package tezos-protocol-018-Proxford

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Source file `main.ml`

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(*****************************************************************************)
(*                                                                           *)
(* Open Source License                                                       *)
(* Copyright (c) 2018 Dynamic Ledger Solutions, Inc. <contact@tezos.com>     *)
(*                                                                           *)
(* Permission is hereby granted, free of charge, to any person obtaining a   *)
(* copy of this software and associated documentation files (the "Software"),*)
(* to deal in the Software without restriction, including without limitation *)
(* the rights to use, copy, modify, merge, publish, distribute, sublicense,  *)
(* and/or sell copies of the Software, and to permit persons to whom the     *)
(* Software is furnished to do so, subject to the following conditions:      *)
(*                                                                           *)
(* The above copyright notice and this permission notice shall be included   *)
(* in all copies or substantial portions of the Software.                    *)
(*                                                                           *)
(* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR*)
(* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,  *)
(* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL   *)
(* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER*)
(* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING   *)
(* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER       *)
(* DEALINGS IN THE SOFTWARE.                                                 *)
(*                                                                           *)
(*****************************************************************************)

(* Tezos Protocol Implementation - Protocol Signature Instance *)

type block_header_data = Alpha_context.Block_header.protocol_data

type block_header = Alpha_context.Block_header.t = {
  shell : Block_header.shell_header;
  protocol_data : block_header_data;
}

let block_header_data_encoding =
  Alpha_context.Block_header.protocol_data_encoding

type block_header_metadata = Apply_results.block_metadata

let block_header_metadata_encoding_with_legacy_attestation_name =
  Apply_results.block_metadata_encoding_with_legacy_attestation_name

let block_header_metadata_encoding = Apply_results.block_metadata_encoding

type operation_data = Alpha_context.packed_protocol_data =
  | Operation_data :
      'kind Alpha_context.Operation.protocol_data
      -> operation_data

let operation_data_encoding = Alpha_context.Operation.protocol_data_encoding

let operation_data_encoding_with_legacy_attestation_name =
  Alpha_context.Operation.protocol_data_encoding_with_legacy_attestation_name

type operation_receipt = Apply_results.packed_operation_metadata =
  | Operation_metadata :
      'kind Apply_results.operation_metadata
      -> operation_receipt
  | No_operation_metadata : operation_receipt

let operation_receipt_encoding = Apply_results.operation_metadata_encoding

let operation_receipt_encoding_with_legacy_attestation_name =
  Apply_results.operation_metadata_encoding_with_legacy_attestation_name

let operation_data_and_receipt_encoding =
  Apply_results.operation_data_and_metadata_encoding

let operation_data_and_receipt_encoding_with_legacy_attestation_name =
  Apply_results
  .operation_data_and_metadata_encoding_with_legacy_attestation_name

type operation = Alpha_context.packed_operation = {
  shell : Operation.shell_header;
  protocol_data : operation_data;
}

let acceptable_pass = Alpha_context.Operation.acceptable_pass

let max_block_length = Alpha_context.Block_header.max_header_length

let max_operation_data_length =
  Alpha_context.Constants.max_operation_data_length

let validation_passes =
  let open Alpha_context.Constants in
  Updater.
    [
      (* 2048 attestations *)
      {max_size = 2048 * 2048; max_op = Some 2048};
      (* 32k of voting operations *)
      {max_size = 32 * 1024; max_op = None};
      (* revelations, wallet activations and denunciations *)
      {
        max_size = max_anon_ops_per_block * 1024;
        max_op = Some max_anon_ops_per_block;
      };
      (* 512kB *)
      {max_size = 512 * 1024; max_op = None};
    ]

let rpc_services =
  Alpha_services.register () ;
  Services_registration.get_rpc_services ()

type validation_state = Validate.validation_state

type application_state = Apply.application_state

(** Circumstances and relevant information for [begin_validation] and
    [begin_application] below. *)
type mode =
  | Application of block_header
  | Partial_validation of block_header
  | Construction of {
      predecessor_hash : Block_hash.t;
      timestamp : Time.t;
      block_header_data : block_header_data;
    }
  | Partial_construction of {
      predecessor_hash : Block_hash.t;
      timestamp : Time.t;
    }

let can_contain_preattestations mode =
  let open Result_syntax in
  match mode with
  | Construction _ | Partial_construction _ -> return_true
  | Application block_header | Partial_validation block_header ->
      (* A preexisting block, which has a complete and correct block
         header, can only contain preattestations when the locked
         round in the fitness has an actual value. *)
      let* locked_round =
        Alpha_context.Fitness.locked_round_from_raw block_header.shell.fitness
      in
      return (Option.is_some locked_round)

(** Initialize the consensus rights by first slot for modes that are
    about the validation/application of a block: application, partial
    validation, and full construction.

