessful.
fn publish_beacon_block(&self, block: BeaconBlock) -> Result<PublishOutcome, BeaconNodeError>;
}
#[derive(Debug, PartialEq, Clone)]
pub enum DutiesReaderError {
UnknownValidator,
UnknownEpoch,
EpochLengthIsZero,
Poisoned,
}
/// Informs a validator of their duties (e.g., block production).
pub trait DutiesReader: Send + Sync {
fn is_block_production_slot(&self, slot: Slot) -> Result<bool, DutiesReaderError>;
fn fork(&self) -> Result<Fork, DutiesReaderError>;
}
/// Signs message using an internally-maintained private key.
pub trait Signer {
fn sign_block_proposal(&self, message: &[u8], domain: u64) -> Option<Signature>;
fn sign_randao_reveal(&self, message: &[u8], domain: u64) -> Option<Signature>;
}

View File

@ -9,8 +9,9 @@ use db::{
};
use log::{debug, trace};
use std::collections::HashMap;
use std::marker::PhantomData;
use std::sync::Arc;
use types::{BeaconBlock, ChainSpec, Hash256, Slot, SlotHeight};
use types::{BeaconBlock, BeaconState, ChainSpec, EthSpec, Hash256, Slot, SlotHeight};
//TODO: Pruning - Children
//TODO: Handle Syncing
@ -33,7 +34,7 @@ fn power_of_2_below(x: u64) -> u64 {
}
/// Stores the necessary data structures to run the optimised bitwise lmd ghost algorithm.
pub struct BitwiseLMDGhost<T: ClientDB + Sized> {
pub struct BitwiseLMDGhost<T: ClientDB + Sized, E> {
/// A cache of known ancestors at given heights for a specific block.
//TODO: Consider FnvHashMap
cache: HashMap<CacheKey<u64>, Hash256>,
@ -50,9 +51,10 @@ pub struct BitwiseLMDGhost<T: ClientDB + Sized> {
/// State storage access.
state_store: Arc<BeaconStateStore<T>>,
max_known_height: SlotHeight,
_phantom: PhantomData<E>,
}
impl<T> BitwiseLMDGhost<T>
impl<T, E: EthSpec> BitwiseLMDGhost<T, E>
where
T: ClientDB + Sized,
{
@ -68,6 +70,7 @@ where
max_known_height: SlotHeight::new(0),
block_store,
state_store,
_phantom: PhantomData,
}
}
@ -85,7 +88,7 @@ where
// build a hashmap of block_hash to weighted votes
let mut latest_votes: HashMap<Hash256, u64> = HashMap::new();
// gets the current weighted votes
let current_state = self
let current_state: BeaconState<E> = self
.state_store
.get_deserialized(&state_root)?
.ok_or_else(|| ForkChoiceError::MissingBeaconState(*state_root))?;
@ -240,7 +243,7 @@ where
}
}
impl<T: ClientDB + Sized> ForkChoice for BitwiseLMDGhost<T> {
impl<T: ClientDB + Sized, E: EthSpec> ForkChoice for BitwiseLMDGhost<T, E> {
fn add_block(
&mut self,
block: &BeaconBlock,

View File

@ -9,8 +9,9 @@ use db::{
use log::{debug, trace};
use std::cmp::Ordering;
use std::collections::HashMap;
use std::marker::PhantomData;
use std::sync::Arc;
use types::{BeaconBlock, ChainSpec, Hash256, Slot, SlotHeight};
use types::{BeaconBlock, BeaconState, ChainSpec, EthSpec, Hash256, Slot, SlotHeight};
//TODO: Pruning - Children
//TODO: Handle Syncing
@ -33,7 +34,7 @@ fn power_of_2_below(x: u64) -> u64 {
}
/// Stores the necessary data structures to run the optimised lmd ghost algorithm.
pub struct OptimizedLMDGhost<T: ClientDB + Sized> {
pub struct OptimizedLMDGhost<T: ClientDB + Sized, E> {
/// A cache of known ancestors at given heights for a specific block.
//TODO: Consider FnvHashMap
cache: HashMap<CacheKey<u64>, Hash256>,
@ -50,9 +51,10 @@ pub struct OptimizedLMDGhost<T: ClientDB + Sized> {
/// State storage access.
state_store: Arc<BeaconStateStore<T>>,
max_known_height: SlotHeight,
_phantom: PhantomData<E>,
}
impl<T> OptimizedLMDGhost<T>
impl<T, E: EthSpec> OptimizedLMDGhost<T, E>
where
T: ClientDB + Sized,
{
@ -68,6 +70,7 @@ where
max_known_height: SlotHeight::new(0),
block_store,
state_store,
_phantom: PhantomData,
}
}
@ -85,7 +88,7 @@ where
// build a hashmap of block_hash to weighted votes
let mut latest_votes: HashMap<Hash256, u64> = HashMap::new();
// gets the current weighted votes
let current_state = self
let current_state: BeaconState<E> = self
.state_store
.get_deserialized(&state_root)?
.ok_or_else(|| ForkChoiceError::MissingBeaconState(*state_root))?;
@ -211,7 +214,7 @@ where
}
}
impl<T: ClientDB + Sized> ForkChoice for OptimizedLMDGhost<T> {
impl<T: ClientDB + Sized, E: EthSpec> ForkChoice for OptimizedLMDGhost<T, E> {
fn add_block(
&mut self,
block: &BeaconBlock,

View File

@ -7,12 +7,13 @@ use db::{
};
use log::{debug, trace};
use std::collections::HashMap;
use std::marker::PhantomData;
use std::sync::Arc;
use types::{BeaconBlock, ChainSpec, Hash256, Slot};
use types::{BeaconBlock, BeaconState, ChainSpec, EthSpec, Hash256, Slot};
//TODO: Pruning and syncing
pub struct SlowLMDGhost<T: ClientDB + Sized> {
pub struct SlowLMDGhost<T: ClientDB + Sized, E> {
/// The latest attestation targets as a map of validator index to block hash.
//TODO: Could this be a fixed size vec
latest_attestation_targets: HashMap<u64, Hash256>,
@ -22,9 +23,10 @@ pub struct SlowLMDGhost<T: ClientDB + Sized> {
block_store: Arc<BeaconBlockStore<T>>,
/// State storage access.
state_store: Arc<BeaconStateStore<T>>,
_phantom: PhantomData<E>,
}
impl<T> SlowLMDGhost<T>
impl<T, E: EthSpec> SlowLMDGhost<T, E>
where
T: ClientDB + Sized,
{
@ -37,6 +39,7 @@ where
children: HashMap::new(),
block_store,
state_store,
_phantom: PhantomData,
}
}
@ -54,7 +57,7 @@ where
// build a hashmap of block_hash to weighted votes
let mut latest_votes: HashMap<Hash256, u64> = HashMap::new();
// gets the current weighted votes
let current_state = self
let current_state: BeaconState<E> = self
.state_store
.get_deserialized(&state_root)?
.ok_or_else(|| ForkChoiceError::MissingBeaconState(*state_root))?;
@ -105,7 +108,7 @@ where
}
}
impl<T: ClientDB + Sized> ForkChoice for SlowLMDGhost<T> {
impl<T: ClientDB + Sized, E: EthSpec> ForkChoice for SlowLMDGhost<T, E> {
/// Process when a block is added
fn add_block(
&mut self,

View File

@ -25,7 +25,9 @@ use std::collections::HashMap;
use std::sync::Arc;
use std::{fs::File, io::prelude::*, path::PathBuf};
use types::test_utils::TestingBeaconStateBuilder;
use types::{BeaconBlock, BeaconBlockBody, ChainSpec, Eth1Data, Hash256, Keypair, Slot};
use types::{
BeaconBlock, BeaconBlockBody, Eth1Data, EthSpec, FoundationEthSpec, Hash256, Keypair, Slot,
};
use yaml_rust::yaml;
// Note: We Assume the block Id's are hex-encoded.
@ -82,7 +84,7 @@ fn test_yaml_vectors(
let test_cases = load_test_cases_from_yaml(yaml_file_path);
// default vars
let spec = ChainSpec::foundation();
let spec = FoundationEthSpec::spec();
let zero_hash = Hash256::zero();
let eth1_data = Eth1Data {
deposit_root: zero_hash.clone(),
@ -227,23 +229,27 @@ fn setup_inital_state(
// the fork choice instantiation
let fork_choice: Box<ForkChoice> = match fork_choice_algo {
ForkChoiceAlgorithm::OptimizedLMDGhost => Box::new(OptimizedLMDGhost::new(
block_store.clone(),
state_store.clone(),
)),
ForkChoiceAlgorithm::BitwiseLMDGhost => Box::new(BitwiseLMDGhost::new(
block_store.clone(),
state_store.clone(),
)),
ForkChoiceAlgorithm::OptimizedLMDGhost => {
let f: OptimizedLMDGhost<MemoryDB, FoundationEthSpec> =
OptimizedLMDGhost::new(block_store.clone(), state_store.clone());
Box::new(f)
}
ForkChoiceAlgorithm::BitwiseLMDGhost => {
let f: BitwiseLMDGhost<MemoryDB, FoundationEthSpec> =
BitwiseLMDGhost::new(block_store.clone(), state_store.clone());
Box::new(f)
}
ForkChoiceAlgorithm::SlowLMDGhost => {
Box::new(SlowLMDGhost::new(block_store.clone(), state_store.clone()))
let f: SlowLMDGhost<MemoryDB, FoundationEthSpec> =
SlowLMDGhost::new(block_store.clone(), state_store.clone());
Box::new(f)
}
ForkChoiceAlgorithm::LongestChain => Box::new(LongestChain::new(block_store.clone())),
};
let spec = ChainSpec::foundation();
let spec = FoundationEthSpec::spec();
let mut state_builder =
let mut state_builder: TestingBeaconStateBuilder<FoundationEthSpec> =
TestingBeaconStateBuilder::from_single_keypair(num_validators, &Keypair::random(), &spec);
state_builder.build_caches(&spec).unwrap();
let (state, _keypairs) = state_builder.build();

