ligo/lib_node_shell/prevalidator.ml

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(**************************************************************************)
(* *)
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(* Copyright (c) 2014 - 2017. *)
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(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
open Logging.Node.Prevalidator
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let list_pendings ?maintain_net_db ~from_block ~to_block old_mempool =
let rec pop_blocks ancestor block mempool =
let hash = State.Block.hash block in
if Block_hash.equal hash ancestor then
Lwt.return mempool
else
State.Block.all_operations block >>= fun operations ->
Lwt_list.fold_left_s
(Lwt_list.fold_left_s (fun mempool op ->
let h = Operation.hash op in
Lwt_utils.may maintain_net_db
~f:begin fun net_db ->
Distributed_db.inject_operation net_db h op >>= fun _ ->
Lwt.return_unit
end >>= fun () ->
Lwt.return (Operation_hash.Map.add h op mempool)))
mempool operations >>= fun mempool ->
State.Block.predecessor block >>= function
| None -> assert false
| Some predecessor -> pop_blocks ancestor predecessor mempool
in
let push_block mempool block =
State.Block.all_operation_hashes block >|= fun operations ->
Option.iter maintain_net_db
~f:(fun net_db ->
List.iter
(List.iter (Distributed_db.Operation.clear_or_cancel net_db))
operations) ;
List.fold_left
(List.fold_left (fun mempool h -> Operation_hash.Map.remove h mempool))
mempool operations
in
Chain_traversal.new_blocks ~from_block ~to_block >>= fun (ancestor, path) ->
pop_blocks
(State.Block.hash ancestor)
from_block old_mempool >>= fun mempool ->
Lwt_list.fold_left_s push_block mempool path >>= fun new_mempool ->
Lwt.return new_mempool
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(** Worker *)
open Prevalidation
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type t = {
net_db: Distributed_db.net_db ;
flush: State.Block.t -> unit;
notify_operations: P2p.Peer_id.t -> Mempool.t -> unit ;
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prevalidate_operations:
bool -> Operation.t list ->
(Operation_hash.t list * error preapply_result) tzresult Lwt.t ;
operations: unit -> error preapply_result * Operation.t Operation_hash.Map.t ;
pending: ?block:State.Block.t -> unit -> Operation.t Operation_hash.Map.t Lwt.t ;
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timestamp: unit -> Time.t ;
context: unit -> Updater.validation_result tzresult Lwt.t ;
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shutdown: unit -> unit Lwt.t ;
}
let merge _key a b =
match a, b with
| None, None -> None
| Some x, None -> Some x
| _, Some y -> Some y
let create
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~max_operations
~operation_timeout
net_db =
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let net_state = Distributed_db.net_state net_db in
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let cancelation, cancel, _on_cancel = Lwt_utils.canceler () in
let push_to_worker, worker_waiter = Lwt_utils.queue () in
Chain.head net_state >>= fun head ->
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let timestamp = ref (Time.now ()) in
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let max_number_of_operations =
try 2 * List.hd (State.Block.max_number_of_operations head)
with _ -> 0 in
(start_prevalidation
~max_number_of_operations
~predecessor:head
~timestamp:!timestamp () >|= ref) >>= fun validation_state ->
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let pending = Operation_hash.Table.create 53 in
let head = ref head in
let mempool = ref Mempool.empty in
let operations = ref empty_result in
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let operation_count = ref 0 in (* unprocessed + operations/mempool *)
Chain_traversal.live_blocks
!head
(State.Block.max_operations_ttl !head)
>>= fun (live_blocks, live_operations) ->
let live_blocks = ref live_blocks in
let live_operations = ref live_operations in
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let running_validation = ref Lwt.return_unit in
let unprocessed = ref Operation_hash.Map.empty in
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let broadcast_unprocessed = ref false in
let set_validation_state state =
validation_state := state;
Lwt.return_unit in