    In these modes, attestations must point to the predecessor's level
    and preattestations, if any, to the block's level. *)
let init_consensus_rights_for_block ctxt mode ~predecessor_level =
  let open Lwt_result_syntax in
  let open Alpha_context in
  let* ctxt, attestations_map =
    Baking.attesting_rights_by_first_slot ctxt predecessor_level
  in
  let*? can_contain_preattestations = can_contain_preattestations mode in
  let* ctxt, allowed_preattestations =
    if can_contain_preattestations then
      let* ctxt, preattestations_map =
        Baking.attesting_rights_by_first_slot ctxt (Level.current ctxt)
      in
      return (ctxt, Some preattestations_map)
    else return (ctxt, None)
  in
  let ctxt =
    Consensus.initialize_consensus_operation
      ctxt
      ~allowed_attestations:(Some attestations_map)
      ~allowed_preattestations
  in
  return ctxt

(** Initialize the consensus rights for a mempool (partial
    construction mode).

    In the mempool, there are three allowed levels for both
    attestations and preattestations: [predecessor_level - 1] (aka the
    grandparent's level), [predecessor_level] (that is, the level of
    the mempool's head), and [predecessor_level + 1] (aka the current
    level in ctxt). *)
let init_consensus_rights_for_mempool ctxt ~predecessor_level =
  let open Lwt_result_syntax in
  let open Alpha_context in
  (* We don't want to compute the tables by first slot for all three
     possible levels because it is time-consuming. So we don't compute
     any [allowed_attestations] or [allowed_preattestations] tables. *)
  let ctxt =
    Consensus.initialize_consensus_operation
      ctxt
      ~allowed_attestations:None
      ~allowed_preattestations:None
  in
  (* However, we want to ensure that the cycle rights are loaded in
     the context, so that {!Stake_distribution.slot_owner} doesn't
     have to initialize them each time it is called (we do this now
     because the context is discarded at the end of the validation of
     each operation, so we can't rely on the caching done by
     [slot_owner] itself). *)
  let cycle = (Level.current ctxt).cycle in
  let* ctxt = Stake_distribution.load_sampler_for_cycle ctxt cycle in
  (* If the cycle has changed between the grandparent level and the
     current level, we also initialize the sampler for that
     cycle. That way, all three allowed levels are covered. *)
  match Level.pred ctxt predecessor_level with
  | Some gp_level when Cycle.(gp_level.cycle <> cycle) ->
      Stake_distribution.load_sampler_for_cycle ctxt gp_level.cycle
  | Some _ | None -> return ctxt

let prepare_ctxt ctxt mode ~(predecessor : Block_header.shell_header) =
  let open Lwt_result_syntax in
  let open Alpha_context in
  let level, timestamp =
    match mode with
    | Application block_header | Partial_validation block_header ->
        (block_header.shell.level, block_header.shell.timestamp)
    | Construction {timestamp; _} | Partial_construction {timestamp; _} ->
        (Int32.succ predecessor.level, timestamp)
  in
  let* ctxt, migration_balance_updates, migration_operation_results =
    prepare ctxt ~level ~predecessor_timestamp:predecessor.timestamp ~timestamp
  in
  let*? predecessor_raw_level = Raw_level.of_int32 predecessor.level in
  let predecessor_level = Level.from_raw ctxt predecessor_raw_level in
  let* ctxt = Delegate.prepare_stake_distribution ctxt in
  let* ctxt =
    match mode with
    | Application _ | Partial_validation _ | Construction _ ->
        init_consensus_rights_for_block ctxt mode ~predecessor_level
    | Partial_construction _ ->
        init_consensus_rights_for_mempool ctxt ~predecessor_level
  in
  let* ctxt = Dal_apply.initialisation ~level:predecessor_level ctxt in
  return
    ( ctxt,
      migration_balance_updates,
      migration_operation_results,
      predecessor_level )

