245fa66140
The minimal header now (classically) contains the root of a Merkle tree, wrapping a list of lists of operations. Currently, the validator only accept a single list of operations, but the 3+pass validator will requires at least two lists.
423 lines
17 KiB
OCaml
423 lines
17 KiB
OCaml
(**************************************************************************)
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(* *)
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(* Copyright (c) 2014 - 2016. *)
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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 Logging.Node.Prevalidator
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let preapply
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net_db ctxt (module Proto : Updater.REGISTRED_PROTOCOL)
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block timestamp sort ops =
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lwt_debug "-> prevalidate (%d)" (List.length ops) >>= fun () ->
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(* The operations list length is bounded by the size of the mempool,
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where eventually an operation should not stay more than one hours. *)
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Lwt_list.map_p
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(fun h ->
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Distributed_db.Operation.read net_db h >>= function
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| None -> Lwt.return_none
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| Some op ->
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match Proto.parse_operation h op with
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| Error _ ->
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(* the operation will never be validated in the
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current context, it is silently ignored. It may be
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reintroduced in the loop by the next `flush`. *)
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Lwt.return_none
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| Ok p -> Lwt.return (Some p))
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ops >>= fun ops ->
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Context.set_timestamp ctxt timestamp >>= fun ctxt ->
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Proto.preapply ctxt block sort (Utils.unopt_list ops) >>= function
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| Ok (ctxt, r) ->
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lwt_debug "<- prevalidate (%d/%d/%d/%d)"
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(List.length r.Updater.applied)
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(Operation_hash.Map.cardinal r.Updater.refused)
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(Operation_hash.Map.cardinal r.Updater.branch_refused)
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(Operation_hash.Map.cardinal r.Updater.branch_delayed) >>= fun () ->
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Lwt.return (Ok (ctxt, r))
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| Error errors ->
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(* FIXME report internal error *)
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lwt_debug "<- prevalidate (internal error)" >>= fun () ->
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Lwt.return (Error errors)
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let list_pendings net_db ~from_block ~to_block old_mempool =
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let rec pop_blocks ancestor hash mempool =
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if Block_hash.equal hash ancestor then
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Lwt.return mempool
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else
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Distributed_db.Block_header.read_exn net_db hash >>= fun { shell } ->
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Distributed_db.Operation_list.read_all_exn
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net_db hash >>= fun operations ->
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let mempool =
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List.fold_left
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(List.fold_left (fun mempool h -> Operation_hash.Set.add h mempool))
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mempool operations in
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pop_blocks ancestor shell.predecessor mempool
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in
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let push_block mempool (hash, _shell) =
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Distributed_db.Operation_list.read_all_exn
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net_db hash >|= fun operations ->
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List.fold_left
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(List.fold_left (fun mempool h -> Operation_hash.Set.remove h mempool))
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mempool operations
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in
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let net_state = Distributed_db.state net_db in
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State.Valid_block.Current.new_blocks
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net_state ~from_block ~to_block >>= fun (ancestor, path) ->
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pop_blocks ancestor from_block.hash old_mempool >>= fun mempool ->
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Lwt_list.fold_left_s push_block mempool path >>= fun new_mempool ->
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Lwt.return new_mempool
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(** Worker *)
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exception Invalid_operation of Operation_hash.t
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type t = {
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net_db: Distributed_db.net ;
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flush: State.Valid_block.t -> unit;
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notify_operations: P2p.Peer_id.t -> Operation_hash.t list -> unit ;
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prevalidate_operations:
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bool -> Store.Operation.t list ->
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(Operation_hash.t list * error Updater.preapply_result) tzresult Lwt.t ;
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operations: unit -> error Updater.preapply_result * Operation_hash.Set.t ;
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pending: ?block:State.Valid_block.t -> unit -> Operation_hash.Set.t Lwt.t ;
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timestamp: unit -> Time.t ;
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context: unit -> Context.t ;
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protocol: unit -> (module Updater.REGISTRED_PROTOCOL) ;
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shutdown: unit -> unit Lwt.t ;
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}
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let merge _key a b =
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match a, b with
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| None, None -> None
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| Some x, None -> Some x
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| _, Some y -> Some y
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let create net_db =
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let net_state = Distributed_db.state net_db in
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let cancelation, cancel, _on_cancel = Lwt_utils.canceler () in
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let push_to_worker, worker_waiter = Lwt_utils.queue () in
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State.Valid_block.Current.head net_state >>= fun head ->
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State.Valid_block.Current.protocol net_state >>= fun protocol ->
