Merge branch 'dev' into double-operations

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Danny Ryan 2020-05-07 12:32:25 -06:00
commit b317a7329f
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27 changed files with 854 additions and 356 deletions

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@ -9,11 +9,14 @@ This repository hosts the current Eth2 specifications. Discussions about design
## Specs
Core specifications for Eth2 clients be found in [specs/](specs/). These are divided into phases. Each subsequent phase depends upon the prior. The current phases specified are:
[![GitHub release](https://img.shields.io/github/v/release/ethereum/eth2.0-specs)](https://github.com/ethereum/eth2.0-specs/releases/) [![PyPI version](https://badge.fury.io/py/eth2spec.svg)](https://badge.fury.io/py/eth2spec)
Core specifications for Eth2 clients be found in [specs](specs/). These are divided into phases. Each subsequent phase depends upon the prior. The current phases specified are:
### Phase 0
* [The Beacon Chain](specs/phase0/beacon-chain.md)
* [Fork Choice](specs/phase0/fork-choice.md)
* [Beacon Chain Fork Choice](specs/phase0/fork-choice.md)
* [Deposit Contract](specs/phase0/deposit-contract.md)
* [Honest Validator](specs/phase0/validator.md)
* [P2P Networking](specs/phase0/p2p-interface.md)
@ -22,8 +25,9 @@ Core specifications for Eth2 clients be found in [specs/](specs/). These are div
* [From Phase 0 to Phase 1](specs/phase1/phase1-fork.md)
* [The Beacon Chain for Shards](specs/phase1/beacon-chain.md)
* [Custody Game](specs/phase1/custody-game.md)
* [Shard Transition and Fraud Proofs](specs/phase1/fraud-proofs.md)
* [Shard Transition and Fraud Proofs](specs/phase1/shard-transition.md)
* [Light client syncing protocol](specs/phase1/light-client-sync.md)
* [Beacon Chain Fork Choice for Shards](specs/phase1/fork-choice.md)
### Phase 2

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@ -161,6 +161,8 @@ DOMAIN_CUSTODY_BIT_SLASHING: 0x83000000
# Phase 1: Upgrade from Phase 0
# ---------------------------------------------------------------
PHASE_1_FORK_VERSION: 0x01000000
# [STUB]
PHASE_1_GENESIS_SLOT: 32
INITIAL_ACTIVE_SHARDS: 64
# Phase 1: General

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@ -162,6 +162,8 @@ DOMAIN_CUSTODY_BIT_SLASHING: 0x83000000
# ---------------------------------------------------------------
# [customized] for testnet distinction
PHASE_1_FORK_VERSION: 0x01000001
# [customized] for testing
PHASE_1_GENESIS_SLOT: 8
# [customized] reduced for testing
INITIAL_ACTIVE_SHARDS: 4

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@ -375,7 +375,7 @@ class PySpecCommand(Command):
specs/phase0/fork-choice.md
specs/phase1/custody-game.md
specs/phase1/beacon-chain.md
specs/phase1/fraud-proofs.md
specs/phase1/shard-transition.md
specs/phase1/fork-choice.md
specs/phase1/phase1-fork.md
"""

