package tezos-protocol-alpha

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type Tezos_protocol_environment_alpha.Error_monad.error +=
  1. | Inbox_proof_error of string
type Tezos_protocol_environment_alpha.Error_monad.error +=
  1. | Inbox_level_reached_messages_limit

Merkelizing inbox for smart-contract rollups.

Overview

The inbox of a smart-contract rollup denotes the incoming messages of the rollup. This inbox is the source of truth about what operations are being published and have an effect on the rollup state. As such, the inbox completely determines the state of the rollup. Hence, if two claims disagree about the state of the rollup, there are only two possibilities: either these two claims correspond to two distinct interpretations of the same inbox ; or, these two claims differ on their views about the contents of the inbox itself. Sc_rollup_PVM_sig is meant to arbitrate the first kind of conflicts while Sc_rollup_inbox_repr focuses on the second kind of conflicts.

Inbox messages

A message is a chunk of bytes. Messages are indexed using natural numbers and the level they are introduced.

A message is said to be *consumed* when its processing has been cemented, that is, when no refutation about its insertion can happen anymore because the commitment that describes the effect of this message on the state is cemented. A message is said to be *available* (for dispute) if it is not consumed.

A message processed by the rollup can be consumed or available. A message unprocessed by the rollup is always available.

The number of messages in an inbox level is bounded by Constants_repr.sc_rollup_max_number_of_messages_per_level When a level inbox reaches the maximum number of messages in the inbox level, the inbox is said to be full and cannot accept more messages at this level. This limitation is meant to ensure that Merkle proofs about the inbox contents have a bounded size. (See next section.)

Merkelization of the inbox

As for the state of the Sc_rollup_PVM_sig, the layer 1 does not have to store the entire inbox but only a compressed form (typically a low number of hashes) that witnesses its contents, so that the protocol can check the validity of a proof about its contents. This saves space in the context of the layer 1 and is sufficient for the layer 1 to provide a source of truth about the contents of the inbox at the current level.

A level-indexed chain of inboxes

By design, inboxes are logically indexed by Tezos levels. This is required to have a simple way to decide if two commitments are in conflict. (See Sc_rollup_storage.)

A commitment included in the block at level L describes the effect of the messages of the inboxes with a level between a starting level L_0 and a stopping level L_1, both strictly inferior to L. The level L_0 must be the inbox level of its parent commitment.

To be valid, a commitment needs to prove that it is reading messages from an inbox which is consistent with the inbox at level L stored in the layer 1 context. So, it should be possible at any time to build a proof that a given inbox is a previous version at level L_1 of the inbox found at level L: these are called inclusion proofs.

Clients

This module is meant to be used both by the protocol and by the rollup node in order to maintain consistent inboxes on both sides. These two clients slightly differ on the amount of information they store about the inbox.

On the one hand, to reduce the space consumption of rollups on the chain storage, the protocol only stores metadata about the inbox. The messages' hash of the current level are kept in memory during block validation only (See Raw_context.Sc_rollup_in_memory_inbox). By contrast, the messages of the previous levels are not kept in the context at all. They can be retrieved from the chain history though. However, being absent from the context, they are not accessible to the protocol.

On the other hand, the rollup node must keep a more precise inbox to be able to produce Merkle proofs about the content of specific messages, at least during the refutation period.

To cope with the discrepancy of requirements in terms of inbox storage while preserving a consistent Merkelization between the protocol and the rollup node, this module exposes the functions used to merkelize the inbox with an history (See History_bounded_repr.t) as parameters to remember.

module V1 : sig ... end

Versioning, see Sc_rollup_data_version_sig.S for more information.

include Sc_rollup_data_version_sig.S with type t = V1.t
type versioned
val of_versioned : versioned -> V1.t
val to_versioned : V1.t -> versioned
include module type of V1 with type level_proof = V1.level_proof and type history_proof = V1.history_proof and type t = V1.t
type history_proof = V1.history_proof

A history_proof is a Skip_list.cell that stores multiple hashes. Skip_list.content history_proof gives the hash of this cell, while Skip_list.back_pointers history_proof is an array of hashes of earlier history_proofs in the inbox.

On the one hand, we think of this type as representing the whole Merkle structure of an inbox at a given level---it is the part of t above that can actually be used to prove things (it cannot be forged by a malicious node because it much match the hash stored by the L1).

