16 KiB
Optimistic Sync
Introduction
In order to provide a syncing execution engine with a partial view of the head of the chain, it may be desirable for a consensus engine to import beacon blocks without verifying the execution payloads. This partial sync is called an optimistic sync.
Optimistic sync is designed to be opt-in and backwards compatible (i.e., non-optimistic nodes can tolerate optimistic nodes on the network and vice versa). Optimistic sync is not a fundamental requirement for consensus nodes. Rather, it's a stop-gap measure to allow execution nodes to sync via established methods until future Ethereum roadmap items are implemented (e.g., statelessness).
Constants
Name | Value | Unit |
---|---|---|
SAFE_SLOTS_TO_IMPORT_OPTIMISTICALLY |
128 |
slots |
Note: the SAFE_SLOTS_TO_IMPORT_OPTIMISTICALLY
must be user-configurable. See
Fork Choice Poisoning.
Helpers
For brevity, we define two aliases for values of the status
field on
PayloadStatusV1
:
- Alias
NOT_VALIDATED
to:SYNCING
ACCEPTED
- Alias
INVALIDATED
to:INVALID
INVALID_BLOCK_HASH
INVALID_TERMINAL_BLOCK
Let head: BeaconBlock
be the result of calling of the fork choice
algorithm at the time of block production. Let head_block_root: Root
be the
root of that block.
Let blocks: Dict[Root, BeaconBlock]
and block_states: Dict[Root, BeaconState]
be the blocks (and accompanying states) that have been verified
either completely or optimistically.
Let optimistic_roots: Set[Root]
be the set of hash_tree_root(block)
for all
optimistically imported blocks which have only received a NOT_VALIDATED
designation
from an execution engine (i.e., they are not known to be INVALIDATED
or VALID
).
Let current_slot: Slot
be (time - genesis_time) // SECONDS_PER_SLOT
where
time
is the UNIX time according to the local system clock.
@dataclass
class OptimisticStore(object):
optimistic_roots: Set[Root]
head_block_root: Root
blocks: Dict[Root, BeaconBlock]
block_states: Dict[Root, BeaconState]
def is_optimistic(opt_store: OptimisticStore, block: BeaconBlock) -> bool:
return hash_tree_root(block) in opt_store.optimistic_roots
def latest_verified_ancestor(opt_store: OptimisticStore, block: BeaconBlock) -> BeaconBlock:
# It is assumed that the `block` parameter is never an INVALIDATED block.
while True:
if not is_optimistic(opt_store, block) or block.parent_root == Root():
return block
block = opt_store.blocks[block.parent_root]
def is_execution_block(block: BeaconBlock) -> bool:
return block.body.execution_payload != ExecutionPayload()
def is_optimistic_candidate_block(opt_store: OptimisticStore, current_slot: Slot, block: BeaconBlock) -> bool:
justified_root = opt_store.block_states[opt_store.head_block_root].current_justified_checkpoint.root
justified_is_execution_block = is_execution_block(opt_store.blocks[justified_root])
block_is_deep = block.slot + SAFE_SLOTS_TO_IMPORT_OPTIMISTICALLY <= current_slot
return justified_is_execution_block or block_is_deep
Let only a node which returns is_optimistic(opt_store, head) is True
be an optimistic
node. Let only a validator on an optimistic node be an optimistic validator.
When this specification only defines behaviour for an optimistic node/validator, but not for the non-optimistic case, assume default behaviours without regard for optimistic sync.
Mechanisms
When to optimistically import blocks
A block MAY be optimistically imported when
is_optimistic_candidate_block(opt_store, current_slot, block)
returns
True
. This ensures that blocks are only optimistically imported if either:
- The justified checkpoint has execution enabled.
- The current slot (as per the system clock) is at least
SAFE_SLOTS_TO_IMPORT_OPTIMISTICALLY
ahead of the slot of the block being imported.
See Fork Choice Poisoning for the motivations behind these conditions.
How to optimistically import blocks
To optimistically import a block:
- The
notify_new_payload
function MUST returnTrue
if the execution engine returnsNOT_VALIDATED
orVALID
. AnINVALIDATED
response MUST returnFalse
. - The
validate_merge_block
function MUST NOT raise an assertion if both thepow_block
andpow_parent
are unknown to the execution engine.- All other assertions in
validate_merge_block
(e.g.,TERMINAL_BLOCK_HASH
) MUST prevent an optimistic import.
- All other assertions in
- The parent of the block MUST NOT have an
INVALIDATED
execution payload.
In addition to this change in validation, the consensus engine MUST track which
blocks returned NOT_VALIDATED
and which returned VALID
for subsequent processing.
Optimistically imported blocks MUST pass all verifications included in
process_block
(withstanding the modifications to notify_new_payload
).