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@ -1170,6 +1170,8 @@ def initialize_beacon_state_from_eth1(eth1_block_hash: Bytes32,
return state
```
*Note*: The ETH1 block with `eth1_timestamp` meeting the minimum genesis active validator count criteria can also occur before `MIN_GENESIS_TIME`.
### Genesis state
Let `genesis_state = candidate_state` whenever `is_valid_genesis_state(candidate_state) is True` for the first time.

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@ -273,13 +273,12 @@ def validate_on_attestation(store: Store, attestation: Attestation) -> None:
current_epoch = compute_epoch_at_slot(get_current_slot(store))
# Use GENESIS_EPOCH for previous when genesis to avoid underflow
previous_epoch = current_epoch - 1 if current_epoch > GENESIS_EPOCH else GENESIS_EPOCH
# If attestation target is from a future epoch, delay consideration until the epoch arrives
assert target.epoch in [current_epoch, previous_epoch]
assert target.epoch == compute_epoch_at_slot(attestation.data.slot)
# Attestations target be for a known block. If target block is unknown, delay consideration until the block is found
assert target.root in store.blocks
# Attestations cannot be from future epochs. If they are, delay consideration until the epoch arrives
assert get_current_slot(store) >= compute_start_slot_at_epoch(target.epoch)
# Attestations must be for a known block. If block is unknown, delay consideration until the block is found
assert attestation.data.beacon_block_root in store.blocks

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@ -289,7 +289,7 @@ There are two primary global topics used to propagate beacon blocks and aggregat
- The block is proposed by the expected `proposer_index` for the block's slot in the context of the current shuffling (defined by `parent_root`/`slot`). If the `proposer_index` cannot immediately be verified against the expected shuffling, the block MAY be queued for later processing while proposers for the block's branch are calculated.
- `beacon_aggregate_and_proof` - This topic is used to propagate aggregated attestations (as `SignedAggregateAndProof`s) to subscribing nodes (typically validators) to be included in future blocks. The following validations MUST pass before forwarding the `signed_aggregate_and_proof` on the network. (We define the following for convenience -- `aggregate_and_proof = signed_aggregate_and_proof.message` and `aggregate = aggregate_and_proof.aggregate`)
- `aggregate.data.slot` is within the last `ATTESTATION_PROPAGATION_SLOT_RANGE` slots (with a `MAXIMUM_GOSSIP_CLOCK_DISPARITY` allowance) -- i.e. `aggregate.data.slot + ATTESTATION_PROPAGATION_SLOT_RANGE >= current_slot >= aggregate.data.slot` (a client MAY queue future aggregates for processing at the appropriate slot).
- The aggregate attestation defined by `hash_tree_root(aggregate)` has _not_ already been seen (via aggregate gossip, within a verified block, or through the creation of an equivalent aggregate locally).
- The valid aggregate attestation defined by `hash_tree_root(aggregate)` has _not_ already been seen (via aggregate gossip, within a verified block, or through the creation of an equivalent aggregate locally).
- The `aggregate` is the first valid aggregate received for the aggregator with index `aggregate_and_proof.aggregator_index` for the epoch `aggregate.data.target.epoch`.
- The block being voted for (`aggregate.data.beacon_block_root`) passes validation.
- `aggregate_and_proof.selection_proof` selects the validator as an aggregator for the slot -- i.e. `is_aggregator(state, aggregate.data.slot, aggregate.data.index, aggregate_and_proof.selection_proof)` returns `True`.

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@ -524,6 +524,8 @@ Because Phase 0 does not have shards and thus does not have Shard Committees, th
* Maintain advertisement of the randomly selected subnets in their node's ENR `attnets` entry by setting the randomly selected `subnet_id` bits to `True` (e.g. `ENR["attnets"][subnet_id] = True`) for all persistent attestation subnets
* Set the lifetime of each random subscription to a random number of epochs between `EPOCHS_PER_RANDOM_SUBNET_SUBSCRIPTION` and `2 * EPOCHS_PER_RANDOM_SUBNET_SUBSCRIPTION]`. At the end of life for a subscription, select a new random subnet, update subnet subscriptions, and publish an updated ENR
*Note*: Short lived beacon committee assignments should not be added in into the ENR `attnets` entry.
*Note*: When preparing for a hard fork, a validator must select and subscribe to random subnets of the future fork versioning at least `EPOCHS_PER_RANDOM_SUBNET_SUBSCRIPTION` epochs in advance of the fork. These new subnets for the fork are maintained in addition to those for the current fork until the fork occurs. After the fork occurs, let the subnets from the previous fork reach the end of life with no replacements.
## How to avoid slashing

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@ -16,7 +16,7 @@
- [Extended `AttestationData`](#extended-attestationdata)
- [Extended `Attestation`](#extended-attestation)
- [Extended `PendingAttestation`](#extended-pendingattestation)
- [`IndexedAttestation`](#indexedattestation)
- [Extended `IndexedAttestation`](#extended-indexedattestation)
- [Extended `AttesterSlashing`](#extended-attesterslashing)
- [Extended `Validator`](#extended-validator)
- [Extended `BeaconBlockBody`](#extended-beaconblockbody)
@ -24,35 +24,37 @@
- [Extended `SignedBeaconBlock`](#extended-signedbeaconblock)
- [Extended `BeaconState`](#extended-beaconstate)
- [New containers](#new-containers)
- [`ShardBlockWrapper`](#shardblockwrapper)
- [`ShardSignableHeader`](#shardsignableheader)
- [`ShardBlock`](#shardblock)
- [`SignedShardBlock`](#signedshardblock)
- [`ShardBlockHeader`](#shardblockheader)
- [`ShardState`](#shardstate)
- [`ShardTransition`](#shardtransition)
- [`CompactCommittee`](#compactcommittee)
- [`AttestationCustodyBitWrapper`](#attestationcustodybitwrapper)
- [Helper functions](#helper-functions)
- [Misc](#misc-1)
- [`get_previous_slot`](#get_previous_slot)
- [`compute_previous_slot`](#compute_previous_slot)
- [`pack_compact_validator`](#pack_compact_validator)
- [`unpack_compact_validator`](#unpack_compact_validator)
- [`committee_to_compact_committee`](#committee_to_compact_committee)
- [`compute_shard_from_committee_index`](#compute_shard_from_committee_index)
- [`compute_offset_slots`](#compute_offset_slots)
- [`compute_updated_gasprice`](#compute_updated_gasprice)
- [Beacon state accessors](#beacon-state-accessors)
- [`get_active_shard_count`](#get_active_shard_count)
- [`get_online_validator_indices`](#get_online_validator_indices)
- [`get_shard_committee`](#get_shard_committee)
- [`get_shard_proposer_index`](#get_shard_proposer_index)
- [`get_light_client_committee`](#get_light_client_committee)
- [`get_shard_proposer_index`](#get_shard_proposer_index)
- [`get_indexed_attestation`](#get_indexed_attestation)
- [`get_updated_gasprice`](#get_updated_gasprice)
- [`get_start_shard`](#get_start_shard)
- [`get_shard`](#get_shard)
- [`get_latest_slot_for_shard`](#get_latest_slot_for_shard)
- [`get_offset_slots`](#get_offset_slots)
- [Predicates](#predicates)
- [`is_winning_attestation`](#is_winning_attestation)
- [Updated `is_valid_indexed_attestation`](#updated-is_valid_indexed_attestation)
- [`is_shard_attestation`](#is_shard_attestation)
- [`is_winning_attestation`](#is_winning_attestation)
- [Block processing](#block-processing)
- [Operations](#operations)
- [New Attestation processing](#new-attestation-processing)
@ -152,7 +154,7 @@ class PendingAttestation(Container):
crosslink_success: boolean
```
### `IndexedAttestation`
### Extended `IndexedAttestation`
```python
class IndexedAttestation(Container):
@ -160,7 +162,7 @@ class IndexedAttestation(Container):
attestation: Attestation
```
#### Extended `AttesterSlashing`
### Extended `AttesterSlashing`
Note that the `attestation_1` and `attestation_2` have a new `IndexedAttestation` definition.
@ -291,26 +293,33 @@ class BeaconState(Container):
The following containers are new in Phase 1.
### `ShardBlockWrapper`
_Wrapper for being broadcasted over the network._
### `ShardBlock`
```python
class ShardBlockWrapper(Container):
class ShardBlock(Container):
shard_parent_root: Root
beacon_parent_root: Root
slot: Slot
proposer_index: ValidatorIndex
body: ByteList[MAX_SHARD_BLOCK_SIZE]
```
### `SignedShardBlock`
```python
class SignedShardBlock(Container):
message: ShardBlock
signature: BLSSignature
```
### `ShardSignableHeader`
### `ShardBlockHeader`
```python
class ShardSignableHeader(Container):
class ShardBlockHeader(Container):
shard_parent_root: Root
beacon_parent_root: Root
slot: Slot
proposer_index: ValidatorIndex
body_root: Root
```
@ -320,7 +329,7 @@ class ShardSignableHeader(Container):
class ShardState(Container):
slot: Slot
gasprice: Gwei
data: Bytes32
transition_digest: Bytes32
latest_block_root: Root
```
@ -361,10 +370,10 @@ class AttestationCustodyBitWrapper(Container):
### Misc
#### `get_previous_slot`
#### `compute_previous_slot`
```python
