# EIP-4844 -- Networking This document contains the consensus-layer networking specification for EIP-4844. The specification of these changes continues in the same format as the network specifications of previous upgrades, and assumes them as pre-requisite. ## Table of contents - [Configuration](#configuration) - [Containers](#containers) - [`BlobsSidecar`](#blobssidecar) - [`SignedBeaconBlockAndBlobsSidecar`](#signedbeaconblockandblobssidecar) - [The gossip domain: gossipsub](#the-gossip-domain-gossipsub) - [Topics and messages](#topics-and-messages) - [Global topics](#global-topics) - [`beacon_block`](#beacon_block) - [`beacon_block_and_blobs_sidecar`](#beacon_block_and_blobs_sidecar) - [Transitioning the gossip](#transitioning-the-gossip) - [The Req/Resp domain](#the-reqresp-domain) - [Messages](#messages) - [BeaconBlocksByRange v2](#beaconblocksbyrange-v2) - [BeaconBlocksByRoot v2](#beaconblocksbyroot-v2) - [BeaconBlockAndBlobsSidecarByRoot v1](#beaconblockandblobssidecarbyroot-v1) - [BlobsSidecarsByRange v1](#blobssidecarsbyrange-v1) - [Design decision rationale](#design-decision-rationale) - [Why are blobs relayed as a sidecar, separate from beacon blocks?](#why-are-blobs-relayed-as-a-sidecar-separate-from-beacon-blocks) ## Configuration | Name | Value | Description | |------------------------------------------|-----------------------------------|---------------------------------------------------------------------| | `MAX_REQUEST_BLOBS_SIDECARS` | `2**7` (= 128) | Maximum number of blobs sidecars in a single request | | `MIN_EPOCHS_FOR_BLOBS_SIDECARS_REQUESTS` | `2**12` (= 4096 epochs, ~18 days) | The minimum epoch range over which a node must serve blobs sidecars | ## Containers ### `BlobsSidecar` ```python class BlobsSidecar(Container): beacon_block_root: Root beacon_block_slot: Slot blobs: List[Blob, MAX_BLOBS_PER_BLOCK] kzg_aggregated_proof: KZGProof ``` ### `SignedBeaconBlockAndBlobsSidecar` ```python class SignedBeaconBlockAndBlobsSidecar(Container): beacon_block: SignedBeaconBlock blobs_sidecar: BlobsSidecar ``` ## The gossip domain: gossipsub Some gossip meshes are upgraded in the fork of EIP4844 to support upgraded types. ### Topics and messages Topics follow the same specification as in prior upgrades. The `beacon_block` topic is deprecated and replaced by the `beacon_block_and_blobs_sidecar` topic. All other topics remain stable. The specification around the creation, validation, and dissemination of messages has not changed from the Capella document unless explicitly noted here. The derivation of the `message-id` remains stable. The new topics along with the type of the `data` field of a gossipsub message are given in this table: | Name | Message Type | | - | - | | `beacon_block_and_blobs_sidecar` | `SignedBeaconBlockAndBlobsSidecar` (new) | #### Global topics EIP4844 introduces a new global topic for beacon block and blobs-sidecars. ##### `beacon_block` This topic is deprecated and clients **MUST NOT** expose in their topic set to any peer. Implementers do not need to do anything beyond simply skip implementation, and it is explicitly called out as it is a departure from previous versioning of this topic. Refer to [the section below](#transitioning-the-gossip) for details on how to transition the gossip. ##### `beacon_block_and_blobs_sidecar` This topic is used to propagate new signed and coupled beacon blocks and blobs sidecars to all nodes on the networks. In addition to the gossip validations for the `beacon_block` topic from prior specifications, the following validations MUST pass before forwarding the `signed_beacon_block_and_blobs_sidecar` on the network. Alias `signed_beacon_block = signed_beacon_block_and_blobs_sidecar.beacon_block`, `block = signed_beacon_block.message`, `execution_payload = block.body.execution_payload`. - _[REJECT]_ The KZG commitments of the blobs are all correctly encoded compressed BLS G1 Points. -- i.e. `all(bls.KeyValidate(commitment) for commitment in block.body.blob_kzg_commitments)` - _[REJECT]_ The KZG commitments correspond to the versioned hashes in the transactions list. -- i.e. `verify_kzg_commitments_against_transactions(block.body.execution_payload.transactions, block.body.blob_kzg_commitments)` Alias `sidecar = signed_beacon_block_and_blobs_sidecar.blobs_sidecar`. - _[IGNORE]_ the `sidecar.beacon_block_slot` is for the current slot (with a `MAXIMUM_GOSSIP_CLOCK_DISPARITY` allowance) -- i.e. `sidecar.beacon_block_slot == block.slot`. - _[REJECT]_ the `sidecar.blobs` are all well formatted, i.e. the `BLSFieldElement` in valid range (`x < BLS_MODULUS`). - _[REJECT]_ The KZG proof is a correctly encoded compressed BLS G1 Point -- i.e. `bls.KeyValidate(blobs_sidecar.kzg_aggregated_proof)` - _[REJECT]_ The KZG commitments in the block are valid against the provided blobs sidecar. -- i.e. `validate_blobs_sidecar(block.slot, hash_tree_root(block), block.body.blob_kzg_commitments, sidecar)` ### Transitioning the gossip See gossip transition details found in the [Altair document](../altair/p2p-interface.md#transitioning-the-gossip) for details on how to handle transitioning gossip topics for this upgrade. ## The Req/Resp domain ### Messages #### BeaconBlocksByRange v2 **Protocol ID:** `/eth2/beacon_chain/req/beacon_blocks_by_range/2/` The EIP-4844 fork-digest is introduced to the `context` enum to specify EIP-4844 beacon block type. Per `context = compute_fork_digest(fork_version, genesis_validators_root)`: [0]: # (eth2spec: skip) | `fork_version` | Chunk SSZ type | |--------------------------|-------------------------------| | `GENESIS_FORK_VERSION` | `phase0.SignedBeaconBlock` | | `ALTAIR_FORK_VERSION` | `altair.SignedBeaconBlock` | | `BELLATRIX_FORK_VERSION` | `bellatrix.SignedBeaconBlock` | | `CAPELLA_FORK_VERSION` | `capella.SignedBeaconBlock` | | `EIP4844_FORK_VERSION` | `eip4844.SignedBeaconBlock` | #### BeaconBlocksByRoot v2 **Protocol ID:** `/eth2/beacon_chain/req/beacon_blocks_by_root/2/` After `EIP4844_FORK_EPOCH`, `BeaconBlocksByRootV2` is replaced by `BeaconBlockAndBlobsSidecarByRootV1` clients MUST support requesting blocks by root for pre-fork-epoch blocks. Per `context = compute_fork_digest(fork_version, genesis_validators_root)`: [1]: # (eth2spec: skip) | `fork_version` | Chunk SSZ type | | ------------------------ | -------------------------- | | `GENESIS_FORK_VERSION` | `phase0.SignedBeaconBlock` | | `ALTAIR_FORK_VERSION` | `altair.SignedBeaconBlock` | | `BELLATRIX_FORK_VERSION` | `bellatrix.SignedBeaconBlock` | | `CAPELLA_FORK_VERSION` | `capella.SignedBeaconBlock` | #### BeaconBlockAndBlobsSidecarByRoot v1 **Protocol ID:** `/eth2/beacon_chain/req/beacon_block_and_blobs_sidecar_by_root/1/` Request Content: ``` ( List[Root, MAX_REQUEST_BLOCKS] ) ``` Response Content: ``` ( List[SignedBeaconBlockAndBlobsSidecar, MAX_REQUEST_BLOCKS] ) ``` Requests blocks by block root (= `hash_tree_root(SignedBeaconBlockAndBlobsSidecar.beacon_block.message)`). The response is a list of `SignedBeaconBlockAndBlobsSidecar` whose length is less than or equal to the number of requests. It may be less in the case that the responding peer is missing blocks and sidecars. No more than `MAX_REQUEST_BLOCKS` may be requested at a time. `BeaconBlockAndBlobsSidecarByRoot` is primarily used to recover recent blocks and sidecars (e.g. when receiving a block or attestation whose parent is unknown). The response MUST consist of zero or more `response_chunk`. Each _successful_ `response_chunk` MUST contain a single `SignedBeaconBlockAndBlobsSidecar` payload. Clients MUST support