let reset_validation_state head timestamp =
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start_prevalidation ~predecessor:head ~timestamp () >>= fun state ->
validation_state := state;
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Lwt.return_unit in
let broadcast_new_operations r =
Distributed_db.Advertise.current_head
net_db
~mempool:{
known_valid = [] ;
pending =
List.fold_right
(fun (k, _) s -> Operation_hash.Set.add k s)
r.applied @@
Operation_hash.Map.fold
(fun k _ s -> Operation_hash.Set.add k s)
r.branch_delayed @@
Operation_hash.Map.fold
(fun k _ s -> Operation_hash.Set.add k s)
r.branch_refused @@
Operation_hash.Set.empty ;
}
!head
in
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let handle_unprocessed () =
if Operation_hash.Map.is_empty !unprocessed then
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Lwt.return ()
else
let ops = !unprocessed in
let broadcast = !broadcast_unprocessed in
unprocessed := Operation_hash.Map.empty ;
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broadcast_unprocessed := false ;
let ops =
Operation_hash.Set.fold
(fun k m -> Operation_hash.Map.remove k m)
!live_operations ops in
live_operations :=
Operation_hash.Map.fold
(fun k _ m -> Operation_hash.Set.add k m)
ops !live_operations ;
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running_validation := begin
begin
Lwt_list.filter_map_p
(fun (h, op) ->
if Block_hash.Set.mem op.Operation.shell.branch !live_blocks then
Lwt.return_some (h, op)
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else begin
Distributed_db.Operation.clear_or_cancel net_db h ;
Lwt.return_none
end)
(Operation_hash.Map.bindings ops) >>= fun rops ->
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operation_count :=
!operation_count - Operation_hash.Map.cardinal ops + List.length rops ;
match !validation_state with
| Ok validation_state ->
prevalidate validation_state ~sort:true rops >>= fun (state, r) ->
Lwt.return (Ok state, r)
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| Error err ->
let r =
{ empty_result with
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branch_delayed =
List.fold_left
(fun m (h, op) -> Operation_hash.Map.add h (op, err) m)
Operation_hash.Map.empty rops ; } in
Lwt.return (!validation_state, r)
end >>= fun (state, r) ->
let filter_out s m =
List.fold_right (fun (h, _op) -> Operation_hash.Set.remove h) s m in
mempool := {
known_valid = !mempool.known_valid @ List.rev_map fst r.applied ;
pending =
Operation_hash.Map.fold
(fun k _ s -> Operation_hash.Set.add k s)
r.branch_delayed @@
Operation_hash.Map.fold
(fun k _ s -> Operation_hash.Set.add k s)
r.branch_refused @@
filter_out r.applied !mempool.pending ;
} ;
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let filter_out s m =
List.fold_right (fun (h, _op) -> Operation_hash.Map.remove h) s m in
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operations := {
applied = List.rev_append r.applied !operations.applied ;
refused = Operation_hash.Map.empty ;
branch_refused =
Operation_hash.Map.merge merge
(* filter_out should not be required here, TODO warn ? *)
(filter_out r.applied !operations.branch_refused)
r.branch_refused ;
branch_delayed =
Operation_hash.Map.merge merge
(filter_out r.applied !operations.branch_delayed)
r.branch_delayed ;
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} ;
Mempool.set net_state
~head:(State.Block.hash !head) !mempool >>= fun () ->
if broadcast then broadcast_new_operations r ;
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Lwt_list.iter_s
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(fun (op, _exns) ->
Distributed_db.Operation.clear_or_cancel net_db op ;
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Lwt.return_unit)
(Operation_hash.Map.bindings r.refused) >>= fun () ->
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(* TODO. Keep a bounded set of 'refused' operations. *)
(* TODO. Log the error in some statistics associated to
the peers that informed us of the operations. And
eventually blacklist bad peers. *)
(* TODO. Keep a bounded set of 'branch_refused' operations
into the 'state'. It should be associated to the
current block, and updated on 'set_current_head'. *)
set_validation_state state
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end;
Lwt.catch
(fun () -> !running_validation)