A consensus engine MUST be able to retrospectively (i.e., after import) modify
the status of NOT_VALIDATED
blocks to be either VALID
or INVALIDATED
based upon responses
from an execution engine. I.e., perform the following transitions:
NOT_VALIDATED
->VALID
NOT_VALIDATED
->INVALIDATED
When a block transitions from NOT_VALIDATED
-> VALID
, all ancestors of the
block MUST also transition from NOT_VALIDATED
-> VALID
. Such a block and any previously NOT_VALIDATED
ancestors are no longer
considered "optimistically imported".
When a block transitions from NOT_VALIDATED
-> INVALIDATED
, all descendants of the
block MUST also transition from NOT_VALIDATED
-> INVALIDATED
.
When a block transitions from the NOT_VALIDATED
state, it is removed from the set of
opt_store.optimistic_roots
.
When a "merge block" (i.e. the first block which enables execution in a chain) is declared to be
VALID
by an execution engine (either directly or indirectly), the full
validate_merge_block
MUST be run against the merge block. If the block
fails validate_merge_block
,
the merge block MUST be treated the same as
an INVALIDATED
block (i.e., it and all its descendants are invalidated and
removed from the block tree).
Execution Engine Errors
When an execution engine returns an error or fails to respond to a payload validity request for some block, a consensus engine:
- MUST NOT optimistically import the block.
- MUST NOT apply the block to the fork choice store.
- MAY queue the block for later processing.
Assumptions about Execution Engine Behaviour
This specification assumes execution engines will only return NOT_VALIDATED
when
there is insufficient information available to make a VALID
or INVALIDATED
determination on the given ExecutionPayload
(e.g., the parent payload is
unknown). Specifically, NOT_VALIDATED
responses should be fork-specific, in that
the search for a block on one chain MUST NOT trigger a NOT_VALIDATED
response for
another chain.
Re-Orgs
The consensus engine MUST support any chain reorganisation which does not affect the justified checkpoint.
If the justified checkpoint transitions from NOT_VALIDATED
-> INVALIDATED
, a
consensus engine MAY choose to alert the user and force the application to
exit.
Fork Choice
Consensus engines MUST support removing blocks from fork choice that transition
from NOT_VALIDATED
to INVALIDATED
. Specifically, a block deemed INVALIDATED
at any
point MUST NOT be included in the canonical chain and the weights from those
INVALIDATED
blocks MUST NOT be applied to any VALID
or NOT_VALIDATED
ancestors.
Fork Choice Poisoning
During the merge transition it is possible for an attacker to craft a
BeaconBlock
with an execution payload that references an
eternally-unavailable body.execution_payload.parent_hash
(i.e., the parent
hash is random bytes). In rare circumstances, it is possible that an attacker
can build atop such a block to trigger justification. If an optimistic node
imports this malicious chain, that node will have a "poisoned" fork choice
store, such that the node is unable to produce a block that descends from the
head (due to the invalid chain of payloads) and the node is unable to produce a
block that forks around the head (due to the justification of the malicious
chain).
If an honest chain exists which justifies a higher epoch than the malicious chain, that chain will take precedence and revive any poisoned store. Such a chain, if imported before the malicious chain, will prevent the store from being poisoned. Therefore, the poisoning attack is temporary if >= 2/3rds of the network is honest and non-faulty.
The SAFE_SLOTS_TO_IMPORT_OPTIMISTICALLY
parameter assumes that the network
will justify a honest chain within some number of slots. With this assumption,
it is acceptable to optimistically import transition blocks during the sync
process. Since there is an assumption that an honest chain with a higher
justified checkpoint exists, any fork choice poisoning will be short-lived and
resolved before that node is required to produce a block.
However, the assumption that the honest, canonical chain will always justify
within SAFE_SLOTS_TO_IMPORT_OPTIMISTICALLY
slots is dubious. Therefore,
clients MUST provide the following command line flag to assist with manual
disaster recovery:
--safe-slots-to-import-optimistically
: modifies theSAFE_SLOTS_TO_IMPORT_OPTIMISTICALLY
.
Checkpoint Sync (Weak Subjectivity Sync)
A consensus engine MAY assume that the ExecutionPayload
of a block used as an
anchor for checkpoint sync is VALID
without necessarily providing that
payload to an execution engine.
Validator assignments
An optimistic node is not a full node. It is unable to produce blocks, since an execution engine cannot produce a payload upon an unknown parent. It cannot faithfully attest to the head block of the chain, since it has not fully verified that block.
Block Production
An optimistic validator MUST NOT produce a block (i.e., sign across the
DOMAIN_BEACON_PROPOSER
domain).
Attesting
An optimistic validator MUST NOT participate in attestation (i.e., sign across the
DOMAIN_BEACON_ATTESTER
, DOMAIN_SELECTION_PROOF
or
DOMAIN_AGGREGATE_AND_PROOF
domains).