def get_previous_slot(slot: Slot) -> Slot:
def compute_previous_slot(slot: Slot) -> Slot:
if slot > 0:
return Slot(slot - 1)
else:
@ -431,6 +440,20 @@ def compute_offset_slots(start_slot: Slot, end_slot: Slot) -> Sequence[Slot]:
return [Slot(start_slot + x) for x in SHARD_BLOCK_OFFSETS if start_slot + x < end_slot]
```
#### `compute_updated_gasprice`
```python
def compute_updated_gasprice(prev_gasprice: Gwei, length: uint8) -> Gwei:
if length > TARGET_SHARD_BLOCK_SIZE:
delta = (prev_gasprice * (length - TARGET_SHARD_BLOCK_SIZE)
// TARGET_SHARD_BLOCK_SIZE // GASPRICE_ADJUSTMENT_COEFFICIENT)
return min(prev_gasprice + delta, MAX_GASPRICE)
else:
delta = (prev_gasprice * (TARGET_SHARD_BLOCK_SIZE - length)
// TARGET_SHARD_BLOCK_SIZE // GASPRICE_ADJUSTMENT_COEFFICIENT)
return max(prev_gasprice, MIN_GASPRICE + delta) - delta
```
### Beacon state accessors
#### `get_active_shard_count`
@ -457,16 +480,13 @@ def get_shard_committee(beacon_state: BeaconState, epoch: Epoch, shard: Shard) -
source_epoch -= SHARD_COMMITTEE_PERIOD
active_validator_indices = get_active_validator_indices(beacon_state, source_epoch)
seed = get_seed(beacon_state, source_epoch, DOMAIN_SHARD_COMMITTEE)
return compute_committee(active_validator_indices, seed, shard, get_active_shard_count(beacon_state))
```
#### `get_shard_proposer_index`
```python
def get_shard_proposer_index(beacon_state: BeaconState, slot: Slot, shard: Shard) -> ValidatorIndex:
committee = get_shard_committee(beacon_state, compute_epoch_at_slot(slot), shard)
r = bytes_to_int(get_seed(beacon_state, get_current_epoch(beacon_state), DOMAIN_SHARD_COMMITTEE)[:8])
return committee[r % len(committee)]
active_shard_count = get_active_shard_count(beacon_state)
return compute_committee(
indices=active_validator_indices,
seed=seed,
index=shard,
count=active_shard_count,
)
```
#### `get_light_client_committee`
@ -478,8 +498,21 @@ def get_light_client_committee(beacon_state: BeaconState, epoch: Epoch) -> Seque
source_epoch -= LIGHT_CLIENT_COMMITTEE_PERIOD
active_validator_indices = get_active_validator_indices(beacon_state, source_epoch)
seed = get_seed(beacon_state, source_epoch, DOMAIN_LIGHT_CLIENT)
active_shards = get_active_shard_count(beacon_state)
return compute_committee(active_validator_indices, seed, 0, active_shards)[:TARGET_COMMITTEE_SIZE]
return compute_committee(
indices=active_validator_indices,
seed=seed,
index=0,
count=get_active_shard_count(beacon_state),
)[:TARGET_COMMITTEE_SIZE]
```
#### `get_shard_proposer_index`
```python
def get_shard_proposer_index(beacon_state: BeaconState, slot: Slot, shard: Shard) -> ValidatorIndex:
committee = get_shard_committee(beacon_state, compute_epoch_at_slot(slot), shard)
r = bytes_to_int(get_seed(beacon_state, get_current_epoch(beacon_state), DOMAIN_SHARD_COMMITTEE)[:8])
return committee[r % len(committee)]
```
#### `get_indexed_attestation`
@ -493,20 +526,6 @@ def get_indexed_attestation(beacon_state: BeaconState, attestation: Attestation)
)
```
#### `get_updated_gasprice`
```python
def get_updated_gasprice(prev_gasprice: Gwei, length: uint8) -> Gwei:
if length > TARGET_SHARD_BLOCK_SIZE:
delta = (prev_gasprice * (length - TARGET_SHARD_BLOCK_SIZE)
// TARGET_SHARD_BLOCK_SIZE // GASPRICE_ADJUSTMENT_COEFFICIENT)
return min(prev_gasprice + delta, MAX_GASPRICE)
else:
delta = (prev_gasprice * (TARGET_SHARD_BLOCK_SIZE - length)
// TARGET_SHARD_BLOCK_SIZE // GASPRICE_ADJUSTMENT_COEFFICIENT)
return max(prev_gasprice, MIN_GASPRICE + delta) - delta
```
#### `get_start_shard`
```python
@ -538,24 +557,6 @@ def get_offset_slots(state: BeaconState, shard: Shard) -> Sequence[Slot]:
### Predicates
#### `is_winning_attestation`
```python
def is_winning_attestation(state: BeaconState,
attestation: PendingAttestation,
committee_index: CommitteeIndex,
winning_root: Root) -> bool:
"""
Check if ``attestation`` helped contribute to the successful crosslink of
``winning_root`` formed by ``committee_index`` committee at the current slot.
"""
return (
attestation.slot == state.slot
and attestation.data.index == committee_index
and attestation.data.shard_transition_root == winning_root
)
```
#### Updated `is_valid_indexed_attestation`
Note that this replaces the Phase 0 `is_valid_indexed_attestation`.
@ -598,6 +599,39 @@ def is_valid_indexed_attestation(state: BeaconState, indexed_attestation: Indexe
return bls.AggregateVerify(zip(all_pubkeys, all_signing_roots), signature=attestation.signature)
```
#### `is_shard_attestation`
```python
def is_shard_attestation(state: BeaconState,
attestation: Attestation,
committee_index: CommitteeIndex) -> bool:
if not (
attestation.data.index == committee_index
and attestation.data.slot + MIN_ATTESTATION_INCLUSION_DELAY == state.slot # Must be on-time attestation
# TODO: MIN_ATTESTATION_INCLUSION_DELAY should always be 1
):
return False
return True
```
#### `is_winning_attestation`
```python
def is_winning_attestation(state: BeaconState,
attestation: PendingAttestation,
committee_index: CommitteeIndex,
winning_root: Root) -> bool:
"""
Check if ``attestation`` helped contribute to the successful crosslink of
``winning_root`` formed by ``committee_index`` committee at the current slot.
"""
return (
attestation.data.slot == state.slot
and attestation.data.index == committee_index
and attestation.data.shard_transition_root == winning_root
)
```
### Block processing
@ -606,12 +640,11 @@ def process_block(state: BeaconState, block: BeaconBlock) -> None:
process_block_header(state, block)
process_randao(state, block.body)
process_eth1_data(state, block.body)
verify_shard_transition_false_positives(state, block.body)
process_light_client_signatures(state, block.body)
process_operations(state, block.body)
verify_shard_transition_false_positives(state, block.body)
```
#### Operations
```python
@ -668,7 +701,7 @@ def validate_attestation(state: BeaconState, attestation: Attestation) -> None:
# Correct data root count
assert len(attestation.custody_bits_blocks) == len(get_offset_slots(state, shard))
# Correct parent block root
assert data.beacon_block_root == get_block_root_at_slot(state, get_previous_slot(state.slot))
assert data.beacon_block_root == get_block_root_at_slot(state, compute_previous_slot(state.slot))
# Type 2: no shard transition, no custody bits
else:
# Ensure delayed attestation
@ -684,6 +717,9 @@ def validate_attestation(state: BeaconState, attestation: Attestation) -> None:
```python
def apply_shard_transition(state: BeaconState, shard: Shard, transition: ShardTransition) -> None:
# TODO: only need to check it once when phase 1 starts
assert state.slot > PHASE_1_GENESIS_SLOT
# Correct data root count
offset_slots = get_offset_slots(state, shard)
assert (
@ -694,28 +730,32 @@ def apply_shard_transition(state: BeaconState, shard: Shard, transition: ShardTr
)
assert transition.start_slot == offset_slots[0]
# Reconstruct shard headers
headers = []
proposers = []
prev_gasprice = state.shard_states[shard].gasprice
shard_parent_root = state.shard_states[shard].latest_block_root
for i in range(len(offset_slots)):
if any(transition.shard_data_roots):
headers.append(ShardSignableHeader(
shard_block_length = transition.shard_block_lengths[i]
shard_state = transition.shard_states[i]
# Verify correct calculation of gas prices and slots
assert shard_state.gasprice == compute_updated_gasprice(prev_gasprice, shard_block_length)
assert shard_state.slot == offset_slots[i]
# Collect the non-empty proposals result
is_empty_proposal = shard_block_length == 0
if not is_empty_proposal:
proposal_index = get_shard_proposer_index(state, offset_slots[i], shard)
# Reconstruct shard headers
header = ShardBlockHeader(
shard_parent_root=shard_parent_root,
parent_hash=get_block_root_at_slot(state, get_previous_slot(state.slot)),
beacon_parent_root=get_block_root_at_slot(state, offset_slots[i]),
proposer_index=proposal_index,
slot=offset_slots[i],
body_root=transition.shard_data_roots[i]
))
proposers.append(get_shard_proposer_index(state, shard, offset_slots[i]))
shard_parent_root = hash_tree_root(headers[-1])
)
shard_parent_root = hash_tree_root(header)
headers.append(header)
proposers.append(proposal_index)
# Verify correct calculation of gas prices and slots
prev_gasprice = state.shard_states[shard].gasprice
for i in range(len(offset_slots)):
shard_state = transition.shard_states[i]
block_length = transition.shard_block_lengths[i]
assert shard_state.gasprice == get_updated_gasprice(prev_gasprice, block_length)
assert shard_state.slot == offset_slots[i]
prev_gasprice = shard_state.gasprice
pubkeys = [state.validators[proposer].pubkey for proposer in proposers]
@ -727,7 +767,7 @@ def apply_shard_transition(state: BeaconState, shard: Shard, transition: ShardTr
assert bls.AggregateVerify(zip(pubkeys, signing_roots), signature=transition.proposer_signature_aggregate)
# Save updated state
state.shard_states[shard] = transition.shard_states[-1]
state.shard_states[shard] = transition.shard_states[len(transition.shard_states) - 1]
state.shard_states[shard].slot = state.slot - 1
```
@ -750,6 +790,9 @@ def process_crosslink_for_shard(state: BeaconState,
for attestation in transition_attestations:
participants = get_attesting_indices(state, attestation.data, attestation.aggregation_bits)
transition_participants = transition_participants.union(participants)
assert attestation.data.head_shard_root == shard_transition.shard_data_roots[
len(shard_transition.shard_data_roots) - 1
]
enough_online_stake = (
get_total_balance(state, online_indices.intersection(transition_participants)) * 3 >=
@ -761,7 +804,6 @@ def process_crosslink_for_shard(state: BeaconState,
# Attestation <-> shard transition consistency
assert shard_transition_root == hash_tree_root(shard_transition)
assert attestation.data.head_shard_root == shard_transition.shard_data_roots[-1]
# Apply transition
apply_shard_transition(state, shard, shard_transition)
@ -772,11 +814,11 @@ def process_crosslink_for_shard(state: BeaconState,
increase_balance(state, beacon_proposer_index, proposer_reward)
states_slots_lengths = zip(
shard_transition.shard_states,
get_offset_slots(state, get_latest_slot_for_shard(state, shard)),
get_offset_slots(state, shard),
shard_transition.shard_block_lengths
)
for shard_state, slot, length in states_slots_lengths:
proposer_index = get_shard_proposer_index(state, shard, slot)
proposer_index = get_shard_proposer_index(state, slot, shard)
decrease_balance(state, proposer_index, shard_state.gasprice * length)
# Return winning transition root
@ -797,11 +839,12 @@ def process_crosslinks(state: BeaconState,
for committee_index in map(CommitteeIndex, range(committee_count)):
shard = compute_shard_from_committee_index(state, committee_index, state.slot)
# All attestations in the block for this committee/shard and current slot
shard_transition = shard_transitions[shard]
shard_attestations = [
attestation for attestation in attestations
if attestation.data.index == committee_index and attestation.data.slot == state.slot
if is_shard_attestation(state, attestation, committee_index)
]
shard_transition = shard_transitions[shard]
winning_root = process_crosslink_for_shard(state, committee_index, shard_transition, shard_attestations)
if winning_root != Root():
# Mark relevant pending attestations as creating a successful crosslink
@ -896,13 +939,17 @@ def process_light_client_signatures(state: BeaconState, block_body: BeaconBlockB
increase_balance(state, get_beacon_proposer_index(state), Gwei(total_reward // PROPOSER_REWARD_QUOTIENT))
slot = get_previous_slot(state.slot)
slot = compute_previous_slot(state.slot)
signing_root = compute_signing_root(get_block_root_at_slot(state, slot),
get_domain(state, DOMAIN_LIGHT_CLIENT, compute_epoch_at_slot(slot)))
if len(signer_pubkeys) == 0:
# TODO: handle the empty light_client_signature case?
assert block_body.light_client_signature == BLSSignature()
return
else:
assert bls.FastAggregateVerify(signer_pubkeys, signing_root, signature=block_body.light_client_signature)
```
### Epoch transition
This epoch transition overrides the phase0 epoch transition:

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@ -1,70 +0,0 @@
<!-- START doctoc generated TOC please keep comment here to allow auto update -->
<!-- DON'T EDIT THIS SECTION, INSTEAD RE-RUN doctoc TO UPDATE -->
**Table of Contents** *generated with [DocToc](https://github.com/thlorenz/doctoc)*
- [Ethereum 2.0 Phase 1 -- Shard Transition and Fraud Proofs](#ethereum-20-phase-1----shard-transition-and-fraud-proofs)
- [Table of contents](#table-of-contents)
- [Introduction](#introduction)
- [Fraud proofs](#fraud-proofs)
- [Shard state transition function](#shard-state-transition-function)
- [Honest committee member behavior](#honest-committee-member-behavior)
<!-- END doctoc generated TOC please keep comment here to allow auto update -->
# Ethereum 2.0 Phase 1 -- Shard Transition and Fraud Proofs
**Notice**: This document is a work-in-progress for researchers and implementers.
## Table of contents
<!-- TOC -->
TODO
<!-- /TOC -->
## Introduction
This document describes the shard transition function and fraud proofs as part of Phase 1 of Ethereum 2.0.
## Fraud proofs
TODO. The intent is to have a single universal fraud proof type, which contains the following parts:
1. An on-time attestation on some `shard` signing a `ShardTransition`
2. An index `i` of a particular position to focus on
3. The `ShardTransition` itself
4. The full body of the block
5. A Merkle proof to the `shard_states` in the parent block the attestation is referencing
The proof verifies that one of the two conditions is false:
1. `custody_bits[i][j] != generate_custody_bit(subkey, block_contents)` for any `j`
2. `execute_state_transition(shard, slot, transition.shard_states[i-1].data, hash_tree_root(parent), get_shard_proposer_index(state, shard, slot), block_contents) != transition.shard_states[i].data` (if `i=0` then instead use `parent.shard_states[shard][-1].data`)
## Shard state transition function
```python
def shard_state_transition(shard: Shard,
slot: Slot,
pre_state: Root,
previous_beacon_root: Root,
proposer_pubkey: BLSPubkey,
block_data: ByteList[MAX_SHARD_BLOCK_SIZE]) -> Root:
# We will add something more substantive in phase 2
return hash(pre_state + hash_tree_root(previous_beacon_root) + hash_tree_root(block_data))
```
## Honest committee member behavior
Suppose you are a committee member on shard `shard` at slot `current_slot`. Let `state` be the head beacon state you are building on, and let `QUARTER_PERIOD = SECONDS_PER_SLOT // 4`. `2 * QUARTER_PERIOD` seconds into slot `slot`, run the following procedure:
* Initialize `proposals = []`, `shard_states = []`, `shard_state = state.shard_states[shard][-1]`, `start_slot = shard_state.slot`.
* For `slot in get_offset_slots(state, start_slot)`, do the following:
* Look for all valid proposals for `slot`; that is, a Bytes `proposal` where `shard_state_transition(shard, slot, shard_state, get_block_root_at_slot(state, state.slot - 1), get_shard_proposer_index(state, shard, slot), proposal)` returns a result and does not throw an exception. Let `choices` be the set of non-empty valid proposals you discover.
* If `len(choices) == 0`, do `proposals.append(make_empty_proposal(shard_state, slot))`
* If `len(choices) == 1`, do `proposals.append(choices[0])`
* If `len(choices) > 1`, let `winning_proposal` be the proposal with the largest number of total attestations from slots in `state.shard_next_slots[shard]....slot-1` supporting it or any of its descendants, breaking ties by choosing the first proposal locally seen. Do `proposals.append(winning_proposal)`.
* If `proposals[-1]` is NOT an empty proposal, set `shard_state = shard_state_transition(shard, slot, shard_state, get_block_root_at_slot(state, state.slot - 1), get_shard_proposer_index(state, shard, slot), proposals[-1])` and do `shard_states.append(shard_state)`. If it is an empty proposal, leave `shard_state` unchanged.
Make an attestation using `shard_data_roots = [hash_tree_root(proposal) for proposal in proposals]` and `shard_state_roots = shard_states`.

View File

@ -7,7 +7,7 @@
- [Introduction](#introduction)
- [Configuration](#configuration)
- [Fork to Phase 1](#fork-to-phase-1)
- [Fork trigger.](#fork-trigger)
- [Fork trigger](#fork-trigger)
- [Upgrading the state](#upgrading-the-state)
<!-- END doctoc generated TOC please keep comment here to allow auto update -->
@ -35,17 +35,18 @@ Warning: this configuration is not definitive.
| Name | Value |
| - | - |
| `PHASE_1_FORK_VERSION` | `Version('0x01000000')` |
| `PHASE_1_GENESIS_SLOT` | `2**5` **TBD** |
| `INITIAL_ACTIVE_SHARDS` | `2**6` (= 64) |
## Fork to Phase 1
### Fork trigger.
### Fork trigger
TBD. Social consensus, along with state conditions such as epoch boundary, finality, deposits, active validator count, etc. may be part of the decision process to trigger the fork.
TBD. Social consensus, along with state conditions such as epoch boundary, finality, deposits, active validator count, etc. may be part of the decision process to trigger the fork. For now we assume the condition will be triggered at slot `PHASE_1_GENESIS_SLOT`, where `PHASE_1_GENESIS_SLOT % SLOTS_PER_EPOCH == 0`.
### Upgrading the state
After `process_slots` of Phase 0 finishes, but before the first Phase 1 block is processed, an irregular state change is made to upgrade to Phase 1.
After `process_slots` of Phase 0 finishes, if `state.slot == PHASE_1_GENESIS_SLOT`, an irregular state change is made to upgrade to Phase 1.
```python
def upgrade_to_phase1(pre: phase0.BeaconState) -> BeaconState:
@ -102,7 +103,7 @@ def upgrade_to_phase1(pre: phase0.BeaconState) -> BeaconState:
ShardState(
slot=pre.slot,
gasprice=MIN_GASPRICE,
data=Root(),
transition_digest=Root(),
latest_block_root=Root(),
) for i in range(INITIAL_ACTIVE_SHARDS)
),
@ -110,7 +111,7 @@ def upgrade_to_phase1(pre: phase0.BeaconState) -> BeaconState:
current_light_committee=CompactCommittee(), # computed after state creation
next_light_committee=CompactCommittee(),
# Custody game
custody_challenge_index=0,
exposed_derived_secrets=[] * EARLY_DERIVED_SECRET_PENALTY_MAX_FUTURE_EPOCHS,
# exposed_derived_secrets will fully default to zeroes
)
next_epoch = Epoch(epoch + 1)