View File

@ -13,10 +13,11 @@ use state_processing::per_block_processing::{
verify_transfer_time_independent_only,
};
use std::collections::{btree_map::Entry, hash_map, BTreeMap, HashMap, HashSet};
use std::marker::PhantomData;
use types::chain_spec::Domain;
use types::{
Attestation, AttestationData, AttesterSlashing, BeaconState, ChainSpec, Deposit, Epoch,
ProposerSlashing, Transfer, Validator, VoluntaryExit,
EthSpec, ProposerSlashing, Transfer, Validator, VoluntaryExit,
};
#[cfg(test)]
@ -25,7 +26,7 @@ const VERIFY_DEPOSIT_PROOFS: bool = false;
const VERIFY_DEPOSIT_PROOFS: bool = false; // TODO: enable this
#[derive(Default)]
pub struct OperationPool {
pub struct OperationPool<T: EthSpec + Default> {
/// Map from attestation ID (see below) to vectors of attestations.
attestations: RwLock<HashMap<AttestationId, Vec<Attestation>>>,
/// Map from deposit index to deposit data.
@ -42,6 +43,7 @@ pub struct OperationPool {
voluntary_exits: RwLock<HashMap<u64, VoluntaryExit>>,
/// Set of transfers.
transfers: RwLock<HashSet<Transfer>>,
_phantom: PhantomData<T>,
}
/// Serialized `AttestationData` augmented with a domain to encode the fork info.
@ -52,14 +54,22 @@ struct AttestationId(Vec<u8>);
const DOMAIN_BYTES_LEN: usize = 8;
impl AttestationId {
fn from_data(attestation: &AttestationData, state: &BeaconState, spec: &ChainSpec) -> Self {
fn from_data<T: EthSpec>(
attestation: &AttestationData,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Self {
let mut bytes = ssz_encode(attestation);
let epoch = attestation.slot.epoch(spec.slots_per_epoch);
bytes.extend_from_slice(&AttestationId::compute_domain_bytes(epoch, state, spec));
AttestationId(bytes)
}
fn compute_domain_bytes(epoch: Epoch, state: &BeaconState, spec: &ChainSpec) -> Vec<u8> {
fn compute_domain_bytes<T: EthSpec>(
epoch: Epoch,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Vec<u8> {
int_to_bytes8(spec.get_domain(epoch, Domain::Attestation, &state.fork))
}
@ -75,7 +85,11 @@ impl AttestationId {
/// receive for including it in a block.
// TODO: this could be optimised with a map from validator index to whether that validator has
// attested in each of the current and previous epochs. Currently quadractic in number of validators.
fn attestation_score(attestation: &Attestation, state: &BeaconState, spec: &ChainSpec) -> usize {
fn attestation_score<T: EthSpec>(
attestation: &Attestation,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> usize {
// Bitfield of validators whose attestations are new/fresh.
let mut new_validators = attestation.aggregation_bitfield.clone();
@ -113,7 +127,7 @@ pub enum DepositInsertStatus {
Replaced(Box<Deposit>),
}
impl OperationPool {
impl<T: EthSpec> OperationPool<T> {
/// Create a new operation pool.
pub fn new() -> Self {
Self::default()
@ -123,7 +137,7 @@ impl OperationPool {
pub fn insert_attestation(
&self,
attestation: Attestation,
state: &BeaconState,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), AttestationValidationError> {
// Check that attestation signatures are valid.
@ -161,15 +175,11 @@ impl OperationPool {
/// Total number of attestations in the pool, including attestations for the same data.
pub fn num_attestations(&self) -> usize {
self.attestations
.read()
.values()
.map(|atts| atts.len())
.sum()
self.attestations.read().values().map(Vec::len).sum()
}
/// Get a list of attestations for inclusion in a block.
pub fn get_attestations(&self, state: &BeaconState, spec: &ChainSpec) -> Vec<Attestation> {
pub fn get_attestations(&self, state: &BeaconState<T>, spec: &ChainSpec) -> Vec<Attestation> {
// Attestations for the current fork, which may be from the current or previous epoch.
let prev_epoch = state.previous_epoch(spec);
let current_epoch = state.current_epoch(spec);
@ -204,7 +214,7 @@ impl OperationPool {
// TODO: we could probably prune other attestations here:
// - ones that are completely covered by attestations included in the state
// - maybe ones invalidated by the confirmation of one fork over another
pub fn prune_attestations(&self, finalized_state: &BeaconState, spec: &ChainSpec) {
pub fn prune_attestations(&self, finalized_state: &BeaconState<T>, spec: &ChainSpec) {
self.attestations.write().retain(|_, attestations| {
// All the attestations in this bucket have the same data, so we only need to
// check the first one.
@ -220,7 +230,7 @@ impl OperationPool {
pub fn insert_deposit(
&self,
deposit: Deposit,
state: &BeaconState,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<DepositInsertStatus, DepositValidationError> {
use DepositInsertStatus::*;
@ -245,7 +255,7 @@ impl OperationPool {
/// Get an ordered list of deposits for inclusion in a block.
///
/// Take at most the maximum number of deposits, beginning from the current deposit index.
pub fn get_deposits(&self, state: &BeaconState, spec: &ChainSpec) -> Vec<Deposit> {
pub fn get_deposits(&self, state: &BeaconState<T>, spec: &ChainSpec) -> Vec<Deposit> {
let start_idx = state.deposit_index;
(start_idx..start_idx + spec.max_deposits)
.map(|idx| self.deposits.read().get(&idx).cloned())
@ -255,7 +265,7 @@ impl OperationPool {
}
/// Remove all deposits with index less than the deposit index of the latest finalised block.
pub fn prune_deposits(&self, state: &BeaconState) -> BTreeMap<u64, Deposit> {
pub fn prune_deposits(&self, state: &BeaconState<T>) -> BTreeMap<u64, Deposit> {
let deposits_keep = self.deposits.write().split_off(&state.deposit_index);
std::mem::replace(&mut self.deposits.write(), deposits_keep)
}
@ -269,7 +279,7 @@ impl OperationPool {
pub fn insert_proposer_slashing(
&self,
slashing: ProposerSlashing,
state: &BeaconState,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), ProposerSlashingValidationError> {
// TODO: should maybe insert anyway if the proposer is unknown in the validator index,
@ -286,7 +296,7 @@ impl OperationPool {
/// Depends on the fork field of the state, but not on the state's epoch.
fn attester_slashing_id(
slashing: &AttesterSlashing,
state: &BeaconState,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> (AttestationId, AttestationId) {
(
@ -299,7 +309,7 @@ impl OperationPool {
pub fn insert_attester_slashing(
&self,
slashing: AttesterSlashing,
state: &BeaconState,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), AttesterSlashingValidationError> {
verify_attester_slashing(state, &slashing, true, spec)?;
@ -315,7 +325,7 @@ impl OperationPool {
/// earlier in the block.
pub fn get_slashings(
&self,
state: &BeaconState,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> (Vec<ProposerSlashing>, Vec<AttesterSlashing>) {
let proposer_slashings = filter_limit_operations(
@ -370,7 +380,7 @@ impl OperationPool {
}
/// Prune proposer slashings for all slashed or withdrawn validators.
pub fn prune_proposer_slashings(&self, finalized_state: &BeaconState, spec: &ChainSpec) {
pub fn prune_proposer_slashings(&self, finalized_state: &BeaconState<T>, spec: &ChainSpec) {
prune_validator_hash_map(
&mut self.proposer_slashings.write(),
|validator| {
@ -383,7 +393,7 @@ impl OperationPool {
/// Prune attester slashings for all slashed or withdrawn validators, or attestations on another
/// fork.
pub fn prune_attester_slashings(&self, finalized_state: &BeaconState, spec: &ChainSpec) {
pub fn prune_attester_slashings(&self, finalized_state: &BeaconState<T>, spec: &ChainSpec) {
self.attester_slashings.write().retain(|id, slashing| {
let fork_ok = &Self::attester_slashing_id(slashing, finalized_state, spec) == id;
let curr_epoch = finalized_state.current_epoch(spec);
@ -402,7 +412,7 @@ impl OperationPool {
pub fn insert_voluntary_exit(
&self,
exit: VoluntaryExit,
state: &BeaconState,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), ExitValidationError> {
verify_exit_time_independent_only(state, &exit, spec)?;
@ -413,7 +423,11 @@ impl OperationPool {
}
/// Get a list of voluntary exits for inclusion in a block.
pub fn get_voluntary_exits(&self, state: &BeaconState, spec: &ChainSpec) -> Vec<VoluntaryExit> {
pub fn get_voluntary_exits(
&self,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Vec<VoluntaryExit> {
filter_limit_operations(
self.voluntary_exits.read().values(),
|exit| verify_exit(state, exit, spec).is_ok(),
@ -422,7 +436,7 @@ impl OperationPool {
}
/// Prune if validator has already exited at the last finalized state.
pub fn prune_voluntary_exits(&self, finalized_state: &BeaconState, spec: &ChainSpec) {
pub fn prune_voluntary_exits(&self, finalized_state: &BeaconState<T>, spec: &ChainSpec) {
prune_validator_hash_map(
&mut self.voluntary_exits.write(),
|validator| validator.is_exited_at(finalized_state.current_epoch(spec)),
@ -434,7 +448,7 @@ impl OperationPool {
pub fn insert_transfer(
&self,
transfer: Transfer,
state: &BeaconState,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), TransferValidationError> {
// The signature of the transfer isn't hashed, but because we check
@ -448,7 +462,7 @@ impl OperationPool {
/// Get a list of transfers for inclusion in a block.
// TODO: improve the economic optimality of this function by accounting for
// dependencies between transfers in the same block e.g. A pays B, B pays C
pub fn get_transfers(&self, state: &BeaconState, spec: &ChainSpec) -> Vec<Transfer> {
pub fn get_transfers(&self, state: &BeaconState<T>, spec: &ChainSpec) -> Vec<Transfer> {
self.transfers
.read()
.iter()
@ -460,14 +474,14 @@ impl OperationPool {
}
/// Prune the set of transfers by removing all those whose slot has already passed.
pub fn prune_transfers(&self, finalized_state: &BeaconState) {
pub fn prune_transfers(&self, finalized_state: &BeaconState<T>) {
self.transfers
.write()
.retain(|transfer| transfer.slot > finalized_state.slot)
}
/// Prune all types of transactions given the latest finalized state.
pub fn prune_all(&self, finalized_state: &BeaconState, spec: &ChainSpec) {
pub fn prune_all(&self, finalized_state: &BeaconState<T>, spec: &ChainSpec) {
self.prune_attestations(finalized_state, spec);
self.prune_deposits(finalized_state);
self.prune_proposer_slashings(finalized_state, spec);
@ -487,7 +501,10 @@ impl OperationPool {
///
/// - Their `AttestationData` is equal.
/// - `attestation` does not contain any signatures that `PendingAttestation` does not have.
fn superior_attestation_exists_in_state(state: &BeaconState, attestation: &Attestation) -> bool {
fn superior_attestation_exists_in_state<T: EthSpec>(
state: &BeaconState<T>,
attestation: &Attestation,
) -> bool {
state
.current_epoch_attestations
.iter()
@ -522,10 +539,10 @@ where
/// The keys in the map should be validator indices, which will be looked up
/// in the state's validator registry and then passed to `prune_if`.
/// Entries for unknown validators will be kept.
fn prune_validator_hash_map<T, F>(
fn prune_validator_hash_map<T, F, E: EthSpec>(
map: &mut HashMap<u64, T>,
prune_if: F,
finalized_state: &BeaconState,
finalized_state: &BeaconState<E>,
) where
F: Fn(&Validator) -> bool,
{
@ -649,7 +666,11 @@ mod tests {
}
// Create a random deposit (with a valid proof of posession)
fn make_deposit(rng: &mut XorShiftRng, state: &BeaconState, spec: &ChainSpec) -> Deposit {
fn make_deposit<T: EthSpec>(
rng: &mut XorShiftRng,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Deposit {
let keypair = Keypair::random();
let mut deposit = Deposit::random_for_test(rng);
let mut deposit_input = DepositInput {
@ -668,9 +689,9 @@ mod tests {
}
// Create `count` dummy deposits with sequential deposit IDs beginning from `start`.
fn dummy_deposits(
fn dummy_deposits<T: EthSpec>(
rng: &mut XorShiftRng,
state: &BeaconState,
state: &BeaconState<T>,
spec: &ChainSpec,
start: u64,
count: u64,
@ -685,301 +706,315 @@ mod tests {
.collect()
}
fn test_state(rng: &mut XorShiftRng) -> (ChainSpec, BeaconState) {
let spec = ChainSpec::foundation();
fn test_state(rng: &mut XorShiftRng) -> (ChainSpec, BeaconState<FoundationEthSpec>) {
let spec = FoundationEthSpec::spec();
let mut state = BeaconState::random_for_test(rng);
state.fork = Fork::genesis(&spec);
(spec, state)
}
/// Create a signed attestation for use in tests.
/// Signed by all validators in `committee[signing_range]` and `committee[extra_signer]`.
#[cfg(not(debug_assertions))]
fn signed_attestation<R: std::slice::SliceIndex<[usize], Output = [usize]>>(
committee: &CrosslinkCommittee,
keypairs: &[Keypair],
signing_range: R,
slot: Slot,
state: &BeaconState,
spec: &ChainSpec,
extra_signer: Option<usize>,
) -> Attestation {
let mut builder = TestingAttestationBuilder::new(
state,
&committee.committee,
slot,
committee.shard,
spec,
);
let signers = &committee.committee[signing_range];
let committee_keys = signers.iter().map(|&i| &keypairs[i].sk).collect::<Vec<_>>();
builder.sign(signers, &committee_keys, &state.fork, spec);
extra_signer.map(|c_idx| {
let validator_index = committee.committee[c_idx];
builder.sign(
&[validator_index],
&[&keypairs[validator_index].sk],
&state.fork,
mod release_tests {
use super::*;
/// Create a signed attestation for use in tests.
/// Signed by all validators in `committee[signing_range]` and `committee[extra_signer]`.
fn signed_attestation<R: std::slice::SliceIndex<[usize], Output = [usize]>, E: EthSpec>(
committee: &CrosslinkCommittee,
keypairs: &[Keypair],
signing_range: R,
slot: Slot,
state: &BeaconState<E>,
spec: &ChainSpec,
extra_signer: Option<usize>,
) -> Attestation {
let mut builder = TestingAttestationBuilder::new(
state,
&committee.committee,
slot,
committee.shard,
spec,
)
});
builder.build()
}
/// Test state for attestation-related tests.
#[cfg(not(debug_assertions))]
fn attestation_test_state(
spec: &ChainSpec,
num_committees: usize,
) -> (BeaconState, Vec<Keypair>) {
let num_validators =
num_committees * (spec.slots_per_epoch * spec.target_committee_size) as usize;
let mut state_builder =
TestingBeaconStateBuilder::from_default_keypairs_file_if_exists(num_validators, spec);
let slot_offset = 1000 * spec.slots_per_epoch + spec.slots_per_epoch / 2;
let slot = spec.genesis_slot + slot_offset;
state_builder.teleport_to_slot(slot, spec);
state_builder.build_caches(spec).unwrap();
state_builder.build()
}
/// Set the latest crosslink in the state to match the attestation.
#[cfg(not(debug_assertions))]
fn fake_latest_crosslink(att: &Attestation, state: &mut BeaconState, spec: &ChainSpec) {
state.latest_crosslinks[att.data.shard as usize] = Crosslink {
crosslink_data_root: att.data.crosslink_data_root,
epoch: att.data.slot.epoch(spec.slots_per_epoch),
};
}
#[test]
#[cfg(not(debug_assertions))]