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State.Operation.list_pending net_state >>= fun initial_mempool ->
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let timestamp = ref (Time.now ()) in
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begin
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let (module Proto) = protocol in
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Context.set_timestamp head.context !timestamp >>= fun ctxt ->
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Proto.preapply ctxt head.hash false [] >|= function
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| Error _ -> ref head.context
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| Ok (ctxt, _) -> ref ctxt
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end >>= fun context ->
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let pending = Operation_hash.Table.create 53 in
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let protocol = ref protocol in
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let head = ref head in
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let operations = ref Updater.empty_result in
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let running_validation = ref Lwt.return_unit in
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let unprocessed = ref initial_mempool in
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let broadcast_unprocessed = ref false in
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let set_context ctxt =
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context := ctxt;
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Lwt.return_unit in
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let broadcast_operation ops =
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Distributed_db.broadcast_head net_db !head.hash ops in
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let handle_unprocessed () =
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if Operation_hash.Set.is_empty !unprocessed then
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Lwt.return ()
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else
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(* We assume that `!unprocessed` does not contain any operations
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from `!operations`. *)
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let ops = !unprocessed in
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let broadcast = !broadcast_unprocessed in
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unprocessed := Operation_hash.Set.empty ;
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broadcast_unprocessed := false ;
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running_validation := begin
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begin
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preapply
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net_db !context !protocol !head.hash !timestamp true
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(Operation_hash.Set.elements ops) >>= function
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| Ok (ctxt, r) -> Lwt.return (ctxt, r)
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| Error err ->
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let r =
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{ Updater.empty_result with
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branch_delayed =
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Operation_hash.Set.fold
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(fun op m -> Operation_hash.Map.add op err m)
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ops Operation_hash.Map.empty ; } in
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Lwt.return (!context, r)
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end >>= fun (ctxt, r) ->
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let filter_out s m =
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List.fold_right Operation_hash.Map.remove s m in
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operations := {
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Updater.applied = List.rev_append r.applied !operations.applied ;
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refused = Operation_hash.Map.empty ;
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branch_refused =
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Operation_hash.Map.merge merge
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(* filter_out should not be required here, TODO warn ? *)
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(filter_out r.applied !operations.branch_refused)
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r.branch_refused ;
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branch_delayed =
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Operation_hash.Map.merge merge
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(filter_out r.applied !operations.branch_delayed)
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r.branch_delayed ;
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} ;
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if broadcast then broadcast_operation r.Updater.applied ;
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Lwt_list.iter_s
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(fun (_op, _exns) ->
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(* FIXME *)
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(* Distributed_db.Operation.mark_invalid net_db op exns >>= fun _ -> *)
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Lwt.return_unit)
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(Operation_hash.Map.bindings r.Updater.refused) >>= fun () ->
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(* TODO. Keep a bounded set of 'refused' operations. *)
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(* TODO. Log the error in some statistics associated to
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the peers that informed us of the operations. And
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eventually blacklist bad peers. *)
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(* TODO. Keep a bounded set of 'branch_refused' operations
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into the 'state'. It should be associated to the
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current block, and updated on 'set_current_head'. *)
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set_context ctxt
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end;
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Lwt.catch
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(fun () -> !running_validation)
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(fun _ -> lwt_debug "<- prevalidate (cancel)")
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in
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let prevalidation_worker =
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let rec worker_loop () =
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(* TODO cleanup the mempool from outdated operation (1h like
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Bitcoin ?). And log the removal in some statistic associated
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to then peers that informed us of the operation. *)
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(* TODO lookup in `!pending` for 'outdated' ops and re-add them
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in `unprocessed` (e.g. if the previous tentative was
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more 5 seconds ago) *)
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handle_unprocessed () >>= fun () ->
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Lwt.pick [(worker_waiter () >|= fun q -> `Process q);
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(cancelation () >|= fun () -> `Cancel)] >>= function
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| `Cancel -> Lwt.return_unit
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| `Process q ->
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Lwt_list.iter_s
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(function
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| `Prevalidate (ops, w, force) -> begin