On the other hand, we think of this type as representing a single proof-step back through the history of the inbox; given a hash that appears at some point later in the inbox this type proves that that hash points to this particular combination of a witness and further back-pointers.

In terms of size, this type is a small set of hashes; one for the current witness and `O(log2(ix))` in the back-pointers, where ix is the index of the cell in the skip list. That is, ix is the number of non-empty levels between now and the origination level of the rollup.

type t = V1.t = {
  1. level : Raw_level_repr.t;
  2. old_levels_messages : history_proof;
}

The type of the inbox for a smart-contract rollup as stored by the protocol in the context. Values that inhabit this type only act as fingerprint for inboxes and contain:

  • level : the inbox level ;
  • old_levels_messages : a witness of the inbox history.
val equal : t -> t -> bool
val hash : t -> Hash.t
val inbox_level : t -> Raw_level_repr.t

inbox_level inbox returns the maximum level of message insertion in inbox or its initial level.

A History.t is basically a lookup table of history_proofs. We need this if we want to produce inbox proofs because it allows us to dereference the 'pointer' hashes in any of the history_proofs. This deref function is passed to Skip_list.back_path or Skip_list.search to allow these functions to construct valid paths back through the skip list.

val equal_history_proof : history_proof -> history_proof -> bool
val old_levels_messages : t -> history_proof

old_levels_messages inbox returns the latest skip list cell of the inbox history that is not up to change (i.e. not the current witness).

current_witness inbox returns the current witness of the inbox, i.e. the merkelized payload hash.

type serialized_proof

add_all_messages history inbox messages starts a new inbox level, adds all the messages, then ends the inbox level. It can be called even if payloads is empty.

Remembers everything needed in a created payloads_history and history. It is meant to be used by the rollup-node to reduce the risk of de-synchronisation between the protocol and the node.

Adds the messages pushed by the protocol and returns a list of messages including them. The caller will need to execute this list of messages, otherwise, it might miss some internal inputs.

The expected value of protocol_migration_message is either Some Raw_context.protocol_migration_internal_message (during the first block of this protocol) or None.

add_messages_no_history payloads witness updates the witness by inserting the payloads.

val take_snapshot : t -> history_proof

Used at the beginning of a refutation game to create the snapshot against which proofs in that game must be valid.

One important note: It takes the snapshot of the inbox for the current level. The snapshot points to the inbox at the *beginning* of the current block level. This prevents to create a mid-level snapshot for a refutation game if new messages are added before and/or after in the same block.

type proof

An inbox proof has three parameters:

  • the starting_point, of type Raw_level_repr.t * Z.t, specifying a location in the inbox ;
  • the message, of type Sc_rollup_PVM_sig.input option ;
  • and a reference snapshot inbox.

A valid inbox proof implies the following semantics: beginning at starting_point and reading forward through snapshot, the first message you reach will be message.

Usually this is fairly simple because there will actually be a message at the location specified by starting_point. But in some cases starting_point is past the last message within a level, and then the inbox proof's verification assumes that the next input is the SOL of the next level, if not beyond the snapshot.

val to_serialized_proof : proof -> serialized_proof
val of_serialized_proof : serialized_proof -> proof option

See the docstring for the proof type for details of proof semantics.

verify_proof starting_point inbox_snapshot proof will return the third parameter of the proof, message, iff the proof is valid.

produce_proof ~get_payloads_history ~get_history inbox (level, counter) creates an inbox proof proving the first message after the index counter at location level. This will fail if the get_payloads_history given doesn't have sufficient data (it needs to be run on an with a full history).

init_witness_no_history initializes the witness for a new inbox level by adding the first input, i.e. Start_of_level.

add_info_per_level_no_history adds the input Info_per_level.

val finalize_inbox_level_no_history : t -> Sc_rollup_inbox_merkelized_payload_hashes_repr.t -> t

finalize_inbox_level payloads_history history inbox level_witness updates the current inbox's level witness by adding EOL, and archives the current level.

genesis ~protocol_migration_message ~timestamp ~predecessor level initializes the inbox at some given level with: SOL, protocol_migration_message, Info_per_level {timestamp; predecessor} and EOL inside.

The expected value of protocol_migration_message is Raw_context.protocol_migration_internal_message.

module Internal_for_tests : sig ... end
type inbox = t
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