fn test_attestation_score() {
let spec = &ChainSpec::foundation();
let (ref mut state, ref keypairs) = attestation_test_state(spec, 1);
let slot = state.slot - 1;
let committees = state
.get_crosslink_committees_at_slot(slot, spec)
.unwrap()
.clone();
for committee in committees {
let att1 = signed_attestation(&committee, keypairs, ..2, slot, state, spec, None);
let att2 = signed_attestation(&committee, keypairs, .., slot, state, spec, None);
assert_eq!(
att1.aggregation_bitfield.num_set_bits(),
attestation_score(&att1, state, spec)
);
state
.current_epoch_attestations
.push(PendingAttestation::from_attestation(&att1, state.slot));
assert_eq!(
committee.committee.len() - 2,
attestation_score(&att2, state, spec)
);
let signers = &committee.committee[signing_range];
let committee_keys = signers.iter().map(|&i| &keypairs[i].sk).collect::<Vec<_>>();
builder.sign(signers, &committee_keys, &state.fork, spec);
extra_signer.map(|c_idx| {
let validator_index = committee.committee[c_idx];
builder.sign(
&[validator_index],
&[&keypairs[validator_index].sk],
&state.fork,
spec,
)
});
builder.build()
}
}
/// End-to-end test of basic attestation handling.
#[test]
#[cfg(not(debug_assertions))]
fn attestation_aggregation_insert_get_prune() {
let spec = &ChainSpec::foundation();
let (ref mut state, ref keypairs) = attestation_test_state(spec, 1);
let op_pool = OperationPool::new();
/// Test state for attestation-related tests.
fn attestation_test_state<E: EthSpec>(
num_committees: usize,
) -> (BeaconState<E>, Vec<Keypair>, ChainSpec) {
let spec = E::spec();
let slot = state.slot - 1;
let committees = state
.get_crosslink_committees_at_slot(slot, spec)
.unwrap()
.clone();
let num_validators =
num_committees * (spec.slots_per_epoch * spec.target_committee_size) as usize;
let mut state_builder = TestingBeaconStateBuilder::from_default_keypairs_file_if_exists(
num_validators,
&spec,
);
let slot_offset = 1000 * spec.slots_per_epoch + spec.slots_per_epoch / 2;
let slot = spec.genesis_slot + slot_offset;
state_builder.teleport_to_slot(slot, &spec);
state_builder.build_caches(&spec).unwrap();
let (state, keypairs) = state_builder.build();
assert_eq!(
committees.len(),
1,
"we expect just one committee with this many validators"
);
(state, keypairs, FoundationEthSpec::spec())
}
/// Set the latest crosslink in the state to match the attestation.
fn fake_latest_crosslink<E: EthSpec>(
att: &Attestation,
state: &mut BeaconState<E>,
spec: &ChainSpec,
) {
state.latest_crosslinks[att.data.shard as usize] = Crosslink {
crosslink_data_root: att.data.crosslink_data_root,
epoch: att.data.slot.epoch(spec.slots_per_epoch),
};
}
#[test]
fn test_attestation_score() {
let (ref mut state, ref keypairs, ref spec) =
attestation_test_state::<FoundationEthSpec>(1);
let slot = state.slot - 1;
let committees = state
.get_crosslink_committees_at_slot(slot, spec)
.unwrap()
.clone();
for committee in committees {
let att1 = signed_attestation(&committee, keypairs, ..2, slot, state, spec, None);
let att2 = signed_attestation(&committee, keypairs, .., slot, state, spec, None);
assert_eq!(
att1.aggregation_bitfield.num_set_bits(),
attestation_score(&att1, state, spec)
);
state
.current_epoch_attestations
.push(PendingAttestation::from_attestation(&att1, state.slot));
assert_eq!(
committee.committee.len() - 2,
attestation_score(&att2, state, spec)
);
}
}
/// End-to-end test of basic attestation handling.
#[test]
fn attestation_aggregation_insert_get_prune() {
let (ref mut state, ref keypairs, ref spec) =
attestation_test_state::<FoundationEthSpec>(1);
let op_pool = OperationPool::new();
let slot = state.slot - 1;
let committees = state
.get_crosslink_committees_at_slot(slot, spec)
.unwrap()
.clone();
assert_eq!(
committees.len(),
1,
"we expect just one committee with this many validators"
);
for committee in &committees {
let step_size = 2;
for i in (0..committee.committee.len()).step_by(step_size) {
let att = signed_attestation(
committee,
keypairs,
i..i + step_size,
slot,
state,
spec,
None,
);
fake_latest_crosslink(&att, state, spec);
op_pool.insert_attestation(att, state, spec).unwrap();
}
}
assert_eq!(op_pool.attestations.read().len(), committees.len());
assert_eq!(op_pool.num_attestations(), committees.len());
// Before the min attestation inclusion delay, get_attestations shouldn't return anything.
assert_eq!(op_pool.get_attestations(state, spec).len(), 0);
// Then once the delay has elapsed, we should get a single aggregated attestation.
state.slot += spec.min_attestation_inclusion_delay;
let block_attestations = op_pool.get_attestations(state, spec);
assert_eq!(block_attestations.len(), committees.len());
let agg_att = &block_attestations[0];
assert_eq!(
agg_att.aggregation_bitfield.num_set_bits(),
spec.target_committee_size as usize
);
// Prune attestations shouldn't do anything at this point.
op_pool.prune_attestations(state, spec);
assert_eq!(op_pool.num_attestations(), committees.len());
// But once we advance to an epoch after the attestation, it should prune it out of
// existence.
state.slot = slot + spec.slots_per_epoch;
op_pool.prune_attestations(state, spec);
assert_eq!(op_pool.num_attestations(), 0);
}
/// Adding an attestation already in the pool should not increase the size of the pool.
#[test]
fn attestation_duplicate() {
let (ref mut state, ref keypairs, ref spec) =
attestation_test_state::<FoundationEthSpec>(1);
let op_pool = OperationPool::new();
let slot = state.slot - 1;
let committees = state
.get_crosslink_committees_at_slot(slot, spec)
.unwrap()
.clone();
for committee in &committees {
let att = signed_attestation(committee, keypairs, .., slot, state, spec, None);
fake_latest_crosslink(&att, state, spec);
op_pool
.insert_attestation(att.clone(), state, spec)
.unwrap();
op_pool.insert_attestation(att, state, spec).unwrap();
}
assert_eq!(op_pool.num_attestations(), committees.len());
}
/// Adding lots of attestations that only intersect pairwise should lead to two aggregate
/// attestations.
#[test]
fn attestation_pairwise_overlapping() {
let (ref mut state, ref keypairs, ref spec) =
attestation_test_state::<FoundationEthSpec>(1);
let op_pool = OperationPool::new();
let slot = state.slot - 1;
let committees = state
.get_crosslink_committees_at_slot(slot, spec)
.unwrap()
.clone();
for committee in &committees {
let step_size = 2;
for i in (0..committee.committee.len()).step_by(step_size) {
let att = signed_attestation(
committee,
keypairs,
i..i + step_size,
slot,
state,
spec,
None,
);
fake_latest_crosslink(&att, state, spec);
op_pool.insert_attestation(att, state, spec).unwrap();
for committee in &committees {
// Create attestations that overlap on `step_size` validators, like:
// {0,1,2,3}, {2,3,4,5}, {4,5,6,7}, ...
for i in (0..committee.committee.len() - step_size).step_by(step_size) {
let att = signed_attestation(
committee,
keypairs,
i..i + 2 * step_size,
slot,
state,
spec,
None,
);
fake_latest_crosslink(&att, state, spec);
op_pool.insert_attestation(att, state, spec).unwrap();
}
}
// The attestations should get aggregated into two attestations that comprise all
// validators.
assert_eq!(op_pool.attestations.read().len(), committees.len());
assert_eq!(op_pool.num_attestations(), 2 * committees.len());
}
assert_eq!(op_pool.attestations.read().len(), committees.len());
assert_eq!(op_pool.num_attestations(), committees.len());
/// Create a bunch of attestations signed by a small number of validators, and another
/// bunch signed by a larger number, such that there are at least `max_attestations`
/// signed by the larger number. Then, check that `get_attestations` only returns the
/// high-quality attestations. To ensure that no aggregation occurs, ALL attestations
/// are also signed by the 0th member of the committee.
#[test]
fn attestation_get_max() {
let small_step_size = 2;
let big_step_size = 4;
// Before the min attestation inclusion delay, get_attestations shouldn't return anything.
assert_eq!(op_pool.get_attestations(state, spec).len(), 0);
let (ref mut state, ref keypairs, ref spec) =
attestation_test_state::<FoundationEthSpec>(big_step_size);
// Then once the delay has elapsed, we should get a single aggregated attestation.
state.slot += spec.min_attestation_inclusion_delay;
let op_pool = OperationPool::new();
let block_attestations = op_pool.get_attestations(state, spec);
assert_eq!(block_attestations.len(), committees.len());
let slot = state.slot - 1;
let committees = state
.get_crosslink_committees_at_slot(slot, spec)
.unwrap()
.clone();
let agg_att = &block_attestations[0];
assert_eq!(
agg_att.aggregation_bitfield.num_set_bits(),
spec.target_committee_size as usize
);
let max_attestations = spec.max_attestations as usize;
let target_committee_size = spec.target_committee_size as usize;
// Prune attestations shouldn't do anything at this point.
op_pool.prune_attestations(state, spec);
assert_eq!(op_pool.num_attestations(), committees.len());
let mut insert_attestations = |committee, step_size| {
for i in (0..target_committee_size).step_by(step_size) {
let att = signed_attestation(
committee,
keypairs,
i..i + step_size,
slot,
state,
spec,
if i == 0 { None } else { Some(0) },
);
fake_latest_crosslink(&att, state, spec);
op_pool.insert_attestation(att, state, spec).unwrap();
}
};
// But once we advance to an epoch after the attestation, it should prune it out of
// existence.
state.slot = slot + spec.slots_per_epoch;
op_pool.prune_attestations(state, spec);
assert_eq!(op_pool.num_attestations(), 0);
}
/// Adding an attestation already in the pool should not increase the size of the pool.
#[test]
#[cfg(not(debug_assertions))]
fn attestation_duplicate() {
let spec = &ChainSpec::foundation();
let (ref mut state, ref keypairs) = attestation_test_state(spec, 1);
let op_pool = OperationPool::new();
let slot = state.slot - 1;
let committees = state
.get_crosslink_committees_at_slot(slot, spec)
.unwrap()
.clone();
for committee in &committees {
let att = signed_attestation(committee, keypairs, .., slot, state, spec, None);
fake_latest_crosslink(&att, state, spec);
op_pool
.insert_attestation(att.clone(), state, spec)
.unwrap();
op_pool.insert_attestation(att, state, spec).unwrap();
}
assert_eq!(op_pool.num_attestations(), committees.len());
}
/// Adding lots of attestations that only intersect pairwise should lead to two aggregate
/// attestations.
#[test]
#[cfg(not(debug_assertions))]
fn attestation_pairwise_overlapping() {
let spec = &ChainSpec::foundation();
let (ref mut state, ref keypairs) = attestation_test_state(spec, 1);
let op_pool = OperationPool::new();
let slot = state.slot - 1;
let committees = state
.get_crosslink_committees_at_slot(slot, spec)
.unwrap()
.clone();
let step_size = 2;
for committee in &committees {
// Create attestations that overlap on `step_size` validators, like:
// {0,1,2,3}, {2,3,4,5}, {4,5,6,7}, ...
for i in (0..committee.committee.len() - step_size).step_by(step_size) {
let att = signed_attestation(
committee,
keypairs,
i..i + 2 * step_size,
slot,
state,
spec,
None,
);
fake_latest_crosslink(&att, state, spec);
op_pool.insert_attestation(att, state, spec).unwrap();
for committee in &committees {
assert_eq!(committee.committee.len(), target_committee_size);
// Attestations signed by only 2-3 validators
insert_attestations(committee, small_step_size);
// Attestations signed by 4+ validators
insert_attestations(committee, big_step_size);
}
}
// The attestations should get aggregated into two attestations that comprise all
// validators.
assert_eq!(op_pool.attestations.read().len(), committees.len());
assert_eq!(op_pool.num_attestations(), 2 * committees.len());
}
let num_small = target_committee_size / small_step_size;
let num_big = target_committee_size / big_step_size;
/// Create a bunch of attestations signed by a small number of validators, and another
/// bunch signed by a larger number, such that there are at least `max_attestations`
/// signed by the larger number. Then, check that `get_attestations` only returns the
/// high-quality attestations. To ensure that no aggregation occurs, ALL attestations
/// are also signed by the 0th member of the committee.
#[test]
#[cfg(not(debug_assertions))]
fn attestation_get_max() {
let spec = &ChainSpec::foundation();
let small_step_size = 2;
let big_step_size = 4;
let (ref mut state, ref keypairs) = attestation_test_state(spec, big_step_size);
let op_pool = OperationPool::new();
assert_eq!(op_pool.attestations.read().len(), committees.len());
assert_eq!(
op_pool.num_attestations(),
(num_small + num_big) * committees.len()
);
assert!(op_pool.num_attestations() > max_attestations);
let slot = state.slot - 1;
let committees = state
.get_crosslink_committees_at_slot(slot, spec)
.unwrap()
.clone();
state.slot += spec.min_attestation_inclusion_delay;
let best_attestations = op_pool.get_attestations(state, spec);
assert_eq!(best_attestations.len(), max_attestations);
let max_attestations = spec.max_attestations as usize;
let target_committee_size = spec.target_committee_size as usize;
let mut insert_attestations = |committee, step_size| {
for i in (0..target_committee_size).step_by(step_size) {
let att = signed_attestation(
committee,
keypairs,
i..i + step_size,
slot,
state,
spec,
if i == 0 { None } else { Some(0) },
);
fake_latest_crosslink(&att, state, spec);
op_pool.insert_attestation(att, state, spec).unwrap();
// All the best attestations should be signed by at least `big_step_size` (4) validators.
for att in &best_attestations {
assert!(att.aggregation_bitfield.num_set_bits() >= big_step_size);
}
};
for committee in &committees {
assert_eq!(committee.committee.len(), target_committee_size);
// Attestations signed by only 2-3 validators
insert_attestations(committee, small_step_size);
// Attestations signed by 4+ validators
insert_attestations(committee, big_step_size);
}
let num_small = target_committee_size / small_step_size;
let num_big = target_committee_size / big_step_size;
assert_eq!(op_pool.attestations.read().len(), committees.len());
assert_eq!(
op_pool.num_attestations(),
(num_small + num_big) * committees.len()
);
assert!(op_pool.num_attestations() > max_attestations);
state.slot += spec.min_attestation_inclusion_delay;
let best_attestations = op_pool.get_attestations(state, spec);
assert_eq!(best_attestations.len(), max_attestations);
// All the best attestations should be signed by at least `big_step_size` (4) validators.
for att in &best_attestations {
assert!(att.aggregation_bitfield.num_set_bits() >= big_step_size);
}
}