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let (module Proto) = !protocol in
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let result =
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map_s (fun (h, b) ->
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Distributed_db.Operation.known net_db h >>= function
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| true ->
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failwith
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"Previously injected operation %a"
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Operation_hash.pp_short h
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| false ->
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Lwt.return
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(Proto.parse_operation h b
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|> record_trace_exn (Invalid_operation h)))
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(Operation_hash.Map.bindings ops) >>=? fun parsed_ops ->
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Context.set_timestamp !context (Time.now ()) >>= fun ctxt ->
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Proto.preapply
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ctxt !head.hash true parsed_ops >>=? fun (ctxt, res) ->
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let register h =
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let op = Operation_hash.Map.find h ops in
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Distributed_db.Operation.inject
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net_db h op >>= fun _ ->
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Lwt.return_unit in
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Lwt_list.iter_s
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(fun h ->
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register h >>= fun () ->
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operations :=
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{ !operations with
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applied = h :: !operations.applied };
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Lwt.return_unit )
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res.Updater.applied >>= fun () ->
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broadcast_operation res.Updater.applied ;
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begin
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if force then
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Lwt_list.iter_p
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(fun (h, _exns) -> register h)
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(Operation_hash.Map.bindings
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res.Updater.branch_delayed) >>= fun () ->
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Lwt_list.iter_p
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(fun (h, _exns) -> register h)
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(Operation_hash.Map.bindings
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res.Updater.branch_refused) >>= fun () ->
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operations :=
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{ !operations with
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branch_delayed =
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Operation_hash.Map.merge merge
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!operations.branch_delayed res.branch_delayed ;
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branch_refused =
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Operation_hash.Map.merge merge
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!operations.branch_refused res.branch_refused ;
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} ;
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Lwt.return_unit
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else
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Lwt.return_unit
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end >>= fun () ->
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set_context ctxt >>= fun () ->
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return res
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in
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result >>= fun result ->
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Lwt.wakeup w result ;
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Lwt.return_unit
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end
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| `Register (gid, ops) ->
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Lwt_list.filter_p
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(fun op ->
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Distributed_db.Operation.known net_db op >|= not)
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ops >>= fun new_ops ->
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let known_ops, unknown_ops =
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List.partition
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(fun op -> Operation_hash.Table.mem pending op) new_ops in
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let fetch op =
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Distributed_db.Operation.fetch
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net_db ~peer:gid op >>= fun _op ->
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push_to_worker (`Handle op) ;
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Lwt.return_unit
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in
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List.iter
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(fun op -> Operation_hash.Table.add pending op (fetch op))
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unknown_ops ;
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List.iter (fun op ->
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Lwt.ignore_result
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(Distributed_db.Operation.fetch net_db ~peer:gid op))
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known_ops ;
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Lwt.return_unit
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| `Handle op ->
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lwt_debug "register %a" Operation_hash.pp_short op >>= fun () ->
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Operation_hash.Table.remove pending op ;
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broadcast_unprocessed := true ;
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unprocessed := Operation_hash.Set.singleton op ;
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lwt_debug "register %a" Operation_hash.pp_short op >>= fun () ->
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Lwt.return_unit
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| `Flush (new_head : State.Valid_block.t) ->
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let new_protocol =
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match new_head.protocol with
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| None ->
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assert false (* FIXME, this should not happen! *)
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| Some protocol -> protocol in
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list_pendings
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net_db ~from_block:!head ~to_block:new_head
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(Updater.operations !operations) >>= fun new_mempool ->
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lwt_debug "flush %a (mempool: %d)"
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Block_hash.pp_short new_head.hash
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(Operation_hash.Set.cardinal new_mempool) >>= fun () ->
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(* Reset the pre-validation context *)
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head := new_head ;
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protocol := new_protocol ;
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operations := Updater.empty_result ;
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broadcast_unprocessed := false ;
