175 lines
6.7 KiB
OCaml
175 lines
6.7 KiB
OCaml
(**************************************************************************)
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(* *)
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(* Copyright (c) 2014 - 2018. *)
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(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
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(* *)
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(* All rights reserved. No warranty, explicit or implicit, provided. *)
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(* *)
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(**************************************************************************)
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open Preapply_result
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let rec apply_operations apply_operation state r max_ops ~sort ops =
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Lwt_list.fold_left_s
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(fun (state, max_ops, r) (hash, op, parsed_op) ->
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apply_operation state max_ops op parsed_op >>= function
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| Ok state ->
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let applied = (hash, op) :: r.applied in
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Lwt.return (state, max_ops - 1, { r with applied })
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| Error errors ->
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match classify_errors errors with
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| `Branch ->
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let branch_refused =
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Operation_hash.Map.add hash (op, errors) r.branch_refused in
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Lwt.return (state, max_ops, { r with branch_refused })
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| `Permanent ->
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let refused =
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Operation_hash.Map.add hash (op, errors) r.refused in
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Lwt.return (state, max_ops, { r with refused })
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| `Temporary ->
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let branch_delayed =
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Operation_hash.Map.add hash (op, errors) r.branch_delayed in
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Lwt.return (state, max_ops, { r with branch_delayed }))
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(state, max_ops, r)
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ops >>= fun (state, max_ops, r) ->
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match r.applied with
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| _ :: _ when sort ->
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let rechecked_operations =
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List.filter
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(fun (hash, _, _) -> Operation_hash.Map.mem hash r.branch_delayed)
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ops in
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let remaining = List.length rechecked_operations in
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if remaining = 0 || remaining = List.length ops then
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Lwt.return (state, max_ops, r)
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else
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apply_operations apply_operation state r max_ops ~sort rechecked_operations
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| _ ->
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Lwt.return (state, max_ops, r)
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type prevalidation_state =
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State : { proto : 'a proto ; state : 'a ;
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max_number_of_operations : int ;
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max_operation_data_length : int }
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-> prevalidation_state
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and 'a proto =
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(module Registred_protocol.T with type validation_state = 'a)
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let start_prevalidation
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?proto_header
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~predecessor ~timestamp () =
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let { Block_header.shell =
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{ fitness = predecessor_fitness ;
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timestamp = predecessor_timestamp ;
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level = predecessor_level } } =
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State.Block.header predecessor in
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let max_operation_data_length =
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State.Block.max_operation_data_length predecessor in
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State.Block.context predecessor >>= fun predecessor_context ->
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Context.get_protocol predecessor_context >>= fun protocol ->
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let predecessor = State.Block.hash predecessor in
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begin
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match Registred_protocol.get protocol with
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| None ->
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(* FIXME. *)
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(* This should not happen: it should be handled in the validator. *)
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failwith "Prevalidation: missing protocol '%a' for the current block."
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Protocol_hash.pp_short protocol
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| Some protocol ->
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return protocol
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end >>=? fun (module Proto) ->
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Context.reset_test_chain
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predecessor_context predecessor
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timestamp >>= fun predecessor_context ->
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Proto.begin_construction
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~predecessor_context
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~predecessor_timestamp
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~predecessor_fitness
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~predecessor_level
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~predecessor
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~timestamp
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?proto_header
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()
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>>=? fun state ->
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(* FIXME arbitrary value, to be customisable *)
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let max_number_of_operations = 1000 in
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return (State { proto = (module Proto) ; state ;
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max_number_of_operations ; max_operation_data_length })
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type error += Parse_error
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type error += Too_many_operations
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type error += Oversized_operation of { size: int ; max: int }
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let () =
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register_error_kind `Temporary
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~id:"prevalidation.too_many_operations"
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~title:"Too many pending operations in prevalidation"
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~description:"The prevalidation context is full."
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~pp:(fun ppf () ->
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Format.fprintf ppf "Too many operation in prevalidation context.")
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Data_encoding.empty
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(function Too_many_operations -> Some () | _ -> None)
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(fun () -> Too_many_operations) ;
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register_error_kind `Permanent
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~id:"prevalidation.oversized_operation"
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~title:"Oversized operation"
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~description:"The operation size is bigger than allowed."
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~pp:(fun ppf (size, max) ->
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Format.fprintf ppf "Oversized operation (size: %d, max: %d)"
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size max)
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Data_encoding.(obj2
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(req "size" int31)
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(req "max_size" int31))
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(function Oversized_operation { size ; max } -> Some (size, max) | _ -> None)
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(fun (size, max) -> Oversized_operation { size ; max })
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let prevalidate
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(State { proto = (module Proto) ; state ;
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max_number_of_operations ; max_operation_data_length })
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~sort (ops : (Operation_hash.t * Operation.t) list)=
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let ops =
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List.map
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(fun (h, op) ->
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(h, op, Proto.parse_operation h op |> record_trace Parse_error))
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ops in
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let invalid_ops =
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List.filter_map
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(fun (h, op, parsed_op) -> match parsed_op with
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| Ok _ -> None
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| Error err -> Some (h, op, err)) ops
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and parsed_ops =
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List.filter_map
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(fun (h, op, parsed_op) -> match parsed_op with
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| Ok parsed_op -> Some (h, op, parsed_op)
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| Error _ -> None) ops in
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let sorted_ops =
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if sort then
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let compare (_, _, op1) (_, _, op2) = Proto.compare_operations op1 op2 in
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List.sort compare parsed_ops
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else parsed_ops in
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let apply_operation state max_ops op parse_op =
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let size = Data_encoding.Binary.length Operation.encoding op in
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if max_ops <= 0 then
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fail Too_many_operations
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else if size > max_operation_data_length then
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fail (Oversized_operation { size ; max = max_operation_data_length })
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else
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Proto.apply_operation state parse_op in
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apply_operations
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apply_operation
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state Preapply_result.empty max_number_of_operations
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~sort sorted_ops >>= fun (state, max_number_of_operations, r) ->
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let r =
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{ r with
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applied = List.rev r.applied ;
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branch_refused =
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List.fold_left
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(fun map (h, op, err) -> Operation_hash.Map.add h (op, err) map)
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r.branch_refused invalid_ops } in
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Lwt.return (State { proto = (module Proto) ; state ;
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max_number_of_operations ; max_operation_data_length },
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r)
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let end_prevalidation (State { proto = (module Proto) ; state }) =
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Proto.finalize_block state
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