View File

@ -14,7 +14,6 @@ env_logger = "0.6.0"
serde = "1.0"
serde_derive = "1.0"
serde_yaml = "0.8"
yaml-utils = { path = "yaml_utils" }
[dependencies]
bls = { path = "../utils/bls" }
@ -30,6 +29,3 @@ tree_hash = { path = "../utils/tree_hash" }
tree_hash_derive = { path = "../utils/tree_hash_derive" }
types = { path = "../types" }
rayon = "1.0"
[features]
fake_crypto = ["bls/fake_crypto"]

View File

@ -1 +0,0 @@
../utils/bls/build.rs

View File

@ -3,8 +3,8 @@ use types::{BeaconStateError as Error, *};
/// Exit the validator of the given `index`.
///
/// Spec v0.5.1
pub fn exit_validator(
state: &mut BeaconState,
pub fn exit_validator<T: EthSpec>(
state: &mut BeaconState<T>,
validator_index: usize,
spec: &ChainSpec,
) -> Result<(), Error> {

View File

@ -4,8 +4,8 @@ use types::{BeaconStateError as Error, *};
/// Slash the validator with index ``index``.
///
/// Spec v0.5.1
pub fn slash_validator(
state: &mut BeaconState,
pub fn slash_validator<T: EthSpec>(
state: &mut BeaconState<T>,
validator_index: usize,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -36,8 +36,7 @@ pub fn slash_validator(
state.set_slashed_balance(
current_epoch,
state.get_slashed_balance(current_epoch, spec)? + effective_balance,
spec,
state.get_slashed_balance(current_epoch)? + effective_balance,
)?;
let whistleblower_index =
@ -56,7 +55,7 @@ pub fn slash_validator(
state.validator_registry[validator_index].slashed = true;
state.validator_registry[validator_index].withdrawable_epoch =
current_epoch + Epoch::from(spec.latest_slashed_exit_length);
current_epoch + Epoch::from(T::LatestSlashedExitLength::to_usize());
Ok(())
}