let begin_validation ctxt chain_id mode ~predecessor =
  let open Lwt_result_syntax in
  let open Alpha_context in
  let* ( ctxt,
         _migration_balance_updates,
         _migration_operation_results,
         predecessor_level ) =
    prepare_ctxt ctxt ~predecessor mode
  in
  let predecessor_timestamp = predecessor.timestamp in
  let predecessor_fitness = predecessor.fitness in
  match mode with
  | Application block_header ->
      let*? fitness = Fitness.from_raw block_header.shell.fitness in
      Validate.begin_application
        ctxt
        chain_id
        ~predecessor_level
        ~predecessor_timestamp
        block_header
        fitness
  | Partial_validation block_header ->
      let*? fitness = Fitness.from_raw block_header.shell.fitness in
      Validate.begin_partial_validation
        ctxt
        chain_id
        ~predecessor_level
        ~predecessor_timestamp
        block_header
        fitness
  | Construction {predecessor_hash; timestamp; block_header_data} ->
      let*? predecessor_round = Fitness.round_from_raw predecessor_fitness in
      let*? round =
        Round.round_of_timestamp
          (Constants.round_durations ctxt)
          ~predecessor_timestamp
          ~predecessor_round
          ~timestamp
      in
      Validate.begin_full_construction
        ctxt
        chain_id
        ~predecessor_level
        ~predecessor_round
        ~predecessor_timestamp
        ~predecessor_hash
        round
        block_header_data.contents
  | Partial_construction _ ->
      let*? predecessor_round = Fitness.round_from_raw predecessor_fitness in
      return
        (Validate.begin_partial_construction
           ctxt
           chain_id
           ~predecessor_level
           ~predecessor_round)

let validate_operation = Validate.validate_operation

let finalize_validation = Validate.finalize_block

type error += Cannot_apply_in_partial_validation

let () =
  register_error_kind
    `Permanent
    ~id:"main.begin_application.cannot_apply_in_partial_validation"
    ~title:"cannot_apply_in_partial_validation"
    ~description:
      "Cannot instantiate an application state using the 'Partial_validation' \
       mode."
    ~pp:(fun ppf () ->
      Format.fprintf
        ppf
        "Cannot instantiate an application state using the \
         'Partial_validation' mode.")
    Data_encoding.(empty)
    (function Cannot_apply_in_partial_validation -> Some () | _ -> None)
    (fun () -> Cannot_apply_in_partial_validation)

let begin_application ctxt chain_id mode ~predecessor =
  let open Lwt_result_syntax in
  let open Alpha_context in
  let* ( ctxt,
         migration_balance_updates,
         migration_operation_results,
         predecessor_level ) =
    prepare_ctxt ctxt ~predecessor mode
  in
  let predecessor_timestamp = predecessor.timestamp in
  let predecessor_fitness = predecessor.fitness in
  match mode with
  | Application block_header ->
      Apply.begin_application
        ctxt
        chain_id
        ~migration_balance_updates
        ~migration_operation_results
        ~predecessor_fitness
        block_header
  | Partial_validation _ -> tzfail Cannot_apply_in_partial_validation
  | Construction {predecessor_hash; timestamp; block_header_data; _} ->
      let*? predecessor_round = Fitness.round_from_raw predecessor_fitness in
      Apply.begin_full_construction
        ctxt
        chain_id
        ~migration_balance_updates
        ~migration_operation_results
        ~predecessor_timestamp
        ~predecessor_level
        ~predecessor_round
        ~predecessor_hash
        ~timestamp
        block_header_data.contents
  | Partial_construction {predecessor_hash; _} ->
      Apply.begin_partial_construction
        ctxt
        chain_id
        ~migration_balance_updates
        ~migration_operation_results
        ~predecessor_hash
        ~predecessor_fitness

let apply_operation = Apply.apply_operation

let finalize_application = Apply.finalize_block

let compare_operations (oph1, op1) (oph2, op2) =
  Alpha_context.Operation.compare (oph1, op1) (oph2, op2)