(fun _ -> lwt_debug "<- prevalidate (cancel)")
in
let prevalidation_worker =
let rec worker_loop () =
(* TODO lookup in `!pending` for 'outdated' ops and re-add them
in `unprocessed` (e.g. if the previous tentative was
more 5 seconds ago) *)
handle_unprocessed () >>= fun () ->
Lwt.pick [(worker_waiter () >|= fun q -> `Process q);
(cancelation () >|= fun () -> `Cancel)] >>= function
| `Cancel -> Lwt.return_unit
| `Process q ->
Lwt_list.iter_s
(function
| `Prevalidate (ops, w, force) -> begin
let result =
let rops = Operation_hash.Map.bindings ops in
Lwt.return !validation_state >>=? fun validation_state ->
prevalidate validation_state
~sort:true rops >>= fun (state, res) ->
let register h op =
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incr operation_count ;
live_operations :=
Operation_hash.Set.add h !live_operations ;
Distributed_db.inject_operation
net_db h op >>=? fun (_ : bool) ->
return () in
iter_s
(fun (h, op) ->
register h op >>=? fun () ->
mempool := { !mempool with
known_valid =
!mempool.known_valid @ [h] } ;
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operations :=
{ !operations with
applied = (h, op) :: !operations.applied } ;
return () )
res.applied >>=? fun () ->
Mempool.set net_state
~head:(State.Block.hash !head) !mempool >>= fun () ->
broadcast_new_operations res ;
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begin
if force then
iter_p
(fun (h, (op, _exns)) -> register h op)
(Operation_hash.Map.bindings
res.branch_delayed) >>=? fun () ->
iter_p
(fun (h, (op, _exns)) -> register h op)
(Operation_hash.Map.bindings
res.branch_refused) >>=? fun () ->
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operations :=
{ !operations with
branch_delayed =
Operation_hash.Map.merge merge
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!operations.branch_delayed res.branch_delayed ;
branch_refused =
Operation_hash.Map.merge merge
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!operations.branch_refused res.branch_refused ;
} ;
return ()
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else
return ()
end >>=? fun () ->
set_validation_state (Ok state) >>= fun () ->
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return res
in
result >>= fun result ->
Lwt.wakeup w result ;
Lwt.return_unit
end
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| `Register (_gid, _mempool) when !operation_count >= max_operations ->
Lwt.return_unit
| `Register (gid, mempool) ->
let ops =
Operation_hash.Set.elements mempool.Mempool.pending @
mempool.known_valid in
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let known_ops, unknown_ops =
List.partition
(fun op ->
Operation_hash.Table.mem pending op
|| Operation_hash.Set.mem op !live_operations)
ops in
let fetch h =
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Distributed_db.Operation.fetch
~timeout:operation_timeout
net_db ~peer:gid h () >>= function
| Ok op ->
push_to_worker (`Handle (h, op)) ;
Lwt.return_unit
| Error [ Distributed_db.Operation.Canceled _ ] ->
lwt_debug
"operation %a included before being prevalidated"
Operation_hash.pp_short h >>= fun () ->
Operation_hash.Table.remove pending h ;
Lwt.return_unit
| Error _ ->
Operation_hash.Table.remove pending h ;
Lwt.return_unit
in
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List.iter
(fun op -> Operation_hash.Table.add pending op (fetch op))
unknown_ops ;
List.iter
(fun op ->
Lwt.ignore_result
(Distributed_db.Operation.fetch
~timeout:operation_timeout
net_db ~peer:gid op ()))
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known_ops ;
Lwt.return_unit
| `Handle (h, op) ->
Operation_hash.Table.remove pending h ;
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if !operation_count < max_operations then begin
broadcast_unprocessed := true ;
incr operation_count ;
unprocessed := Operation_hash.Map.singleton h op ;
lwt_debug "register %a" Operation_hash.pp_short h >>= fun () ->
Lwt.return_unit
end else begin
Distributed_db.Operation.clear_or_cancel net_db h ;
Lwt.return_unit
end
| `Flush (new_head : State.Block.t) ->
list_pendings
~maintain_net_db:net_db
~from_block:!head ~to_block:new_head
(preapply_result_operations !operations) >>= fun new_mempool ->
Chain_traversal.live_blocks
new_head
(State.Block.max_operations_ttl new_head)
>>= fun (new_live_blocks, new_live_operations) ->