View File

@ -10,12 +10,12 @@ pub enum GenesisError {
/// Returns the genesis `BeaconState`
///
/// Spec v0.5.1
pub fn get_genesis_state(
pub fn get_genesis_state<T: EthSpec>(
genesis_validator_deposits: &[Deposit],
genesis_time: u64,
genesis_eth1_data: Eth1Data,
spec: &ChainSpec,
) -> Result<BeaconState, BlockProcessingError> {
) -> Result<BeaconState<T>, BlockProcessingError> {
// Get the genesis `BeaconState`
let mut state = BeaconState::genesis(genesis_time, genesis_eth1_data, spec);
@ -37,7 +37,7 @@ pub fn get_genesis_state(
.get_cached_active_validator_indices(RelativeEpoch::Current, spec)?
.to_vec();
let genesis_active_index_root = Hash256::from_slice(&active_validator_indices.tree_hash_root());
state.fill_active_index_roots_with(genesis_active_index_root, spec);
state.fill_active_index_roots_with(genesis_active_index_root);
// Generate the current shuffling seed.
state.current_shuffling_seed = state.generate_seed(spec.genesis_epoch, spec)?;

View File

@ -40,8 +40,8 @@ const VERIFY_DEPOSIT_MERKLE_PROOFS: bool = false;
/// returns an error describing why the block was invalid or how the function failed to execute.
///
/// Spec v0.5.1
pub fn per_block_processing(
state: &mut BeaconState,
pub fn per_block_processing<T: EthSpec>(
state: &mut BeaconState<T>,
block: &BeaconBlock,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -55,8 +55,8 @@ pub fn per_block_processing(
/// returns an error describing why the block was invalid or how the function failed to execute.
///
/// Spec v0.5.1
pub fn per_block_processing_without_verifying_block_signature(
state: &mut BeaconState,
pub fn per_block_processing_without_verifying_block_signature<T: EthSpec>(
state: &mut BeaconState<T>,
block: &BeaconBlock,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -70,8 +70,8 @@ pub fn per_block_processing_without_verifying_block_signature(
/// returns an error describing why the block was invalid or how the function failed to execute.
///
/// Spec v0.5.1
fn per_block_processing_signature_optional(
mut state: &mut BeaconState,
fn per_block_processing_signature_optional<T: EthSpec>(
mut state: &mut BeaconState<T>,
block: &BeaconBlock,
should_verify_block_signature: bool,
spec: &ChainSpec,
@ -100,8 +100,8 @@ fn per_block_processing_signature_optional(
/// Processes the block header.
///
/// Spec v0.5.1
pub fn process_block_header(
state: &mut BeaconState,
pub fn process_block_header<T: EthSpec>(
state: &mut BeaconState<T>,
block: &BeaconBlock,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -125,8 +125,8 @@ pub fn process_block_header(
/// Verifies the signature of a block.
///
/// Spec v0.5.1
pub fn verify_block_signature(
state: &BeaconState,
pub fn verify_block_signature<T: EthSpec>(
state: &BeaconState<T>,
block: &BeaconBlock,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -153,8 +153,8 @@ pub fn verify_block_signature(
/// `state.latest_randao_mixes`.
///
/// Spec v0.5.1
pub fn process_randao(
state: &mut BeaconState,
pub fn process_randao<T: EthSpec>(
state: &mut BeaconState<T>,
block: &BeaconBlock,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -184,7 +184,10 @@ pub fn process_randao(
/// Update the `state.eth1_data_votes` based upon the `eth1_data` provided.
///
/// Spec v0.5.1
pub fn process_eth1_data(state: &mut BeaconState, eth1_data: &Eth1Data) -> Result<(), Error> {
pub fn process_eth1_data<T: EthSpec>(
state: &mut BeaconState<T>,
eth1_data: &Eth1Data,
) -> Result<(), Error> {
// Attempt to find a `Eth1DataVote` with matching `Eth1Data`.
let matching_eth1_vote_index = state
.eth1_data_votes
@ -210,8 +213,8 @@ pub fn process_eth1_data(state: &mut BeaconState, eth1_data: &Eth1Data) -> Resul
/// an `Err` describing the invalid object or cause of failure.
///
/// Spec v0.5.1
pub fn process_proposer_slashings(
state: &mut BeaconState,
pub fn process_proposer_slashings<T: EthSpec>(
state: &mut BeaconState<T>,
proposer_slashings: &[ProposerSlashing],
spec: &ChainSpec,
) -> Result<(), Error> {
@ -243,8 +246,8 @@ pub fn process_proposer_slashings(
/// an `Err` describing the invalid object or cause of failure.
///
/// Spec v0.5.1
pub fn process_attester_slashings(
state: &mut BeaconState,
pub fn process_attester_slashings<T: EthSpec>(
state: &mut BeaconState<T>,
attester_slashings: &[AttesterSlashing],
spec: &ChainSpec,
) -> Result<(), Error> {
@ -301,8 +304,8 @@ pub fn process_attester_slashings(
/// an `Err` describing the invalid object or cause of failure.
///
/// Spec v0.5.1
pub fn process_attestations(
state: &mut BeaconState,
pub fn process_attestations<T: EthSpec>(
state: &mut BeaconState<T>,
attestations: &[Attestation],
spec: &ChainSpec,
) -> Result<(), Error> {
@ -343,8 +346,8 @@ pub fn process_attestations(
/// an `Err` describing the invalid object or cause of failure.
///
/// Spec v0.5.1
pub fn process_deposits(
state: &mut BeaconState,
pub fn process_deposits<T: EthSpec>(
state: &mut BeaconState<T>,
deposits: &[Deposit],
spec: &ChainSpec,
) -> Result<(), Error> {
@ -413,8 +416,8 @@ pub fn process_deposits(
/// an `Err` describing the invalid object or cause of failure.
///
/// Spec v0.5.1
pub fn process_exits(
state: &mut BeaconState,
pub fn process_exits<T: EthSpec>(
state: &mut BeaconState<T>,
voluntary_exits: &[VoluntaryExit],
spec: &ChainSpec,
) -> Result<(), Error> {
@ -445,8 +448,8 @@ pub fn process_exits(
/// an `Err` describing the invalid object or cause of failure.
///
/// Spec v0.5.1
pub fn process_transfers(
state: &mut BeaconState,
pub fn process_transfers<T: EthSpec>(
state: &mut BeaconState<T>,
transfers: &[Transfer],
spec: &ChainSpec,
) -> Result<(), Error> {

View File

@ -9,8 +9,8 @@ use types::*;
/// Returns `Ok(())` if the `Attestation` is valid, otherwise indicates the reason for invalidity.
///
/// Spec v0.5.1
pub fn validate_attestation(
state: &BeaconState,
pub fn validate_attestation<T: EthSpec>(
state: &BeaconState<T>,
attestation: &Attestation,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -18,8 +18,8 @@ pub fn validate_attestation(
}
/// Like `validate_attestation` but doesn't run checks which may become true in future states.
pub fn validate_attestation_time_independent_only(
state: &BeaconState,
pub fn validate_attestation_time_independent_only<T: EthSpec>(
state: &BeaconState<T>,
attestation: &Attestation,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -32,8 +32,8 @@ pub fn validate_attestation_time_independent_only(
/// Returns `Ok(())` if the `Attestation` is valid, otherwise indicates the reason for invalidity.
///
/// Spec v0.5.1
pub fn validate_attestation_without_signature(
state: &BeaconState,
pub fn validate_attestation_without_signature<T: EthSpec>(
state: &BeaconState<T>,
attestation: &Attestation,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -45,8 +45,8 @@ pub fn validate_attestation_without_signature(
///
///
/// Spec v0.5.1
fn validate_attestation_parametric(
state: &BeaconState,
fn validate_attestation_parametric<T: EthSpec>(
state: &BeaconState<T>,
attestation: &Attestation,
spec: &ChainSpec,
verify_signature: bool,
@ -168,9 +168,9 @@ fn validate_attestation_parametric(
/// match the current (or previous) justified epoch and root from the state.
///
/// Spec v0.5.1
fn verify_justified_epoch_and_root(
fn verify_justified_epoch_and_root<T: EthSpec>(
attestation: &Attestation,
state: &BeaconState,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), Error> {
let state_epoch = state.slot.epoch(spec.slots_per_epoch);
@ -223,8 +223,8 @@ fn verify_justified_epoch_and_root(
/// - A `validator_index` in `committee` is not in `state.validator_registry`.
///
/// Spec v0.5.1
fn verify_attestation_signature(
state: &BeaconState,
fn verify_attestation_signature<T: EthSpec>(
state: &BeaconState<T>,
committee: &[usize],
a: &Attestation,
spec: &ChainSpec,

View File

@ -8,8 +8,8 @@ use types::*;
/// Returns `Ok(())` if the `AttesterSlashing` is valid, otherwise indicates the reason for invalidity.
///
/// Spec v0.5.1
pub fn verify_attester_slashing(
state: &BeaconState,
pub fn verify_attester_slashing<T: EthSpec>(
state: &BeaconState<T>,
attester_slashing: &AttesterSlashing,
should_verify_slashable_attestations: bool,
spec: &ChainSpec,
@ -42,8 +42,8 @@ pub fn verify_attester_slashing(
/// Returns Ok(indices) if `indices.len() > 0`.
///
/// Spec v0.5.1
pub fn gather_attester_slashing_indices(
state: &BeaconState,
pub fn gather_attester_slashing_indices<T: EthSpec>(
state: &BeaconState<T>,
attester_slashing: &AttesterSlashing,
spec: &ChainSpec,
) -> Result<Vec<u64>, Error> {
@ -57,8 +57,8 @@ pub fn gather_attester_slashing_indices(
/// Same as `gather_attester_slashing_indices` but allows the caller to specify the criteria
/// for determining whether a given validator should be considered slashed.
pub fn gather_attester_slashing_indices_modular<F>(
state: &BeaconState,
pub fn gather_attester_slashing_indices_modular<F, T: EthSpec>(
state: &BeaconState<T>,
attester_slashing: &AttesterSlashing,
is_slashed: F,
spec: &ChainSpec,

View File

@ -16,8 +16,8 @@ use types::*;
/// Note: this function is incomplete.
///
/// Spec v0.5.1
pub fn verify_deposit(
state: &BeaconState,
pub fn verify_deposit<T: EthSpec>(
state: &BeaconState<T>,
deposit: &Deposit,
verify_merkle_branch: bool,
spec: &ChainSpec,
@ -47,7 +47,10 @@ pub fn verify_deposit(
/// Verify that the `Deposit` index is correct.
///
/// Spec v0.5.1
pub fn verify_deposit_index(state: &BeaconState, deposit: &Deposit) -> Result<(), Error> {
pub fn verify_deposit_index<T: EthSpec>(
state: &BeaconState<T>,
deposit: &Deposit,
) -> Result<(), Error> {
verify!(
deposit.index == state.deposit_index,
Invalid::BadIndex {
@ -65,8 +68,8 @@ pub fn verify_deposit_index(state: &BeaconState, deposit: &Deposit) -> Result<()
/// ## Errors
///
/// Errors if the state's `pubkey_cache` is not current.
pub fn get_existing_validator_index(
state: &BeaconState,
pub fn get_existing_validator_index<T: EthSpec>(
state: &BeaconState<T>,
deposit: &Deposit,
) -> Result<Option<u64>, Error> {
let deposit_input = &deposit.deposit_data.deposit_input;
@ -89,11 +92,15 @@ pub fn get_existing_validator_index(
/// Verify that a deposit is included in the state's eth1 deposit root.
///
/// Spec v0.5.1
fn verify_deposit_merkle_proof(state: &BeaconState, deposit: &Deposit, spec: &ChainSpec) -> bool {
fn verify_deposit_merkle_proof<T: EthSpec>(
state: &BeaconState<T>,
deposit: &Deposit,
spec: &ChainSpec,
) -> bool {
let leaf = hash(&get_serialized_deposit_data(deposit));
verify_merkle_proof(
Hash256::from_slice(&leaf),
&deposit.proof,
&deposit.proof[..],
spec.deposit_contract_tree_depth as usize,
deposit.index as usize,
state.latest_eth1_data.deposit_root,