View File

@ -0,0 +1,292 @@
# Ethereum 2.0 Phase 1 -- Shard Transition and Fraud Proofs
**Notice**: This document is a work-in-progress for researchers and implementers.
## Table of contents
<!-- START doctoc generated TOC please keep comment here to allow auto update -->
<!-- DON'T EDIT THIS SECTION, INSTEAD RE-RUN doctoc TO UPDATE -->
**Table of Contents** *generated with [DocToc](https://github.com/thlorenz/doctoc)*
- [Introduction](#introduction)
- [Helper functions](#helper-functions)
- [Misc](#misc)
- [Shard block verification functions](#shard-block-verification-functions)
- [Shard state transition](#shard-state-transition)
- [Fraud proofs](#fraud-proofs)
- [Verifying the proof](#verifying-the-proof)
- [Honest committee member behavior](#honest-committee-member-behavior)
- [Helper functions](#helper-functions-1)
- [Make attestations](#make-attestations)
<!-- END doctoc generated TOC please keep comment here to allow auto update -->
## Introduction
This document describes the shard transition function and fraud proofs as part of Phase 1 of Ethereum 2.0.
## Helper functions
### Misc
```python
def compute_shard_transition_digest(beacon_state: BeaconState,
shard_state: ShardState,
beacon_parent_root: Root,
shard_body_root: Root) -> Bytes32:
# TODO: use SSZ hash tree root
return hash(
hash_tree_root(shard_state) + beacon_parent_root + shard_body_root
)
```
### Shard block verification functions
```python
def verify_shard_block_message(beacon_state: BeaconState,
shard_state: ShardState,
block: ShardBlock,
slot: Slot,
shard: Shard) -> bool:
assert block.shard_parent_root == shard_state.latest_block_root
assert block.slot == slot
assert block.proposer_index == get_shard_proposer_index(beacon_state, slot, shard)
assert 0 < len(block.body) <= MAX_SHARD_BLOCK_SIZE
return True
```
```python
def verify_shard_block_signature(beacon_state: BeaconState,
signed_block: SignedShardBlock) -> bool:
proposer = beacon_state.validators[signed_block.message.proposer_index]
domain = get_domain(beacon_state, DOMAIN_SHARD_PROPOSAL, compute_epoch_at_slot(signed_block.message.slot))
signing_root = compute_signing_root(signed_block.message, domain)
return bls.Verify(proposer.pubkey, signing_root, signed_block.signature)
```
## Shard state transition
```python
def shard_state_transition(beacon_state: BeaconState,
shard_state: ShardState,
block: ShardBlock) -> None:
# Update shard state
prev_gasprice = shard_state.gasprice
if len(block.body) == 0:
latest_block_root = shard_state.latest_block_root
else:
latest_block_root = hash_tree_root(block)
shard_state.transition_digest = compute_shard_transition_digest(
beacon_state,
shard_state,
block.beacon_parent_root,
block.body,
)
shard_state.gasprice = compute_updated_gasprice(prev_gasprice, len(block.body))
shard_state.slot = block.slot
shard_state.latest_block_root = latest_block_root
```
We have a pure function `get_post_shard_state` for describing the fraud proof verification and honest validator behavior.
```python
def get_post_shard_state(beacon_state: BeaconState,
shard_state: ShardState,
block: ShardBlock) -> ShardState:
"""
A pure function that returns a new post ShardState instead of modifying the given `shard_state`.
"""
post_state = shard_state.copy()
shard_state_transition(beacon_state, post_state, block)
return post_state
```
## Fraud proofs
### Verifying the proof
TODO. The intent is to have a single universal fraud proof type, which contains the following parts:
1. An on-time attestation `attestation` on some shard `shard` signing a `transition: ShardTransition`
2. An index `offset_index` of a particular position to focus on
3. The `transition: ShardTransition` itself
4. The full body of the shard block `shard_block`
5. A Merkle proof to the `shard_states` in the parent block the attestation is referencing
6. The `subkey` to generate the custody bit
Call the following function to verify the proof:
```python
def is_valid_fraud_proof(beacon_state: BeaconState,
attestation: Attestation,
offset_index: uint64,
transition: ShardTransition,
block: ShardBlock,
subkey: BLSPubkey,
beacon_parent_block: BeaconBlock) -> bool:
# 1. Check if `custody_bits[offset_index][j] != generate_custody_bit(subkey, block_contents)` for any `j`.
custody_bits = attestation.custody_bits_blocks
for j in range(custody_bits[offset_index]):
if custody_bits[offset_index][j] != generate_custody_bit(subkey, block):
return True
# 2. Check if the shard state transition result is wrong between
# `transition.shard_states[offset_index - 1]` to `transition.shard_states[offset_index]`.
if offset_index == 0:
shard = get_shard(beacon_state, attestation)
shard_state = beacon_parent_block.shard_transitions[shard].shard_states[-1]
else:
shard_state = transition.shard_states[offset_index - 1] # Not doing the actual state updates here.
shard_state = get_post_shard_state(beacon_state, shard_state, block)
if shard_state.transition_digest != transition.shard_states[offset_index].transition_digest:
return True
return False
```
```python
def generate_custody_bit(subkey: BLSPubkey, block: ShardBlock) -> bool:
# TODO
...
```
## Honest committee member behavior
### Helper functions
```python
def get_winning_proposal(beacon_state: BeaconState, proposals: Sequence[SignedShardBlock]) -> SignedShardBlock:
# TODO: Let `winning_proposal` be the proposal with the largest number of total attestations from slots in
# `state.shard_next_slots[shard]....slot-1` supporting it or any of its descendants, breaking ties by choosing
# the first proposal locally seen. Do `proposals.append(winning_proposal)`.
return proposals[-1] # stub
```
```python
def compute_shard_body_roots(proposals: Sequence[SignedShardBlock]) -> Sequence[Root]:
return [hash_tree_root(proposal.message.body) for proposal in proposals]
```
```python
def get_proposal_choices_at_slot(beacon_state: BeaconState,
shard_state: ShardState,
slot: Slot,
shard: Shard,
shard_blocks: Sequence[SignedShardBlock],
validate_signature: bool=True) -> Sequence[SignedShardBlock]:
"""
Return the valid shard blocks at the given ``slot``.
Note that this function doesn't change the state.
"""
choices = []
shard_blocks_at_slot = [block for block in shard_blocks if block.message.slot == slot]
for block in shard_blocks_at_slot:
try:
# Verify block message and signature
# TODO these validations should have been checked upon receiving shard blocks.
assert verify_shard_block_message(beacon_state, shard_state, block.message, slot, shard)
if validate_signature:
assert verify_shard_block_signature(beacon_state, block)
shard_state = get_post_shard_state(beacon_state, shard_state, block.message)
except Exception:
pass # TODO: throw error in the test helper
else:
choices.append(block)
return choices
```
```python
def get_proposal_at_slot(beacon_state: BeaconState,
shard_state: ShardState,
slot: Shard,
shard: Shard,
shard_blocks: Sequence[SignedShardBlock],
validate_signature: bool=True) -> Tuple[SignedShardBlock, ShardState]:
"""
Return ``proposal``, ``shard_state`` of the given ``slot``.
Note that this function doesn't change the state.
"""
choices = get_proposal_choices_at_slot(
beacon_state=beacon_state,
shard_state=shard_state,
slot=slot,
shard=shard,
shard_blocks=shard_blocks,
validate_signature=validate_signature,
)
if len(choices) == 0:
block = ShardBlock(slot=slot)
proposal = SignedShardBlock(message=block)
elif len(choices) == 1:
proposal = choices[0]
else:
proposal = get_winning_proposal(beacon_state, choices)
# Apply state transition
shard_state = get_post_shard_state(beacon_state, shard_state, proposal.message)
return proposal, shard_state
```
```python
def get_shard_state_transition_result(
beacon_state: BeaconState,
shard: Shard,
shard_blocks: Sequence[SignedShardBlock],
validate_signature: bool=True,
) -> Tuple[Sequence[SignedShardBlock], Sequence[ShardState], Sequence[Root]]:
proposals = []
shard_states = []
shard_state = beacon_state.shard_states[shard]
for slot in get_offset_slots(beacon_state, shard):
proposal, shard_state = get_proposal_at_slot(
beacon_state=beacon_state,
shard_state=shard_state,
slot=slot,
shard=shard,
shard_blocks=shard_blocks,
validate_signature=validate_signature,
)
shard_states.append(shard_state)
proposals.append(proposal)
shard_data_roots = compute_shard_body_roots(proposals)
return proposals, shard_states, shard_data_roots
```
### Make attestations
Suppose you are a committee member on shard `shard` at slot `current_slot` and you have received shard blocks `shard_blocks` since the latest successful crosslink for `shard` into the beacon chain. Let `state` be the head beacon state you are building on, and let `QUARTER_PERIOD = SECONDS_PER_SLOT // 4`. `2 * QUARTER_PERIOD` seconds into slot `current_slot`, run `get_shard_transition(beacon_state, shard, shard_blocks)` to get `shard_transition`.
```python
def get_shard_transition(beacon_state: BeaconState,
shard: Shard,
shard_blocks: Sequence[SignedShardBlock]) -> ShardTransition:
offset_slots = get_offset_slots(beacon_state, shard)
start_slot = offset_slots[0]
proposals, shard_states, shard_data_roots = get_shard_state_transition_result(beacon_state, shard, shard_blocks)
assert len(proposals) > 0
assert len(shard_data_roots) > 0
shard_block_lengths = []
proposer_signatures = []
for proposal in proposals:
shard_block_lengths.append(len(proposal.message.body))
if proposal.signature != BLSSignature():
proposer_signatures.append(proposal.signature)
proposer_signature_aggregate = bls.Aggregate(proposer_signatures)
return ShardTransition(
start_slot=start_slot,
shard_block_lengths=shard_block_lengths,
shard_data_roots=shard_data_roots,
shard_states=shard_states,
proposer_signature_aggregate=proposer_signature_aggregate,
)
```