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lwt_debug "flush %a (mempool: %d)"
Block_hash.pp_short (State.Block.hash new_head)
(Operation_hash.Map.cardinal new_mempool) >>= fun () ->
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(* Reset the pre-validation context *)
head := new_head ;
mempool := Mempool.empty ;
operations := empty_result ;
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broadcast_unprocessed := false ;
unprocessed := new_mempool ;
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operation_count := Operation_hash.Map.cardinal new_mempool ;
timestamp := Time.now () ;
live_blocks := new_live_blocks ;
live_operations := new_live_operations ;
(* Reset the prevalidation context. *)
reset_validation_state new_head !timestamp)
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q >>= fun () ->
worker_loop ()
in
Lwt_utils.worker
(Format.asprintf "prevalidator.%a"
Net_id.pp (State.Net.id net_state))
~run:worker_loop ~cancel in
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let flush head =
push_to_worker (`Flush head) ;
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if not (Lwt.is_sleeping !running_validation) then
Lwt.cancel !running_validation
in
let notify_operations gid mempool =
Lwt.async begin fun () ->
push_to_worker (`Register (gid, mempool)) ;
Lwt.return_unit
end in
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let prevalidate_operations force raw_ops =
let ops = List.map Operation.hash raw_ops in
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let ops_map =
List.fold_left
(fun map op ->
Operation_hash.Map.add (Operation.hash op) op map)
Operation_hash.Map.empty raw_ops in
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let wait, waker = Lwt.wait () in
push_to_worker (`Prevalidate (ops_map, waker, force));
wait >>=? fun result ->
return (ops, result) in
let shutdown () =
lwt_debug "shutdown" >>= fun () ->
if not (Lwt.is_sleeping !running_validation) then
Lwt.cancel !running_validation;
cancel () >>= fun () ->
prevalidation_worker in
let pending ?block () =
let ops = preapply_result_operations !operations in
match block with
| None -> Lwt.return ops
| Some to_block -> list_pendings ~from_block:!head ~to_block ops in
let context () =
Lwt.return !validation_state >>=? fun prevalidation_state ->
Prevalidation.end_prevalidation prevalidation_state in
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Lwt.return {
net_db ;
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flush ;
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notify_operations ;
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prevalidate_operations ;
operations =
(fun () ->
{ !operations with applied = List.rev !operations.applied },
!unprocessed) ;
pending ;
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timestamp = (fun () -> !timestamp) ;
context ;
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shutdown ;
}
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
let operations pv = pv.operations ()
let pending ?block pv = pv.pending ?block ()
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let timestamp pv = pv.timestamp ()
let context pv = pv.context ()
let shutdown pv = pv.shutdown ()
let inject_operation pv ?(force = false) (op: Operation.t) =
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let wrap_error h map =
begin
try return (snd (Operation_hash.Map.find h map))
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with Not_found ->
failwith "unexpected protocol result"
end >>=? fun errors ->
Lwt.return (Error errors) in
pv.prevalidate_operations force [op] >>=? function
| ([h], { applied = [h', _] }) when Operation_hash.equal h h' ->
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return ()
| ([h], { refused })
when Operation_hash.Map.cardinal refused = 1 ->
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wrap_error h refused
| ([h], { branch_refused })
when Operation_hash.Map.cardinal branch_refused = 1 && not force ->
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wrap_error h branch_refused
| ([h], { branch_delayed })
when Operation_hash.Map.cardinal branch_delayed = 1 && not force ->
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wrap_error h branch_delayed
| _ ->
if force then
return ()
else
failwith "Unexpected result for prevalidation."