View File

@ -8,8 +8,8 @@ use types::*;
/// Returns `Ok(())` if the `Exit` is valid, otherwise indicates the reason for invalidity.
///
/// Spec v0.5.1
pub fn verify_exit(
state: &BeaconState,
pub fn verify_exit<T: EthSpec>(
state: &BeaconState<T>,
exit: &VoluntaryExit,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -17,8 +17,8 @@ pub fn verify_exit(
}
/// Like `verify_exit` but doesn't run checks which may become true in future states.
pub fn verify_exit_time_independent_only(
state: &BeaconState,
pub fn verify_exit_time_independent_only<T: EthSpec>(
state: &BeaconState<T>,
exit: &VoluntaryExit,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -26,8 +26,8 @@ pub fn verify_exit_time_independent_only(
}
/// Parametric version of `verify_exit` that skips some checks if `time_independent_only` is true.
fn verify_exit_parametric(
state: &BeaconState,
fn verify_exit_parametric<T: EthSpec>(
state: &BeaconState<T>,
exit: &VoluntaryExit,
spec: &ChainSpec,
time_independent_only: bool,

View File

@ -8,9 +8,9 @@ use types::*;
/// Returns `Ok(())` if the `ProposerSlashing` is valid, otherwise indicates the reason for invalidity.
///
/// Spec v0.5.1
pub fn verify_proposer_slashing(
pub fn verify_proposer_slashing<T: EthSpec>(
proposer_slashing: &ProposerSlashing,
state: &BeaconState,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), Error> {
let proposer = state

View File

@ -11,8 +11,8 @@ use types::*;
/// Returns `Ok(())` if the `SlashableAttestation` is valid, otherwise indicates the reason for invalidity.
///
/// Spec v0.5.1
pub fn verify_slashable_attestation(
state: &BeaconState,
pub fn verify_slashable_attestation<T: EthSpec>(
state: &BeaconState<T>,
slashable_attestation: &SlashableAttestation,
spec: &ChainSpec,
) -> Result<(), Error> {

View File

@ -11,8 +11,8 @@ use types::*;
/// Note: this function is incomplete.
///
/// Spec v0.5.1
pub fn verify_transfer(
state: &BeaconState,
pub fn verify_transfer<T: EthSpec>(
state: &BeaconState<T>,
transfer: &Transfer,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -20,8 +20,8 @@ pub fn verify_transfer(
}
/// Like `verify_transfer` but doesn't run checks which may become true in future states.
pub fn verify_transfer_time_independent_only(
state: &BeaconState,
pub fn verify_transfer_time_independent_only<T: EthSpec>(
state: &BeaconState<T>,
transfer: &Transfer,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -29,8 +29,8 @@ pub fn verify_transfer_time_independent_only(
}
/// Parametric version of `verify_transfer` that allows some checks to be skipped.
fn verify_transfer_parametric(
state: &BeaconState,
fn verify_transfer_parametric<T: EthSpec>(
state: &BeaconState<T>,
transfer: &Transfer,
spec: &ChainSpec,
time_independent_only: bool,
@ -123,8 +123,8 @@ fn verify_transfer_parametric(
/// Does not check that the transfer is valid, however checks for overflow in all actions.
///
/// Spec v0.5.1
pub fn execute_transfer(
state: &mut BeaconState,
pub fn execute_transfer<T: EthSpec>(
state: &mut BeaconState<T>,
transfer: &Transfer,
spec: &ChainSpec,
) -> Result<(), Error> {

View File

@ -33,7 +33,10 @@ pub type WinningRootHashSet = HashMap<u64, WinningRoot>;
/// returned, a state might be "half-processed" and therefore in an invalid state.
///
/// Spec v0.5.1
pub fn per_epoch_processing(state: &mut BeaconState, spec: &ChainSpec) -> Result<(), Error> {
pub fn per_epoch_processing<T: EthSpec>(
state: &mut BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), Error> {
// Ensure the previous and next epoch caches are built.
state.build_epoch_cache(RelativeEpoch::Previous, spec)?;
state.build_epoch_cache(RelativeEpoch::Current, spec)?;
@ -87,7 +90,7 @@ pub fn per_epoch_processing(state: &mut BeaconState, spec: &ChainSpec) -> Result
/// Maybe resets the eth1 period.
///
/// Spec v0.5.1
pub fn maybe_reset_eth1_period(state: &mut BeaconState, spec: &ChainSpec) {
pub fn maybe_reset_eth1_period<T: EthSpec>(state: &mut BeaconState<T>, spec: &ChainSpec) {
let next_epoch = state.next_epoch(spec);
let voting_period = spec.epochs_per_eth1_voting_period;
@ -109,8 +112,8 @@ pub fn maybe_reset_eth1_period(state: &mut BeaconState, spec: &ChainSpec) {
/// - `previous_justified_epoch`
///
/// Spec v0.5.1
pub fn update_justification_and_finalization(
state: &mut BeaconState,
pub fn update_justification_and_finalization<T: EthSpec>(
state: &mut BeaconState<T>,
total_balances: &TotalBalances,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -160,13 +163,13 @@ pub fn update_justification_and_finalization(
if new_justified_epoch != state.current_justified_epoch {
state.current_justified_epoch = new_justified_epoch;
state.current_justified_root =
*state.get_block_root(new_justified_epoch.start_slot(spec.slots_per_epoch), spec)?;
*state.get_block_root(new_justified_epoch.start_slot(spec.slots_per_epoch))?;
}
if new_finalized_epoch != state.finalized_epoch {
state.finalized_epoch = new_finalized_epoch;
state.finalized_root =
*state.get_block_root(new_finalized_epoch.start_slot(spec.slots_per_epoch), spec)?;
*state.get_block_root(new_finalized_epoch.start_slot(spec.slots_per_epoch))?;
}
Ok(())
@ -179,8 +182,8 @@ pub fn update_justification_and_finalization(
/// Also returns a `WinningRootHashSet` for later use during epoch processing.
///
/// Spec v0.5.1
pub fn process_crosslinks(
state: &mut BeaconState,
pub fn process_crosslinks<T: EthSpec>(
state: &mut BeaconState<T>,
spec: &ChainSpec,
) -> Result<WinningRootHashSet, Error> {
let mut winning_root_for_shards: WinningRootHashSet = HashMap::new();
@ -222,7 +225,10 @@ pub fn process_crosslinks(
/// Finish up an epoch update.
///
/// Spec v0.5.1
pub fn finish_epoch_update(state: &mut BeaconState, spec: &ChainSpec) -> Result<(), Error> {
pub fn finish_epoch_update<T: EthSpec>(
state: &mut BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), Error> {
let current_epoch = state.current_epoch(spec);
let next_epoch = state.next_epoch(spec);
@ -241,11 +247,7 @@ pub fn finish_epoch_update(state: &mut BeaconState, spec: &ChainSpec) -> Result<
state.set_active_index_root(next_epoch, active_index_root, spec)?;
// Set total slashed balances
state.set_slashed_balance(
next_epoch,
state.get_slashed_balance(current_epoch, spec)?,
spec,
)?;
state.set_slashed_balance(next_epoch, state.get_slashed_balance(current_epoch)?)?;
// Set randao mix
state.set_randao_mix(
@ -257,8 +259,8 @@ pub fn finish_epoch_update(state: &mut BeaconState, spec: &ChainSpec) -> Result<
state.slot -= 1;
}
if next_epoch.as_u64() % (spec.slots_per_historical_root as u64 / spec.slots_per_epoch) == 0 {
let historical_batch: HistoricalBatch = state.historical_batch();
if next_epoch.as_u64() % (T::SlotsPerHistoricalRoot::to_u64() / spec.slots_per_epoch) == 0 {
let historical_batch = state.historical_batch();
state
.historical_roots
.push(Hash256::from_slice(&historical_batch.tree_hash_root()[..]));

View File

@ -33,8 +33,8 @@ impl std::ops::AddAssign for Delta {
/// Apply attester and proposer rewards.
///
/// Spec v0.5.1
pub fn apply_rewards(
state: &mut BeaconState,
pub fn apply_rewards<T: EthSpec>(
state: &mut BeaconState<T>,
validator_statuses: &mut ValidatorStatuses,
winning_root_for_shards: &WinningRootHashSet,
spec: &ChainSpec,
@ -80,9 +80,9 @@ pub fn apply_rewards(
/// attestation in the previous epoch.
///
/// Spec v0.5.1
fn get_proposer_deltas(
fn get_proposer_deltas<T: EthSpec>(
deltas: &mut Vec<Delta>,
state: &mut BeaconState,
state: &mut BeaconState<T>,
validator_statuses: &mut ValidatorStatuses,
winning_root_for_shards: &WinningRootHashSet,
spec: &ChainSpec,
@ -121,9 +121,9 @@ fn get_proposer_deltas(
/// Apply rewards for participation in attestations during the previous epoch.
///
/// Spec v0.5.1
fn get_justification_and_finalization_deltas(
fn get_justification_and_finalization_deltas<T: EthSpec>(
deltas: &mut Vec<Delta>,
state: &BeaconState,
state: &BeaconState<T>,
validator_statuses: &ValidatorStatuses,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -262,9 +262,9 @@ fn compute_inactivity_leak_delta(
/// Calculate the deltas based upon the winning roots for attestations during the previous epoch.
///
/// Spec v0.5.1
fn get_crosslink_deltas(
fn get_crosslink_deltas<T: EthSpec>(
deltas: &mut Vec<Delta>,
state: &BeaconState,
state: &BeaconState<T>,
validator_statuses: &ValidatorStatuses,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -296,8 +296,8 @@ fn get_crosslink_deltas(
/// Returns the base reward for some validator.
///
/// Spec v0.5.1
fn get_base_reward(
state: &BeaconState,
fn get_base_reward<T: EthSpec>(
state: &BeaconState<T>,
index: usize,
previous_total_balance: u64,
spec: &ChainSpec,
@ -313,8 +313,8 @@ fn get_base_reward(
/// Returns the inactivity penalty for some validator.
///
/// Spec v0.5.1
fn get_inactivity_penalty(
state: &BeaconState,
fn get_inactivity_penalty<T: EthSpec>(
state: &BeaconState<T>,
index: usize,
epochs_since_finality: u64,
previous_total_balance: u64,
@ -329,6 +329,6 @@ fn get_inactivity_penalty(
/// Returns the epochs since the last finalized epoch.
///
/// Spec v0.5.1
fn epochs_since_finality(state: &BeaconState, spec: &ChainSpec) -> Epoch {
fn epochs_since_finality<T: EthSpec>(state: &BeaconState<T>, spec: &ChainSpec) -> Epoch {
state.current_epoch(spec) + 1 - state.finalized_epoch
}