requesting blocks and sidecars since the latest finalized epoch. Clients MUST respond with at least one block and sidecar, if they have it. Clients MAY limit the number of blocks and sidecars in the response. #### BlobsSidecarsByRange v1 **Protocol ID:** `/eth2/beacon_chain/req/blobs_sidecars_by_range/1/` Request Content: ``` ( start_slot: Slot count: uint64 ) ``` Response Content: ``` ( List[BlobsSidecar, MAX_REQUEST_BLOBS_SIDECARS] ) ``` Requests blobs sidecars in the slot range `[start_slot, start_slot + count)`, leading up to the current head block as selected by fork choice. The response is unsigned, i.e. `BlobsSidecarsByRange`, as the signature of the beacon block proposer may not be available beyond the initial distribution via gossip. Before consuming the next response chunk, the response reader SHOULD verify the blobs sidecar is well-formatted and correct w.r.t. the expected KZG commitments through `validate_blobs_sidecar`. `BlobsSidecarsByRange` is primarily used to sync blobs that may have been missed on gossip. The request MUST be encoded as an SSZ-container. The response MUST consist of zero or more `response_chunk`. Each _successful_ `response_chunk` MUST contain a single `BlobsSidecar` payload. Clients MUST keep a record of signed blobs sidecars seen on the epoch range `[max(GENESIS_EPOCH, current_epoch - MIN_EPOCHS_FOR_BLOBS_SIDECARS_REQUESTS), current_epoch]` where `current_epoch` is defined by the current wall-clock time, and clients MUST support serving requests of blocks on this range. Peers that are unable to reply to block requests within the `MIN_EPOCHS_FOR_BLOBS_SIDECARS_REQUESTS` epoch range SHOULD respond with error code `3: ResourceUnavailable`. Such peers that are unable to successfully reply to this range of requests MAY get descored or disconnected at any time. *Note*: The above requirement implies that nodes that start from a recent weak subjectivity checkpoint MUST backfill the local blobs database to at least epoch `current_epoch - MIN_EPOCHS_FOR_BLOBS_SIDECARS_REQUESTS` to be fully compliant with `BlobsSidecarsByRange` requests. *Note*: Although clients that bootstrap from a weak subjectivity checkpoint can begin participating in the networking immediately, other peers MAY disconnect and/or temporarily ban such an un-synced or semi-synced client. Clients MUST respond with at least the first blobs sidecar that exists in the range, if they have it, and no more than `MAX_REQUEST_BLOBS_SIDECARS` sidecars. The following blobs sidecars, where they exist, MUST be sent in consecutive order. Clients MAY limit the number of blobs sidecars in the response. The response MUST contain no more than `count` blobs sidecars. Clients MUST respond with blobs sidecars from their view of the current fork choice -- that is, blobs sidecars as included by blocks from the single chain defined by the current head. Of note, blocks from slots before the finalization MUST lead to the finalized block reported in the `Status` handshake. Clients MUST respond with blobs sidecars that are consistent from a single chain within the context of the request. After the initial blobs sidecar, clients MAY stop in the process of responding if their fork choice changes the view of the chain in the context of the request. # Design decision rationale ## Why are blobs relayed as a sidecar, separate from beacon blocks? This "sidecar" design provides forward compatibility for further data increases by black-boxing `is_data_available()`: with full sharding `is_data_available()` can be replaced by data-availability-sampling (DAS) thus avoiding all blobs being downloaded by all beacon nodes on the network. Such sharding design may introduce an updated `BlobsSidecar` to identify the shard, but does not affect the `BeaconBlock` structure.