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unprocessed := new_mempool ;
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timestamp := Time.now () ;
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(* Tag the context as a prevalidation context. *)
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let (module Proto) = new_protocol in
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Context.set_timestamp
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new_head.context !timestamp >>= fun ctxt ->
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Proto.preapply
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ctxt new_head.hash false [] >>= function
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| Error _ -> set_context new_head.context
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| Ok (ctxt, _) -> set_context ctxt)
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q >>= fun () ->
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worker_loop ()
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in
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Lwt_utils.worker "prevalidator" ~run:worker_loop ~cancel in
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let flush head =
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push_to_worker (`Flush head) ;
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if not (Lwt.is_sleeping !running_validation) then
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Lwt.cancel !running_validation
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in
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let notify_operations gid ops =
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Lwt.async begin fun () ->
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push_to_worker (`Register (gid, ops)) ;
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Lwt.return_unit
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end in
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let prevalidate_operations force raw_ops =
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let ops = List.map Store.Operation.hash raw_ops in
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let ops_map =
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List.fold_left
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(fun map op ->
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Operation_hash.Map.add (Store.Operation.hash op) op map)
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Operation_hash.Map.empty raw_ops in
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let wait, waker = Lwt.wait () in
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push_to_worker (`Prevalidate (ops_map, waker, force));
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wait >>=? fun result ->
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return (ops, result) in
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let shutdown () =
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lwt_debug "shutdown" >>= fun () ->
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if not (Lwt.is_sleeping !running_validation) then
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Lwt.cancel !running_validation;
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cancel () >>= fun () ->
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prevalidation_worker in
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let pending ?block () =
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let ops = Updater.operations !operations in
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match block with
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| None -> Lwt.return ops
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| Some to_block ->
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list_pendings net_db ~from_block:!head ~to_block ops
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in
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Lwt.return {
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net_db ;
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flush ;
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notify_operations ;
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prevalidate_operations ;
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operations =
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(fun () ->
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{ !operations with applied = List.rev !operations.applied },
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!unprocessed) ;
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pending ;
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timestamp = (fun () -> !timestamp) ;
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context = (fun () -> !context) ;
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protocol = (fun () -> !protocol) ;
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shutdown ;
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}
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let flush pv head = pv.flush head
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let notify_operations pv = pv.notify_operations
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let prevalidate_operations pv = pv.prevalidate_operations
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let operations pv = pv.operations ()
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let pending ?block pv = pv.pending ?block ()
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let timestamp pv = pv.timestamp ()
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let context pv = pv.context ()
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let protocol pv = pv.protocol ()
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let shutdown pv = pv.shutdown ()
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let inject_operation pv ?(force = false) (op: Store.Operation.t) =
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let net_id = State.Net.id (Distributed_db.state pv.net_db) in
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let wrap_error h map =
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begin
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try return (Operation_hash.Map.find h map)
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with Not_found ->
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failwith "unexpected protocol result"
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end >>=? fun errors ->
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Lwt.return (Error errors) in
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fail_unless (Store.Net_id.equal net_id op.shell.net_id)
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(Unclassified
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"Prevalidator.inject_operation: invalid network") >>=? fun () ->
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pv.prevalidate_operations force [op] >>=? function
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| ([h], { Updater.applied = [h'] }) when Operation_hash.equal h h' ->
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return ()
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| ([h], { Updater.refused })
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when Operation_hash.Map.cardinal refused = 1 ->
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wrap_error h refused
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| ([h], { Updater.branch_refused })
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when Operation_hash.Map.cardinal branch_refused = 1 && not force ->
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wrap_error h branch_refused
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| ([h], { Updater.branch_delayed })
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when Operation_hash.Map.cardinal branch_delayed = 1 && not force ->
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wrap_error h branch_delayed
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| _ ->
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if force then
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return ()
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else
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failwith "Unexpected result for prevalidation."
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