View File

@ -4,8 +4,8 @@ use types::*;
/// Returns validator indices which participated in the attestation.
///
/// Spec v0.5.1
pub fn get_attestation_participants(
state: &BeaconState,
pub fn get_attestation_participants<T: EthSpec>(
state: &BeaconState<T>,
attestation_data: &AttestationData,
bitfield: &Bitfield,
spec: &ChainSpec,

View File

@ -6,8 +6,8 @@ use types::*;
/// slot.
///
/// Spec v0.5.1
pub fn inclusion_distance(
state: &BeaconState,
pub fn inclusion_distance<T: EthSpec>(
state: &BeaconState<T>,
attestations: &[&PendingAttestation],
validator_index: usize,
spec: &ChainSpec,
@ -19,8 +19,8 @@ pub fn inclusion_distance(
/// Returns the slot of the earliest included attestation for some validator.
///
/// Spec v0.5.1
pub fn inclusion_slot(
state: &BeaconState,
pub fn inclusion_slot<T: EthSpec>(
state: &BeaconState<T>,
attestations: &[&PendingAttestation],
validator_index: usize,
spec: &ChainSpec,
@ -32,8 +32,8 @@ pub fn inclusion_slot(
/// Finds the earliest included attestation for some validator.
///
/// Spec v0.5.1
fn earliest_included_attestation(
state: &BeaconState,
fn earliest_included_attestation<T: EthSpec>(
state: &BeaconState<T>,
attestations: &[&PendingAttestation],
validator_index: usize,
spec: &ChainSpec,

View File

@ -5,7 +5,10 @@ use types::{BeaconStateError as Error, *};
/// ``EJECTION_BALANCE``.
///
/// Spec v0.5.1
pub fn process_ejections(state: &mut BeaconState, spec: &ChainSpec) -> Result<(), Error> {
pub fn process_ejections<T: EthSpec>(
state: &mut BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), Error> {
// There is an awkward double (triple?) loop here because we can't loop across the borrowed
// active validator indices and mutate state in the one loop.
let exitable: Vec<usize> = state

View File

@ -3,7 +3,7 @@ use types::*;
/// Process the exit queue.
///
/// Spec v0.5.1
pub fn process_exit_queue(state: &mut BeaconState, spec: &ChainSpec) {
pub fn process_exit_queue<T: EthSpec>(state: &mut BeaconState<T>, spec: &ChainSpec) {
let current_epoch = state.current_epoch(spec);
let eligible = |index: usize| {
@ -32,8 +32,8 @@ pub fn process_exit_queue(state: &mut BeaconState, spec: &ChainSpec) {
/// Initiate an exit for the validator of the given `index`.
///
/// Spec v0.5.1
fn prepare_validator_for_withdrawal(
state: &mut BeaconState,
fn prepare_validator_for_withdrawal<T: EthSpec>(
state: &mut BeaconState<T>,
validator_index: usize,
spec: &ChainSpec,
) {

View File

@ -3,20 +3,20 @@ use types::{BeaconStateError as Error, *};
/// Process slashings.
///
/// Spec v0.5.1
pub fn process_slashings(
state: &mut BeaconState,
pub fn process_slashings<T: EthSpec>(
state: &mut BeaconState<T>,
current_total_balance: u64,
spec: &ChainSpec,
) -> Result<(), Error> {
let current_epoch = state.current_epoch(spec);
let total_at_start = state.get_slashed_balance(current_epoch + 1, spec)?;
let total_at_end = state.get_slashed_balance(current_epoch, spec)?;
let total_at_start = state.get_slashed_balance(current_epoch + 1)?;
let total_at_end = state.get_slashed_balance(current_epoch)?;
let total_penalities = total_at_end - total_at_start;
for (index, validator) in state.validator_registry.iter().enumerate() {
let should_penalize = current_epoch.as_usize()
== validator.withdrawable_epoch.as_usize() - spec.latest_slashed_exit_length / 2;
== validator.withdrawable_epoch.as_usize() - T::LatestSlashedExitLength::to_usize() / 2;
if validator.slashed && should_penalize {
let effective_balance = state.get_effective_balance(index, spec)?;

View File

@ -8,9 +8,10 @@ use types::*;
fn runs_without_error() {
Builder::from_env(Env::default().default_filter_or("error")).init();
let spec = ChainSpec::few_validators();
let spec = FewValidatorsEthSpec::spec();
let mut builder = TestingBeaconStateBuilder::from_deterministic_keypairs(8, &spec);
let mut builder: TestingBeaconStateBuilder<FewValidatorsEthSpec> =
TestingBeaconStateBuilder::from_deterministic_keypairs(8, &spec);
let target_slot = (spec.genesis_epoch + 4).end_slot(spec.slots_per_epoch);
builder.teleport_to_slot(target_slot, &spec);

View File

@ -5,8 +5,8 @@ use types::*;
/// Peforms a validator registry update, if required.
///
/// Spec v0.5.1
pub fn update_registry_and_shuffling_data(
state: &mut BeaconState,
pub fn update_registry_and_shuffling_data<T: EthSpec>(
state: &mut BeaconState<T>,
current_total_balance: u64,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -50,8 +50,8 @@ pub fn update_registry_and_shuffling_data(
/// Returns `true` if the validator registry should be updated during an epoch processing.
///
/// Spec v0.5.1
pub fn should_update_validator_registry(
state: &BeaconState,
pub fn should_update_validator_registry<T: EthSpec>(
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<bool, BeaconStateError> {
if state.finalized_epoch <= state.validator_registry_update_epoch {
@ -79,8 +79,8 @@ pub fn should_update_validator_registry(
/// Note: Utilizes the cache and will fail if the appropriate cache is not initialized.
///
/// Spec v0.5.1
pub fn update_validator_registry(
state: &mut BeaconState,
pub fn update_validator_registry<T: EthSpec>(
state: &mut BeaconState<T>,
current_total_balance: u64,
spec: &ChainSpec,
) -> Result<(), Error> {
@ -134,8 +134,8 @@ pub fn update_validator_registry(
/// Activate the validator of the given ``index``.
///
/// Spec v0.5.1
pub fn activate_validator(
state: &mut BeaconState,
pub fn activate_validator<T: EthSpec>(
state: &mut BeaconState<T>,
validator_index: usize,
is_genesis: bool,
spec: &ChainSpec,

View File

@ -161,7 +161,10 @@ impl ValidatorStatuses {
/// - Total balances for the current and previous epochs.
///
/// Spec v0.5.1
pub fn new(state: &BeaconState, spec: &ChainSpec) -> Result<Self, BeaconStateError> {
pub fn new<T: EthSpec>(
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<Self, BeaconStateError> {
let mut statuses = Vec::with_capacity(state.validator_registry.len());
let mut total_balances = TotalBalances::default();
@ -196,9 +199,9 @@ impl ValidatorStatuses {
/// `total_balances` fields.
///
/// Spec v0.5.1
pub fn process_attestations(
pub fn process_attestations<T: EthSpec>(
&mut self,
state: &BeaconState,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), BeaconStateError> {
for a in state
@ -243,7 +246,7 @@ impl ValidatorStatuses {
status.is_previous_epoch_boundary_attester = true;
}
if has_common_beacon_block_root(a, state, spec)? {
if has_common_beacon_block_root(a, state)? {
self.total_balances.previous_epoch_head_attesters += attesting_balance;
status.is_previous_epoch_head_attester = true;
}
@ -262,9 +265,9 @@ impl ValidatorStatuses {
/// "winning" shard block root for the previous epoch.
///
/// Spec v0.5.1
pub fn process_winning_roots(
pub fn process_winning_roots<T: EthSpec>(
&mut self,
state: &BeaconState,
state: &BeaconState<T>,
winning_roots: &WinningRootHashSet,
spec: &ChainSpec,
) -> Result<(), BeaconStateError> {
@ -313,14 +316,14 @@ fn is_from_epoch(a: &PendingAttestation, epoch: Epoch, spec: &ChainSpec) -> bool
/// the first slot of the given epoch.
///
/// Spec v0.5.1
fn has_common_epoch_boundary_root(
fn has_common_epoch_boundary_root<T: EthSpec>(
a: &PendingAttestation,
state: &BeaconState,
state: &BeaconState<T>,
epoch: Epoch,
spec: &ChainSpec,
) -> Result<bool, BeaconStateError> {
let slot = epoch.start_slot(spec.slots_per_epoch);
let state_boundary_root = *state.get_block_root(slot, spec)?;
let state_boundary_root = *state.get_block_root(slot)?;
Ok(a.data.target_root == state_boundary_root)
}
@ -329,12 +332,11 @@ fn has_common_epoch_boundary_root(
/// the current slot of the `PendingAttestation`.
///
/// Spec v0.5.1
fn has_common_beacon_block_root(
fn has_common_beacon_block_root<T: EthSpec>(
a: &PendingAttestation,
state: &BeaconState,
spec: &ChainSpec,
state: &BeaconState<T>,
) -> Result<bool, BeaconStateError> {
let state_block_root = *state.get_block_root(a.data.slot, spec)?;
let state_block_root = *state.get_block_root(a.data.slot)?;
Ok(a.data.beacon_block_root == state_block_root)
}

View File

@ -35,8 +35,8 @@ impl WinningRoot {
/// per-epoch processing.
///
/// Spec v0.5.1
pub fn winning_root(
state: &BeaconState,
pub fn winning_root<T: EthSpec>(
state: &BeaconState<T>,
shard: u64,
spec: &ChainSpec,
) -> Result<Option<WinningRoot>, BeaconStateError> {
@ -90,7 +90,11 @@ pub fn winning_root(
/// Returns `true` if pending attestation `a` is eligible to become a winning root.
///
/// Spec v0.5.1
fn is_eligible_for_winning_root(state: &BeaconState, a: &PendingAttestation, shard: Shard) -> bool {
fn is_eligible_for_winning_root<T: EthSpec>(
state: &BeaconState<T>,
a: &PendingAttestation,
shard: Shard,
) -> bool {
if shard >= state.latest_crosslinks.len() as u64 {
return false;
}
@ -101,8 +105,8 @@ fn is_eligible_for_winning_root(state: &BeaconState, a: &PendingAttestation, sha
/// Returns all indices which voted for a given crosslink. Does not contain duplicates.
///
/// Spec v0.5.1
fn get_attesting_validator_indices(
state: &BeaconState,
fn get_attesting_validator_indices<T: EthSpec>(
state: &BeaconState<T>,
shard: u64,
crosslink_data_root: &Hash256,
spec: &ChainSpec,