View File

@ -1,7 +1,7 @@
from typing import List
from eth2spec.test.context import expect_assertion_error, PHASE0
from eth2spec.test.helpers.state import state_transition_and_sign_block
from eth2spec.test.context import expect_assertion_error, PHASE0, PHASE1
from eth2spec.test.helpers.state import state_transition_and_sign_block, next_slot, transition_to
from eth2spec.test.helpers.block import build_empty_block_for_next_slot
from eth2spec.test.helpers.keys import privkeys
from eth2spec.utils import bls
@ -43,7 +43,7 @@ def run_attestation_processing(spec, state, attestation, valid=True):
yield 'post', state
def build_attestation_data(spec, state, slot, index):
def build_attestation_data(spec, state, slot, index, shard_transition=None, on_time=True):
assert state.slot >= slot
if slot == state.slot:
@ -66,7 +66,7 @@ def build_attestation_data(spec, state, slot, index):
source_epoch = state.current_justified_checkpoint.epoch
source_root = state.current_justified_checkpoint.root
return spec.AttestationData(
attestation_data = spec.AttestationData(
slot=slot,
index=index,
beacon_block_root=block_root,
@ -74,11 +74,34 @@ def build_attestation_data(spec, state, slot, index):
target=spec.Checkpoint(epoch=spec.compute_epoch_at_slot(slot), root=epoch_boundary_root),
)
if spec.fork == PHASE1:
if shard_transition is not None:
lastest_shard_data_root_index = len(shard_transition.shard_data_roots) - 1
attestation_data.head_shard_root = shard_transition.shard_data_roots[lastest_shard_data_root_index]
attestation_data.shard_transition_root = shard_transition.hash_tree_root()
else:
# No shard transition
shard = spec.get_shard(state, spec.Attestation(data=attestation_data))
if on_time:
temp_state = state.copy()
next_slot(spec, temp_state)
shard_transition = spec.get_shard_transition(temp_state, shard, [])
lastest_shard_data_root_index = len(shard_transition.shard_data_roots) - 1
attestation_data.head_shard_root = shard_transition.shard_data_roots[lastest_shard_data_root_index]
attestation_data.shard_transition_root = shard_transition.hash_tree_root()
else:
attestation_data.head_shard_root = state.shard_states[shard].transition_digest
attestation_data.shard_transition_root = spec.Root()
return attestation_data
def convert_to_valid_on_time_attestation(spec, state, attestation, signed=False):
shard = spec.get_shard(state, attestation)
offset_slots = spec.compute_offset_slots(spec.get_latest_slot_for_shard(state, shard), state.slot + 1)
for offset_slot in offset_slots:
offset_slots = spec.compute_offset_slots(
spec.get_latest_slot_for_shard(state, shard),
attestation.data.slot + spec.MIN_ATTESTATION_INCLUSION_DELAY,
)
for _ in offset_slots:
attestation.custody_bits_blocks.append(
Bitlist[spec.MAX_VALIDATORS_PER_COMMITTEE]([0 for _ in attestation.aggregation_bits])
)
@ -89,7 +112,7 @@ def convert_to_valid_on_time_attestation(spec, state, attestation, signed=False)
return attestation
def get_valid_on_time_attestation(spec, state, slot=None, index=None, signed=False):
def get_valid_on_time_attestation(spec, state, slot=None, index=None, shard_transition=None, signed=False):
'''
Construct on-time attestation for next slot
'''
@ -98,7 +121,15 @@ def get_valid_on_time_attestation(spec, state, slot=None, index=None, signed=Fal
if index is None:
index = 0
return get_valid_attestation(spec, state, slot=slot, index=index, signed=signed, on_time=True)
return get_valid_attestation(
spec,
state,
slot=slot,
index=index,
shard_transition=shard_transition,
signed=signed,
on_time=True,
)
def get_valid_late_attestation(spec, state, slot=None, index=None, signed=False):
@ -113,13 +144,22 @@ def get_valid_late_attestation(spec, state, slot=None, index=None, signed=False)
return get_valid_attestation(spec, state, slot=slot, index=index, signed=signed, on_time=False)
def get_valid_attestation(spec, state, slot=None, index=None, empty=False, signed=False, on_time=True):
def get_valid_attestation(spec,
state,
slot=None,
index=None,
shard_transition=None,
empty=False,
signed=False,
on_time=True):
if slot is None:
slot = state.slot
if index is None:
index = 0
attestation_data = build_attestation_data(spec, state, slot, index)
attestation_data = build_attestation_data(
spec, state, slot=slot, index=index, shard_transition=shard_transition, on_time=on_time
)
beacon_committee = spec.get_beacon_committee(
state,
@ -138,7 +178,7 @@ def get_valid_attestation(spec, state, slot=None, index=None, empty=False, signe
if signed:
sign_attestation(spec, state, attestation)
if spec.fork == 'phase1' and on_time:
if spec.fork == PHASE1 and on_time:
attestation = convert_to_valid_on_time_attestation(spec, state, attestation, signed)
return attestation
@ -210,7 +250,7 @@ def get_attestation_custody_signature(spec, state, attestation_data, block_index
def sign_attestation(spec, state, attestation):
if spec.fork == 'phase1' and any(attestation.custody_bits_blocks):
if spec.fork == PHASE1 and any(attestation.custody_bits_blocks):
sign_on_time_attestation(spec, state, attestation)
return
@ -274,7 +314,21 @@ def next_epoch_with_attestations(spec,
spec, post_state, slot_to_attest, index=index, signed=True, on_time=False)
block.body.attestations.append(prev_attestation)
if spec.fork == PHASE1:
fill_block_shard_transitions_by_attestations(spec, post_state, block)
signed_block = state_transition_and_sign_block(spec, post_state, block)
signed_blocks.append(signed_block)
return state, signed_blocks, post_state
def fill_block_shard_transitions_by_attestations(spec, state, block):
block.body.shard_transitions = [spec.ShardTransition()] * spec.MAX_SHARDS
for attestation in block.body.attestations:
shard = spec.get_shard(state, attestation)
if attestation.data.slot == state.slot:
temp_state = state.copy()
transition_to(spec, temp_state, slot=block.slot)
shard_transition = spec.get_shard_transition(temp_state, shard, [])
block.body.shard_transitions[shard] = shard_transition

View File

@ -71,24 +71,31 @@ def build_empty_block(spec, state, slot=None):
"""
if slot is None:
slot = state.slot
if slot < state.slot:
raise Exception("build_empty_block cannot build blocks for past slots")
if slot > state.slot:
# transition forward in copied state to grab relevant data from state
state = state.copy()
spec.process_slots(state, slot)
state, parent_block_root = get_state_and_beacon_parent_root_at_slot(spec, state, slot)
empty_block = spec.BeaconBlock()
empty_block.slot = slot
empty_block.proposer_index = spec.get_beacon_proposer_index(state)
empty_block.body.eth1_data.deposit_count = state.eth1_deposit_index
previous_block_header = state.latest_block_header.copy()
if previous_block_header.state_root == spec.Root():
previous_block_header.state_root = hash_tree_root(state)
empty_block.parent_root = hash_tree_root(previous_block_header)
empty_block.parent_root = parent_block_root
apply_randao_reveal(spec, state, empty_block)
return empty_block
def build_empty_block_for_next_slot(spec, state):
return build_empty_block(spec, state, state.slot + 1)
def get_state_and_beacon_parent_root_at_slot(spec, state, slot):
if slot < state.slot:
raise Exception("Cannot build blocks for past slots")
if slot > state.slot:
# transition forward in copied state to grab relevant data from state
state = state.copy()
spec.process_slots(state, slot)
previous_block_header = state.latest_block_header.copy()
if previous_block_header.state_root == spec.Root():
previous_block_header.state_root = hash_tree_root(state)
beacon_parent_root = hash_tree_root(previous_block_header)
return state, beacon_parent_root

View File

@ -0,0 +1,28 @@
from eth2spec.test.context import expect_assertion_error
def run_crosslinks_processing(spec, state, shard_transitions, attestations, valid=True):
"""
Run ``process_attestation``, yielding:
- pre-state ('pre')
- shard_transitions ('shard_transitions')
- attestations ('attestations')
- post-state ('post').
If ``valid == False``, run expecting ``AssertionError``
"""
# yield pre-state
yield 'pre', state
yield 'shard_transitions', shard_transitions
yield 'attestations', attestations
# If the attestation is invalid, processing is aborted, and there is no post-state.
if not valid:
expect_assertion_error(lambda: spec.process_crosslinks(state, shard_transitions, attestations))
yield 'post', None
return
# process crosslinks
spec.process_crosslinks(state, shard_transitions, attestations)
# yield post-state
yield 'post', state