let init chain_id ctxt block_header =
  let open Lwt_result_syntax in
  let level = block_header.Block_header.level in
  let timestamp = block_header.timestamp in
  let predecessor = block_header.predecessor in
  let typecheck_smart_contract (ctxt : Alpha_context.context)
      (script : Alpha_context.Script.t) =
    let allow_forged_in_storage =
      false
      (* There should be no forged value in bootstrap contracts. *)
    in
    let* Ex_script (Script parsed_script), ctxt =
      Script_ir_translator.parse_script
        ctxt
        ~elab_conf:Script_ir_translator_config.(make ~legacy:true ())
        ~allow_forged_in_storage
        script
    in
    let* storage, lazy_storage_diff, ctxt =
      Script_ir_translator.extract_lazy_storage_diff
        ctxt
        Optimized
        parsed_script.storage_type
        parsed_script.storage
        ~to_duplicate:Script_ir_translator.no_lazy_storage_id
        ~to_update:Script_ir_translator.no_lazy_storage_id
        ~temporary:false
    in
    let+ storage, ctxt =
      Script_ir_translator.unparse_data
        ctxt
        Optimized
        parsed_script.storage_type
        storage
    in
    let storage = Alpha_context.Script.lazy_expr storage in
    (({script with storage}, lazy_storage_diff), ctxt)
  in
  (* The cache must be synced at the end of block validation, so we do
     so here for the first block in a protocol where `finalize_block`
     is not called. *)
  let*? raw_level = Alpha_context.Raw_level.of_int32 level in
  let init_fitness =
    Alpha_context.Fitness.create_without_locked_round
      ~level:raw_level
      ~round:Alpha_context.Round.zero
      ~predecessor_round:Alpha_context.Round.zero
  in
  let* ctxt =
    Alpha_context.prepare_first_block
      chain_id
      ~typecheck_smart_contract
      ~typecheck_smart_rollup:
        Sc_rollup_operations.validate_untyped_parameters_ty
      ~level
      ~timestamp
      ~predecessor
      ctxt
  in
  let cache_nonce =
    Alpha_context.Cache.cache_nonce_from_block_header
      block_header
      ({
         payload_hash = Block_payload_hash.zero;
         payload_round = Alpha_context.Round.zero;
         per_block_votes =
           {
             liquidity_baking_vote =
               Alpha_context.Per_block_votes.Per_block_vote_pass;
             adaptive_issuance_vote =
               Alpha_context.Per_block_votes.Per_block_vote_pass;
           };
         seed_nonce_hash = None;
         proof_of_work_nonce =
           Bytes.make Constants_repr.proof_of_work_nonce_size '0';
       }
        : Alpha_context.Block_header.contents)
  in
  let*! ctxt = Alpha_context.Cache.Admin.sync ctxt cache_nonce in
  return
    (Alpha_context.finalize ctxt (Alpha_context.Fitness.to_raw init_fitness))

let value_of_key ~chain_id:_ ~predecessor_context:ctxt ~predecessor_timestamp
    ~predecessor_level:pred_level ~predecessor_fitness:_ ~predecessor:_
    ~timestamp =
  let open Lwt_result_syntax in
  let level = Int32.succ pred_level in
  let* ctxt, _, _ =
    Alpha_context.prepare ctxt ~level ~predecessor_timestamp ~timestamp
  in
  return (Apply.value_of_key ctxt)

module Mempool = struct
  include Mempool_validation

  let init ctxt chain_id ~head_hash ~(head : Block_header.shell_header) =
    let open Lwt_result_syntax in
    let open Alpha_context in
    let* ( ctxt,
           _migration_balance_updates,
           _migration_operation_results,
           head_level ) =
      (* We use Partial_construction to factorize the [prepare_ctxt]. *)
      prepare_ctxt
        ctxt
        (Partial_construction
           {predecessor_hash = head_hash; timestamp = head.timestamp})
        ~predecessor:head
    in
    let*? predecessor_round = Fitness.round_from_raw head.fitness in
    return
      (init
         ctxt
         chain_id
         ~predecessor_level:head_level
         ~predecessor_round
         ~predecessor_hash:head_hash)
end

(* Vanity nonce: 7098603463799498 *)
package tezos-protocol-018-Proxford

Source file main.ml

Source file `main.ml`