View File

@ -11,7 +11,10 @@ pub enum Error {
/// Advances a state forward by one slot, performing per-epoch processing if required.
///
/// Spec v0.5.1
pub fn per_slot_processing(state: &mut BeaconState, spec: &ChainSpec) -> Result<(), Error> {
pub fn per_slot_processing<T: EthSpec>(
state: &mut BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), Error> {
cache_state(state, spec)?;
if (state.slot + 1) % spec.slots_per_epoch == 0 {
@ -23,7 +26,7 @@ pub fn per_slot_processing(state: &mut BeaconState, spec: &ChainSpec) -> Result<
Ok(())
}
fn cache_state(state: &mut BeaconState, spec: &ChainSpec) -> Result<(), Error> {
fn cache_state<T: EthSpec>(state: &mut BeaconState<T>, spec: &ChainSpec) -> Result<(), Error> {
let previous_slot_state_root = state.update_tree_hash_cache()?;
// Note: increment the state slot here to allow use of our `state_root` and `block_root`
@ -39,10 +42,10 @@ fn cache_state(state: &mut BeaconState, spec: &ChainSpec) -> Result<(), Error> {
}
// Store the previous slot's post state transition root.
state.set_state_root(previous_slot, previous_slot_state_root, spec)?;
state.set_state_root(previous_slot, previous_slot_state_root)?;
let latest_block_root = Hash256::from_slice(&state.latest_block_header.signed_root()[..]);
state.set_block_root(previous_slot, latest_block_root, spec)?;
state.set_block_root(previous_slot, latest_block_root)?;
// Set the state slot back to what it should be.
state.slot -= 1;

View File

@ -1,157 +0,0 @@
#![cfg(not(debug_assertions))]
use serde_derive::Deserialize;
use serde_yaml;
use state_processing::{per_block_processing, per_slot_processing};
use std::{fs::File, io::prelude::*, path::PathBuf};
use types::*;
#[derive(Debug, Deserialize)]
pub struct ExpectedState {
pub slot: Option<Slot>,
pub genesis_time: Option<u64>,
pub fork: Option<Fork>,
pub validator_registry: Option<Vec<Validator>>,
pub validator_balances: Option<Vec<u64>>,
pub previous_epoch_attestations: Option<Vec<PendingAttestation>>,
pub current_epoch_attestations: Option<Vec<PendingAttestation>>,
pub historical_roots: Option<Vec<Hash256>>,
pub finalized_epoch: Option<Epoch>,
pub latest_block_roots: Option<TreeHashVector<Hash256>>,
}
impl ExpectedState {
// Return a list of fields that differ, and a string representation of the beacon state's field.
fn check(&self, state: &BeaconState) -> Vec<(&str, String)> {
// Check field equality
macro_rules! cfe {
($field_name:ident) => {
if self.$field_name.as_ref().map_or(true, |$field_name| {
println!(" > Checking {}", stringify!($field_name));
$field_name == &state.$field_name
}) {
vec![]
} else {
vec![(stringify!($field_name), format!("{:#?}", state.$field_name))]
}
};
}
vec![
cfe!(slot),
cfe!(genesis_time),
cfe!(fork),
cfe!(validator_registry),
cfe!(validator_balances),
cfe!(previous_epoch_attestations),
cfe!(current_epoch_attestations),
cfe!(historical_roots),
cfe!(finalized_epoch),
cfe!(latest_block_roots),
]
.into_iter()
.flat_map(|x| x)
.collect()
}
}
#[derive(Debug, Deserialize)]
pub struct TestCase {
pub name: String,
pub config: ChainSpec,
pub verify_signatures: bool,
pub initial_state: BeaconState,
pub blocks: Vec<BeaconBlock>,
pub expected_state: ExpectedState,
}
#[derive(Debug, Deserialize)]
pub struct TestDoc {
pub title: String,
pub summary: String,
pub fork: String,
pub test_cases: Vec<TestCase>,
}
fn load_test_case(test_name: &str) -> TestDoc {
let mut file = {
let mut file_path_buf = PathBuf::from(env!("CARGO_MANIFEST_DIR"));
file_path_buf.push(format!("yaml_utils/specs/{}", test_name));
File::open(file_path_buf).unwrap()
};
let mut yaml_str = String::new();
file.read_to_string(&mut yaml_str).unwrap();
yaml_str = yaml_str.to_lowercase();
serde_yaml::from_str(&yaml_str.as_str()).unwrap()
}
fn run_state_transition_test(test_name: &str) {
let doc = load_test_case(test_name);
// Run Tests
let mut ok = true;
for (i, test_case) in doc.test_cases.iter().enumerate() {
let fake_crypto = cfg!(feature = "fake_crypto");
if !test_case.verify_signatures == fake_crypto {
println!("Running {}", test_case.name);
} else {
println!(
"Skipping {} (fake_crypto: {}, need fake: {})",
test_case.name, fake_crypto, !test_case.verify_signatures
);
continue;
}
let mut state = test_case.initial_state.clone();
for (j, block) in test_case.blocks.iter().enumerate() {
while block.slot > state.slot {
per_slot_processing(&mut state, &test_case.config).unwrap();
}
let res = per_block_processing(&mut state, &block, &test_case.config);
if res.is_err() {
println!("Error in {} (#{}), on block {}", test_case.name, i, j);
println!("{:?}", res);
ok = false;
}
}
let mismatched_fields = test_case.expected_state.check(&state);
if !mismatched_fields.is_empty() {
println!(
"Error in expected state, these fields didn't match: {:?}",
mismatched_fields.iter().map(|(f, _)| f).collect::<Vec<_>>()
);
for (field_name, state_val) in mismatched_fields {
println!("state.{} was: {}", field_name, state_val);
}
ok = false;
}
}
assert!(ok, "one or more tests failed, see above");
}
#[test]
// Ignoring because it's failing while downloading stuff
#[ignore]
#[cfg(not(debug_assertions))]
fn test_read_yaml() {
load_test_case("sanity-check_small-config_32-vals.yaml");
load_test_case("sanity-check_default-config_100-vals.yaml");
}
#[test]
// Ignoring because it's failing while downloading stuff
#[ignore]
#[cfg(not(debug_assertions))]
fn run_state_transition_tests_small() {
run_state_transition_test("sanity-check_small-config_32-vals.yaml");
}
// Run with --ignored to run this test
#[test]
#[ignore]
fn run_state_transition_tests_large() {
run_state_transition_test("sanity-check_default-config_100-vals.yaml");
}

View File

@ -1,14 +0,0 @@
[package]
name = "yaml-utils"
version = "0.1.0"
authors = ["Kirk Baird <baird.k@outlook.com>"]
edition = "2018"
[build-dependencies]
reqwest = "0.9"
[dependencies]
[lib]
name = "yaml_utils"
path = "src/lib.rs"

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@ -1,27 +0,0 @@
extern crate reqwest;
use std::fs::File;
use std::io::copy;
fn main() {
// These test files are not to be stored in the lighthouse repo as they are quite large (32MB).
// They will be downloaded at build time by yaml-utils crate (in build.rs)
let git_path = "https://raw.githubusercontent.com/ethereum/eth2.0-tests/master/state/";
let test_names = vec![
"sanity-check_default-config_100-vals.yaml",
"sanity-check_small-config_32-vals.yaml",
];
for test in test_names {
let mut target = String::from(git_path);
target.push_str(test);
let mut response = reqwest::get(target.as_str()).unwrap();
let mut dest = {
let mut file_name = String::from("specs/");
file_name.push_str(test);
File::create(file_name).unwrap()
};
copy(&mut response, &mut dest).unwrap();
}
}

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@ -1,15 +0,0 @@
#!/usr/bin/env python3
# Script to extract all the fields of the state mentioned in `expected_state` fields of tests
# in the `spec` directory. These fields can then be added to the `ExpectedState` struct.
# Might take a while to run.
import os, yaml
if __name__ == "__main__":
yaml_files = (filename for filename in os.listdir("specs") if filename.endswith(".yaml"))
parsed_yaml = (yaml.load(open("specs/" + filename, "r")) for filename in yaml_files)
all_fields = set()
for y in parsed_yaml:
all_fields.update(*({key for key in case["expected_state"]} for case in y["test_cases"]))
print(all_fields)

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@ -1 +0,0 @@
*.yaml

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@ -1 +0,0 @@
// This is a place holder such that yaml-utils is now a crate hence build.rs will be run when 'cargo test' is called

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@ -11,6 +11,7 @@ cached_tree_hash = { path = "../utils/cached_tree_hash" }
dirs = "1.0"
derivative = "1.0"
ethereum-types = "0.5"
fixed_len_vec = { path = "../utils/fixed_len_vec" }
hashing = { path = "../utils/hashing" }
hex = "0.3"
honey-badger-split = { path = "../utils/honey-badger-split" }

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@ -1,6 +1,6 @@
use super::{AggregateSignature, AttestationData, Bitfield};
use crate::test_utils::TestRandom;
use rand::RngCore;
use serde_derive::{Deserialize, Serialize};
use ssz_derive::{Decode, Encode};
use test_random_derive::TestRandom;

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@ -1,6 +1,6 @@
use crate::test_utils::TestRandom;
use crate::{Crosslink, Epoch, Hash256, Slot};
use rand::RngCore;
use serde_derive::{Deserialize, Serialize};
use ssz_derive::{Decode, Encode};
use test_random_derive::TestRandom;

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@ -1,5 +1,6 @@
use super::AttestationData;
use crate::test_utils::TestRandom;
use rand::RngCore;
use serde_derive::Serialize;
use ssz_derive::{Decode, Encode};
@ -14,8 +15,8 @@ pub struct AttestationDataAndCustodyBit {
pub custody_bit: bool,
}
impl<T: RngCore> TestRandom<T> for AttestationDataAndCustodyBit {
fn random_for_test(rng: &mut T) -> Self {
impl TestRandom for AttestationDataAndCustodyBit {
fn random_for_test(rng: &mut impl RngCore) -> Self {
Self {
data: <_>::random_for_test(rng),
custody_bit: <_>::random_for_test(rng),

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@ -1,5 +1,5 @@
use crate::{test_utils::TestRandom, SlashableAttestation};
use rand::RngCore;
use serde_derive::{Deserialize, Serialize};
use ssz_derive::{Decode, Encode};
use test_random_derive::TestRandom;

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@ -1,7 +1,7 @@
use crate::test_utils::TestRandom;
use crate::*;
use bls::Signature;
use rand::RngCore;
use serde_derive::{Deserialize, Serialize};
use ssz_derive::{Decode, Encode};
use test_random_derive::TestRandom;

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