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@ -1,63 +0,0 @@
from eth2spec.utils.ssz.ssz_typing import Bitlist
from eth2spec.utils import bls
from eth2spec.test.helpers.keys import privkeys
import eth2spec.test.helpers.attestations as phase0_attestations
def get_valid_on_time_attestation(spec, state, index=None, signed=False):
'''
Construct on-time attestation for next slot
'''
if index is None:
index = 0
attestation = phase0_attestations.get_valid_attestation(spec, state, state.slot, index, False)
shard = spec.get_shard(state, attestation)
offset_slots = spec.compute_offset_slots(spec.get_latest_slot_for_shard(state, shard), state.slot + 1)
for _ in offset_slots:
attestation.custody_bits_blocks.append(
Bitlist[spec.MAX_VALIDATORS_PER_COMMITTEE]([0 for _ in attestation.aggregation_bits])
)
if signed:
sign_attestation(spec, state, attestation)
return attestation
def sign_attestation(spec, state, attestation):
if not any(attestation.custody_bits_blocks):
phase0_attestations.sign_attestation(spec, state, attestation)
return
committee = spec.get_beacon_committee(state, attestation.data.slot, attestation.data.index)
signatures = []
for block_index, custody_bits in enumerate(attestation.custody_bits_blocks):
for participant, abit, cbit in zip(committee, attestation.aggregation_bits, custody_bits):
if not abit:
continue
signatures.append(get_attestation_custody_signature(
spec,
state,
attestation.data,
block_index,
cbit,
privkeys[participant]
))
attestation.signature = bls.Aggregate(signatures)
def get_attestation_custody_signature(spec, state, attestation_data, block_index, bit, privkey):
domain = spec.get_domain(state, spec.DOMAIN_BEACON_ATTESTER, attestation_data.target.epoch)
signing_root = spec.compute_signing_root(
spec.AttestationCustodyBitWrapper(
attestation_data.hash_tree_root(),
block_index,
bit,
),
domain,
)
return bls.Sign(privkey, signing_root)

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@ -1,71 +0,0 @@
from eth2spec.test.helpers.keys import privkeys
from eth2spec.utils import bls
from eth2spec.utils.bls import only_with_bls
from eth2spec.utils.ssz.ssz_impl import (
hash_tree_root,
)
from .attestations import (
sign_shard_attestation,
)
@only_with_bls()
def sign_shard_block(spec, beacon_state, shard_state, block, proposer_index=None):
if proposer_index is None:
proposer_index = spec.get_shard_proposer_index(beacon_state, shard_state.shard, block.slot)
privkey = privkeys[proposer_index]
domain = spec.get_domain(beacon_state, spec.DOMAIN_SHARD_PROPOSER, spec.compute_epoch_of_shard_slot(block.slot))
signing_root = spec.compute_signing_root(block, domain)
block.signature = bls.Sign(privkey, signing_root)
def build_empty_shard_block(spec,
beacon_state,
shard_state,
slot,
signed=False,
full_attestation=False):
if slot is None:
slot = shard_state.slot
previous_beacon_header = beacon_state.latest_block_header.copy()
if previous_beacon_header.state_root == spec.Bytes32():
previous_beacon_header.state_root = beacon_state.hash_tree_root()
beacon_block_root = hash_tree_root(previous_beacon_header)
previous_block_header = shard_state.latest_block_header.copy()
if previous_block_header.state_root == spec.Bytes32():
previous_block_header.state_root = shard_state.hash_tree_root()
parent_root = hash_tree_root(previous_block_header)
block = spec.ShardBlock(
shard=shard_state.shard,
slot=slot,
beacon_block_root=beacon_block_root,
parent_root=parent_root,
block_size_sum=shard_state.block_size_sum + spec.SHARD_HEADER_SIZE,
)
if full_attestation:
shard_committee = spec.get_shard_committee(beacon_state, shard_state.shard, block.slot)
block.aggregation_bits = list(
(True,) * len(shard_committee) +
(False,) * (spec.MAX_PERIOD_COMMITTEE_SIZE * 2 - len(shard_committee))
)
else:
shard_committee = []
block.attestations = sign_shard_attestation(
spec,
beacon_state,
shard_state,
block,
participants=shard_committee,
)
if signed:
sign_shard_block(spec, beacon_state, shard_state, block)
return block

View File

@ -1,18 +0,0 @@
from eth2spec.test.helpers.phase1.shard_block import sign_shard_block
def configure_shard_state(spec, beacon_state, shard=0):
beacon_state.slot = spec.Slot(spec.SHARD_GENESIS_EPOCH * spec.SLOTS_PER_EPOCH)
shard_state = spec.get_genesis_shard_state(spec.Shard(shard))
shard_state.slot = spec.ShardSlot(spec.SHARD_GENESIS_EPOCH * spec.SHARD_SLOTS_PER_EPOCH)
return beacon_state, shard_state
def shard_state_transition_and_sign_block(spec, beacon_state, shard_state, block):
"""
Shard state transition via the provided ``block``
then package the block with the state root and signature.
"""
spec.shard_state_transition(beacon_state, shard_state, block)
block.state_root = shard_state.hash_tree_root()
sign_shard_block(spec, beacon_state, shard_state, block)

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@ -0,0 +1,85 @@
from eth2spec.test.helpers.attestations import get_valid_on_time_attestation
from eth2spec.test.helpers.block import get_state_and_beacon_parent_root_at_slot
from eth2spec.test.helpers.state import transition_to
from eth2spec.test.helpers.keys import privkeys
from eth2spec.utils import bls
from eth2spec.utils.bls import only_with_bls
@only_with_bls()
def sign_shard_block(spec, beacon_state, shard, block, proposer_index=None):
slot = block.message.slot
if proposer_index is None:
proposer_index = spec.get_shard_proposer_index(beacon_state, slot, shard)
privkey = privkeys[proposer_index]
domain = spec.get_domain(beacon_state, spec.DOMAIN_SHARD_PROPOSAL, spec.compute_epoch_at_slot(slot))
signing_root = spec.compute_signing_root(block.message, domain)
block.signature = bls.Sign(privkey, signing_root)
def build_shard_block(spec,
beacon_state,
shard,
slot=None,
body=None,
signed=False):
shard_state = beacon_state.shard_states[shard]
if slot is None:
slot = shard_state.slot + 1
if body is None:
body = b'\x56' * 128
proposer_index = spec.get_shard_proposer_index(beacon_state, slot, shard)
beacon_state, beacon_parent_root = get_state_and_beacon_parent_root_at_slot(spec, beacon_state, slot)
block = spec.ShardBlock(
shard_parent_root=shard_state.latest_block_root,
beacon_parent_root=beacon_parent_root,
slot=slot,
proposer_index=proposer_index,
body=body,
)
signed_block = spec.SignedShardBlock(
message=block,
)
if signed:
sign_shard_block(spec, beacon_state, shard, signed_block, proposer_index=proposer_index)
return signed_block
def build_shard_transitions_till_slot(spec, state, shard_blocks, on_time_slot):
temp_state = state.copy()
transition_to(spec, temp_state, on_time_slot)
shard_transitions = [spec.ShardTransition()] * spec.MAX_SHARDS
for shard, blocks in shard_blocks.items():
offset_slots = spec.get_offset_slots(temp_state, shard)
len_offset_slots = len(offset_slots)
assert len_offset_slots == on_time_slot - state.shard_states[shard].slot - 1
shard_transition = spec.get_shard_transition(temp_state, shard, blocks)
if len(blocks) > 0:
shard_block_root = blocks[-1].message.hash_tree_root()
assert shard_transition.shard_states[len_offset_slots - 1].latest_block_root == shard_block_root
assert shard_transition.shard_states[len_offset_slots - 1].slot == offset_slots[-1]
shard_transitions[shard] = shard_transition
return shard_transitions
def build_attestation_with_shard_transition(spec, state, index, on_time_slot, shard_transition=None):
temp_state = state.copy()
transition_to(spec, temp_state, on_time_slot - 1)
attestation = get_valid_on_time_attestation(
spec,
temp_state,
index=index,
shard_transition=shard_transition,
signed=True,
)
assert attestation.data.slot == temp_state.slot
if shard_transition is not None:
assert attestation.data.shard_transition_root == shard_transition.hash_tree_root()
return attestation

View File

@ -30,6 +30,16 @@ def transition_to(spec, state, slot):
assert state.slot == slot
def transition_to_valid_shard_slot(spec, state):
"""
Transition to slot `spec.PHASE_1_GENESIS_SLOT + 1` and fork at `spec.PHASE_1_GENESIS_SLOT`.
"""
transition_to(spec, state, spec.PHASE_1_GENESIS_SLOT)
state = spec.upgrade_to_phase1(state) # `upgrade_to_phase1` is a pure function
next_slot(spec, state)
return state
def next_epoch(spec, state):
"""
Transition to the start slot of the next epoch

