eth2.0-specs/specs/lightclient/sync-protocol.md

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# Minimal Light Client Design
**Notice**: This document is a work-in-progress for researchers and implementers.
## Table of contents
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- [Introduction](#introduction)
- [Constants](#constants)
- [Containers](#containers)
- [`LightClientUpdate`](#lightclientupdate)
- [Helpers](#helpers)
- [`LightClientMemory`](#lightclientmemory)
- [Light client state updates](#light-client-state-updates)
- [`validate_update`](#validate_update)
- [`update_memory`](#update_memory)
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## Introduction
Ethereum 2.0 is designed to be light client friendly. This allows low-resource clients such as mobile phones to access Ethereum 2.0 with reasonable safety and liveness. It also facilitates the development of "bridges" to external blockchains. This document suggests a minimal light client design for the beacon chain that uses the concept of "sync committees" introduced in [./beacon-chain.md](the the light-client-friendliness beacon chain extension).
## Constants
| Name | Value |
| - | - |
| `SYNC_COMMITTEES_GENERALIZED_INDEX` | `GeneralizedIndexConcat(GeneralizedIndex(BeaconBlock, 'state_root'), GeneralizedIndex(BeaconState, 'current_sync_committee'))` |
| `FORK_GENERALIZED_INDEX` | `GeneralizedIndexConcat(GeneralizedIndex(BeaconBlock, 'state_root'), GeneralizedIndex(BeaconState, 'fork'))` |
## Containers
### `LightClientUpdate`
```python
class LightClientUpdate(Container):
# Updated beacon header
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header: BeaconBlockHeader
# Sync committee signature to that header
aggregation_bits: Bitlist[MAX_SYNC_COMMITTEE_SIZE]
signature: BLSSignature
# Updates fork version
new_fork: Fork
fork_branch: Vector[Bytes32, log_2(FORK_GENERALIZED_INDEX)]
# Updated sync committee (and authenticating branch)
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new_current_sync_committee: SyncCommittee
new_next_sync_committee: SyncCommittee
sync_committee_branch: Vector[Bytes32, log_2(SYNC_COMMITTEES_GENERALIZED_INDEX)]
```
## Helpers
### `LightClientMemory`
```python
class LightClientMemory(Container):
# Beacon header which is not expected to revert
header: BeaconBlockHeader
# Fork version data
fork_version: Version
# period committees corresponding to the beacon header
current_sync_committee: SyncCommittee
next_sync_committee: SyncCommittee
```
## Light client state updates
The state of a light client is stored in a `memory` object of type `LightClientMemory`. To advance its state a light client requests an `update` object of type `LightClientUpdate` from the network by sending a request containing `(memory.shard, memory.header.slot, slot_range_end)`. It calls `validate_update(memory, update)` on each update that it receives in response. If `sum(update.aggregate_bits) * 3 > len(update.aggregate_bits) * 2` for any valid update, it accepts that update immediately; otherwise, it waits around for some time and then finally calls `update_memory(memory, update)` on the valid update with the highest `sum(update.aggregate_bits)`.
#### `validate_update`
```python
def validate_update(memory: LightClientMemory, update: LightClientUpdate) -> bool:
# Verify the update does not skip a period
current_period = compute_epoch_at_slot(memory.header.slot) // EPOCHS_PER_SYNC_COMMITTEE_PERIOD
new_epoch = compute_epoch_of_shard_slot(update.header.slot)
new_period = new_epoch // EPOCHS_PER_SYNC_COMMITTEE_PERIOD
assert new_period in (current_period, current_period + 1)
# Verify that it actually updates to a newer slot
assert update.header.slot > memory.header.slot
# Convenience as independent variable for convenience
committee = memory.current_sync_committee if new_period == current_period else memory.next_sync_committee
assert len(update.aggregation_bits) == len(committee)
# Verify signature
active_pubkeys = [p for (bit, p) in zip(update.aggregation_bits, committee.pubkeys) if bit]
domain = compute_domain(DOMAIN_SYNC_COMMITTEE, memory.fork_version)
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signing_root = compute_signing_root(update.header, domain)
assert bls.FastAggregateVerify(pubkeys, signing_root, update.signature)
# Verify Merkle branches of new info
assert is_valid_merkle_branch(
leaf=hash_tree_root(update.new_fork),
branch=update.fork_branch,
depth=log2(FORK_GENERALIZED_INDEX),
index=FORK_GENERALIZED_INDEX % 2**log2(FORK_GENERALIZED_INDEX),
root=hash_tree_root(update.header),
)
assert is_valid_merkle_branch(
leaf=hash_tree_root(update.current_sync_committee),
branch=update.sync_committee_branch,
depth=log2(SYNC_COMMITTEES_GENERALIZED_INDEX),
index=SYNC_COMMITTEES_GENERALIZED_INDEX % 2**log2(SYNC_COMMITTEES_GENERALIZED_INDEX),
root=hash_tree_root(update.header),
)
# Verify consistency of committees
if new_period == current_period:
assert update.new_current_sync_committee == memory.current_sync_committee
assert update.new_next_sync_committee == memory.next_sync_committee
else:
assert update.new_current_sync_committee == memory.next_sync_committee
return True
```
#### `update_memory`
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```python
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def update_memory(memory: LightClientMemory, update: LightClientUpdate) -> None:
memory.header = update.header
epoch = compute_epoch_at_slot(update.header.slot)
memory.fork_version = update.new_fork.previous_version if epoch < update.new_fork.epoch else update.new_fork.current_version
memory.current_sync_committee = update.new_current_sync_committee
memory.next_sync_committee == update.new_next_sync_committee
```