Participating in Sync Committees
An optimistic validator MUST NOT participate in sync committees (i.e., sign across the
DOMAIN_SYNC_COMMITTEE
, DOMAIN_SYNC_COMMITTEE_SELECTION_PROOF
or
DOMAIN_CONTRIBUTION_AND_PROOF
domains).
Ethereum Beacon APIs
Consensus engines which provide an implementation of the Ethereum Beacon APIs must take care to avoid presenting optimistic blocks as fully-verified blocks.
Helpers
Let the following response types be defined as any response with the corresponding HTTP status code:
- "Success" Response: Status Codes 200-299.
- "Not Found" Response: Status Code 404.
- "Syncing" Response: Status Code 503.
Requests for Optimistic Blocks
When information about an optimistic block is requested, the consensus engine:
- MUST NOT respond with success.
- MAY respond with not found.
- MAY respond with syncing.
Requests for an Optimistic Head
When is_optimistic(opt_store, head) is True
, the consensus engine:
- MUST NOT return an optimistic
head
. - MAY substitute the head block with
latest_verified_ancestor(block)
. - MAY return syncing.
Requests to Validators Endpoints
When is_optimistic(opt_store, head) is True
, the consensus engine MUST return syncing to
all endpoints which match the following pattern:
eth/*/validator/*
Design Decision Rationale
Why SAFE_SLOTS_TO_IMPORT_OPTIMISTICALLY
?
Nodes can only import an optimistic block if their justified checkpoint is
verified or the block is older than SAFE_SLOTS_TO_IMPORT_OPTIMISTICALLY
.
These restraints are applied in order to mitigate an attack where a block which
enables execution (a transition block) can reference a junk parent hash. This
makes it impossible for honest nodes to build atop that block. If an attacker
exploits a nuance in fork choice filter_block_tree
, they can, in some rare
cases, produce a junk block that out-competes all locally produced blocks for
the head. This prevents a node from producing a chain of blocks, therefore
breaking liveness.
Thankfully, if 2/3rds of validators are not poisoned, they can justify an honest chain which will un-poison all other nodes.
Notably, this attack only exists for optimistic nodes. Nodes which fully verify the transition block will reject a block with a junk parent hash. Therefore, liveness is unaffected if a vast majority of nodes have fully synced execution and consensus clients before and during the transition.
Given all of this, we can say two things:
- BNs which are following the head during the transition shouldn't optimistically import the transition block. If 1/3rd of validators optimistically import the poison block, there will be no remaining nodes to justify an honest chain.
- BNs which are syncing can optimistically import transition blocks. In this case a justified chain already exists blocks. The poison block would be quickly reverted and would have no affect on liveness.
Astute readers will notice that (2) contains a glaring assumption about network
liveness. This is necessary because a node cannot feasibly ascertain that the
transition block is justified without importing that block and risking
poisoning. Therefore, we use SAFE_SLOTS_TO_IMPORT_OPTIMISTICALLY
to say
something along the lines of: "if the transition block is sufficiently old
enough, then we can just assume that block is honest or there exists an honest
justified chain to out-compete it."
Note the use of "feasibly" in the previous paragraph. One can imagine
mechanisms to check that a block is justified before importing it. For example,
just keep processing blocks without adding them to fork choice. However, there
are still edge-cases here (e.g., when to halt and declare there was no
justification?) and how to mitigate implementation complexity. At this point,
it's important to reflect on the attack and how likely it is to happen. It
requires some rather contrived circumstances and it seems very unlikely to
occur. Therefore, we need to consider if adding complexity to avoid an
unlikely attack increases or decreases our total risk. Presently, it appears
that SAFE_SLOTS_TO_IMPORT_OPTIMISTICALLY
sits in a sweet spot for this
trade-off.
Transitioning from VALID -> INVALIDATED or INVALIDATED -> VALID
These operations are purposefully omitted. It is outside of the scope of the specification since it's only possible with a faulty EE.
Such a scenario requires manual intervention.
What about Light Clients?
An alternative to optimistic sync is to run a light client inside/alongside beacon nodes that mitigates the need for optimistic sync by providing tip-of-chain blocks to the execution engine. However, light clients comes with their own set of complexities. Relying on light clients may also restrict nodes from syncing from genesis, if they so desire.
A notable thing about optimistic sync is that it's optional. Should an implementation decide to go the light-client route, then they can just ignore optimistic sync all together.
What if TERMINAL_BLOCK_HASH
is used?
If the terminal block hash override is used (i.e., TERMINAL_BLOCK_HASH != Hash32()
), the validate_merge_block
function will deterministically
return True
or False
. Whilst it's not technically required
retrospectively call validate_merge_block
on a transition block that
matches TERMINAL_BLOCK_HASH
after an optimistic sync, doing so will have no
effect. For simplicity, the optimistic sync specification does not define
edge-case behaviour for when TERMINAL_BLOCK_HASH
is used.