View File

@ -6,10 +6,13 @@ from eth2spec.test.helpers.block import build_empty_block_for_next_slot, build_e
from eth2spec.test.helpers.keys import privkeys, pubkeys
from eth2spec.test.helpers.attester_slashings import get_valid_attester_slashing, get_indexed_attestation_participants
from eth2spec.test.helpers.proposer_slashings import get_valid_proposer_slashing, check_proposer_slashing_effect
from eth2spec.test.helpers.attestations import get_valid_attestation
from eth2spec.test.helpers.attestations import get_valid_attestation, fill_block_shard_transitions_by_attestations
from eth2spec.test.helpers.deposits import prepare_state_and_deposit
from eth2spec.test.context import spec_state_test, with_all_phases, expect_assertion_error, always_bls, with_phases
from eth2spec.test.context import (
spec_state_test, with_all_phases, expect_assertion_error, always_bls, with_phases,
PHASE1
)
@with_all_phases
@ -492,12 +495,14 @@ def test_attestation(spec, state):
yield 'pre', state
attestation = get_valid_attestation(spec, state, signed=True)
attestation = get_valid_attestation(spec, state, signed=True, on_time=True)
# Add to state via block transition
pre_current_attestations_len = len(state.current_epoch_attestations)
attestation_block = build_empty_block(spec, state, state.slot + spec.MIN_ATTESTATION_INCLUSION_DELAY)
attestation_block.body.attestations.append(attestation)
if spec.fork == PHASE1:
fill_block_shard_transitions_by_attestations(spec, state, attestation_block)
signed_attestation_block = state_transition_and_sign_block(spec, state, attestation_block)
assert len(state.current_epoch_attestations) == pre_current_attestations_len + 1

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@ -0,0 +1,73 @@
from eth2spec.test.context import (
PHASE0,
with_all_phases_except,
spec_state_test,
always_bls,
)
from eth2spec.test.helpers.crosslinks import run_crosslinks_processing
from eth2spec.test.helpers.shard_block import (
build_attestation_with_shard_transition,
build_shard_block,
build_shard_transitions_till_slot,
)
from eth2spec.test.helpers.state import transition_to, transition_to_valid_shard_slot
def run_basic_crosslink_tests(spec, state, target_len_offset_slot, valid=True):
state = transition_to_valid_shard_slot(spec, state)
# At the beginning, let `x = state.slot`, `state.shard_states[shard].slot == x - 1`
slot_x = state.slot
committee_index = spec.CommitteeIndex(0)
shard = spec.compute_shard_from_committee_index(state, committee_index, state.slot)
assert state.shard_states[shard].slot == slot_x - 1
# Create SignedShardBlock
body = b'\x56' * spec.MAX_SHARD_BLOCK_SIZE
shard_block = build_shard_block(spec, state, shard, body=body, signed=True)
shard_blocks = [shard_block]
# Create a shard_transitions that would be included at beacon block `state.slot + target_len_offset_slot`
shard_transitions = build_shard_transitions_till_slot(
spec,
state,
shard_blocks={shard: shard_blocks},
on_time_slot=state.slot + target_len_offset_slot,
)
shard_transition = shard_transitions[shard]
# Create an attestation that would be included at beacon block `state.slot + target_len_offset_slot`
attestation = build_attestation_with_shard_transition(
spec,
state,
index=committee_index,
on_time_slot=state.slot + target_len_offset_slot,
shard_transition=shard_transition,
)
pre_gasprice = state.shard_states[shard].gasprice
transition_to(spec, state, state.slot + target_len_offset_slot)
pre_shard_state = state.shard_states[shard]
yield from run_crosslinks_processing(spec, state, shard_transitions, [attestation], valid=valid)
if valid:
# After state transition,
assert state.slot == slot_x + target_len_offset_slot
shard_state = state.shard_states[shard]
assert shard_state != pre_shard_state
assert shard_state == shard_transition.shard_states[len(shard_transition.shard_states) - 1]
if target_len_offset_slot == 1:
assert shard_state.gasprice > pre_gasprice
@with_all_phases_except([PHASE0])
@spec_state_test
@always_bls
def test_basic_crosslinks(spec, state):
yield from run_basic_crosslink_tests(spec, state, target_len_offset_slot=1, valid=True)
@with_all_phases_except([PHASE0])
@spec_state_test
@always_bls
def test_multiple_offset_slots(spec, state):
yield from run_basic_crosslink_tests(spec, state, target_len_offset_slot=3, valid=True)

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@ -0,0 +1,107 @@
from typing import Dict, Sequence
from eth2spec.test.context import (
PHASE0,
with_all_phases_except,
spec_state_test,
always_bls,
)
from eth2spec.test.helpers.block import build_empty_block
from eth2spec.test.helpers.shard_block import (
build_attestation_with_shard_transition,
build_shard_block,
build_shard_transitions_till_slot,
)
from eth2spec.test.helpers.state import state_transition_and_sign_block, transition_to_valid_shard_slot
def run_beacon_block_with_shard_blocks(spec, state, shard_blocks, target_len_offset_slot, committee_index, valid=True):
shard_transitions = build_shard_transitions_till_slot(
spec, state, shard_blocks, on_time_slot=state.slot + target_len_offset_slot
)
attestations = [
build_attestation_with_shard_transition(
spec,
state,
on_time_slot=state.slot + target_len_offset_slot,
index=committee_index,
shard_transition=shard_transitions[shard],
)
for shard in shard_blocks.keys()
]
# Propose beacon block at slot `x + 1`
beacon_block = build_empty_block(spec, state, slot=state.slot + target_len_offset_slot)
beacon_block.body.attestations = attestations
beacon_block.body.shard_transitions = shard_transitions
pre_shard_states = state.shard_states.copy()
yield 'pre', state.copy()
yield 'block', beacon_block
state_transition_and_sign_block(spec, state, beacon_block)
if valid:
yield 'post', state
else:
yield 'post', None
return
for shard in range(spec.get_active_shard_count(state)):
post_shard_state = state.shard_states[shard]
if shard in shard_blocks:
# Shard state has been changed to state_transition result
assert post_shard_state == shard_transitions[shard].shard_states[
len(shard_transitions[shard].shard_states) - 1
]
assert beacon_block.slot == shard_transitions[shard].shard_states[0].slot + target_len_offset_slot
assert post_shard_state.slot == state.slot - 1
if len(shard_blocks[shard]) == 0:
# `latest_block_root` is the same
assert post_shard_state.latest_block_root == pre_shard_states[shard].latest_block_root
@with_all_phases_except([PHASE0])
@spec_state_test
@always_bls
def test_process_beacon_block_with_normal_shard_transition(spec, state):
state = transition_to_valid_shard_slot(spec, state)
target_len_offset_slot = 1
committee_index = spec.CommitteeIndex(0)
shard = spec.compute_shard_from_committee_index(state, committee_index, state.slot)
assert state.shard_states[shard].slot == state.slot - 1
pre_gasprice = state.shard_states[shard].gasprice
# Create SignedShardBlock at slot `shard_state.slot + 1`
body = b'\x56' * spec.MAX_SHARD_BLOCK_SIZE
shard_block = build_shard_block(spec, state, shard, body=body, signed=True)
shard_blocks: Dict[spec.Shard, Sequence[spec.SignedShardBlock]] = {shard: [shard_block]}
yield from run_beacon_block_with_shard_blocks(spec, state, shard_blocks, target_len_offset_slot, committee_index)
shard_state = state.shard_states[shard]
if target_len_offset_slot == 1 and len(shard_blocks) > 0:
assert shard_state.gasprice > pre_gasprice
@with_all_phases_except([PHASE0])
@spec_state_test
@always_bls
def test_process_beacon_block_with_empty_proposal_transition(spec, state):
state = transition_to_valid_shard_slot(spec, state)
target_len_offset_slot = 1
committee_index = spec.CommitteeIndex(0)
shard = spec.compute_shard_from_committee_index(state, committee_index, state.slot)
assert state.shard_states[shard].slot == state.slot - 1
# No new shard block
shard_blocks = {}
pre_gasprice = state.shard_states[shard].gasprice
yield from run_beacon_block_with_shard_blocks(spec, state, shard_blocks, target_len_offset_slot, committee_index)
if target_len_offset_slot == 1 and len(shard_blocks) > 0:
assert state.shard_states[shard].gasprice > pre_gasprice

View File

@ -5,7 +5,7 @@ from gen_base import gen_runner, gen_typing
from gen_from_tests.gen import generate_from_tests
from eth2spec.test.context import PHASE0
from eth2spec.test.sanity import test_blocks, test_slots
from eth2spec.test.phase_0.sanity import test_blocks, test_slots
from eth2spec.config import config_util
from eth2spec.phase0 import spec as spec_phase0
from eth2spec.phase1 import spec as spec_phase1