ligo/src/node/shell/validator.ml

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(**************************************************************************)
(* *)
(* Copyright (c) 2014 - 2016. *)
(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
open Logging.Node.Validator
type worker = {
activate: ?parent:t -> State.Net.t -> t Lwt.t ;
get: State.Net_id.t -> t tzresult Lwt.t ;
get_exn: State.Net_id.t -> t Lwt.t ;
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deactivate: t -> unit Lwt.t ;
inject_block:
?force:bool -> MBytes.t ->
(Block_hash.t * State.Valid_block.t tzresult Lwt.t) tzresult Lwt.t ;
notify_block: Block_hash.t -> Store.Block_header.t -> unit Lwt.t ;
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shutdown: unit -> unit Lwt.t ;
valid_block_input: State.Valid_block.t Watcher.input ;
db: Distributed_db.t ;
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}
and t = {
net: State.Net.t ;
worker: worker ;
parent: t option ;
mutable child: t option ;
prevalidator: Prevalidator.t ;
net_db: Distributed_db.net ;
notify_block: Block_hash.t -> Store.Block_header.t -> unit Lwt.t ;
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fetch_block: Block_hash.t -> State.Valid_block.t tzresult Lwt.t ;
create_child: State.Valid_block.t -> unit tzresult Lwt.t ;
test_validator: unit -> (t * Distributed_db.net) option ;
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shutdown: unit -> unit Lwt.t ;
valid_block_input: State.Valid_block.t Watcher.input ;
new_head_input: State.Valid_block.t Watcher.input ;
bootstrapped: unit Lwt.t ;
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}
let net_state { net } = net
let net_db { net_db } = net_db
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let activate w net = w.activate net
let deactivate t = t.worker.deactivate t
let get w = w.get
let get_exn w = w.get_exn
let notify_block w = w.notify_block
let inject_block w = w.inject_block
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let shutdown w = w.shutdown ()
let test_validator w = w.test_validator ()
let fetch_block v = v.fetch_block
let prevalidator v = v.prevalidator
let bootstrapped v = v.bootstrapped
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(** Current block computation *)
let may_change_test_network v (block: State.Valid_block.t) =
let change =
match block.test_network, v.child with
| None, None -> false
| Some _, None
| None, Some _ -> true
| Some (net_id, _), Some { net } ->
let net_id' = State.Net.id net in
not (State.Net_id.equal net_id net_id') in
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if change then begin
v.create_child block >>= function
| Ok () -> Lwt.return_unit
| Error err ->
lwt_log_error "@[<v 2>Error while switch test network:@ %a@]"
Error_monad.pp_print_error err
end else
Lwt.return_unit
let fetch_protocol v hash =
lwt_log_notice "Fetching protocol %a"
Protocol_hash.pp_short hash >>= fun () ->
Distributed_db.Protocol.fetch
v.worker.db hash >>= fun protocol ->
Updater.compile hash protocol >>= fun valid ->
if valid then begin
lwt_log_notice "Successfully compiled protocol %a"
Protocol_hash.pp_short hash >>= fun () ->
Distributed_db.Protocol.commit
v.worker.db hash >>= fun () ->
return true
end else begin
lwt_log_error "Failed to compile protocol %a"
Protocol_hash.pp_short hash >>= fun () ->
failwith "Cannot compile the protocol %a" Protocol_hash.pp_short hash
end
let fetch_protocols v (block: State.Valid_block.t) =
let proto_updated =
match block.protocol with
| Some _ -> return false
| None -> fetch_protocol v block.protocol_hash
and test_proto_updated =
match block.test_protocol with
| Some _ -> return false
| None -> fetch_protocol v block.test_protocol_hash in
proto_updated >>=? fun proto_updated ->
test_proto_updated >>=? fun test_proto_updated ->
if test_proto_updated || proto_updated then
State.Valid_block.read_exn v.net block.hash >>= return
else
return block
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let rec may_set_head v (block: State.Valid_block.t) =
State.Valid_block.Current.head v.net >>= fun head ->
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if Fitness.compare head.fitness block.fitness >= 0 then
Lwt.return_unit
else begin
State.Valid_block.Current.test_and_set_head v.net
~old:head block >>= function
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| false -> may_set_head v block
| true ->
Distributed_db.broadcast_head v.net_db block.hash [] ;
Prevalidator.flush v.prevalidator block ;
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may_change_test_network v block >>= fun () ->
Watcher.notify v.new_head_input block ;
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lwt_log_notice "update current head %a %a %a(%t)"
Block_hash.pp_short block.hash
Fitness.pp block.fitness
Time.pp_hum block.timestamp
(fun ppf ->
if Block_hash.equal head.hash block.pred then
Format.fprintf ppf "same branch"
else
Format.fprintf ppf "changing branch") >>= fun () ->
Lwt.return_unit
end
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(** Block validation *)
type error +=
| Invalid_operation of Operation_hash.t
| Non_increasing_timestamp
| Non_increasing_fitness
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let apply_block net db
(pred: State.Valid_block.t) hash (block: State.Block_header.t) =
let id = State.Net.id net in
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lwt_log_notice "validate block %a (after %a), net %a"
Block_hash.pp_short hash
Block_hash.pp_short block.shell.predecessor
State.Net_id.pp id
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>>= fun () ->
lwt_log_info "validation of %a: looking for dependencies..."
Block_hash.pp_short hash >>= fun () ->
Lwt_list.map_p
(fun op -> Distributed_db.Operation.fetch db op)
block.shell.operations >>= fun operations ->
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lwt_debug "validation of %a: found operations"
Block_hash.pp_short hash >>= fun () ->
begin (* Are we validating a block in an expired test network ? *)
match State.Net.expiration net with
| Some eol when Time.(eol <= block.shell.timestamp) ->
failwith "This test network expired..."
| None | Some _ -> return ()
end >>=? fun () ->
begin
if Time.(pred.timestamp >= block.shell.timestamp) then
fail Non_increasing_timestamp
else
return ()
end >>=? fun () ->
begin
if Fitness.compare pred.fitness block.shell.fitness >= 0 then
fail Non_increasing_fitness
else
return ()
end >>=? fun () ->
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begin
match pred.protocol with
| None -> fail (State.Unknown_protocol pred.protocol_hash)
| Some p ->
Context.set_timestamp pred.context block.shell.timestamp >>= fun c ->
return (p, c)
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end >>=? fun ((module Proto), patched_context) ->
lwt_debug "validation of %a: Proto %a"
Block_hash.pp_short hash
Protocol_hash.pp_short Proto.hash >>= fun () ->
lwt_debug "validation of %a: parsing header..."
Block_hash.pp_short hash >>= fun () ->
Lwt.return (Proto.parse_block block pred.timestamp) >>=? fun parsed_header ->
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lwt_debug "validation of %a: parsing operations..."
Block_hash.pp_short hash >>= fun () ->
map2_s
(fun op_hash raw ->
Lwt.return (Proto.parse_operation op_hash raw)
|> trace (Invalid_operation op_hash))
block.Store.Block_header.shell.operations
operations >>=? fun parsed_operations ->
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lwt_debug "validation of %a: applying block..."
Block_hash.pp_short hash >>= fun () ->
Proto.apply
patched_context parsed_header parsed_operations >>=? fun new_context ->
lwt_log_info "validation of %a: success"
Block_hash.pp_short hash >>= fun () ->
return new_context
(** *)
module Context_db = struct
type key = Block_hash.t
type value = State.Valid_block.t
type data =
{ validator: t ;
state: [ `Inited of Store.Block_header.t tzresult
| `Initing of Store.Block_header.t tzresult Lwt.t
| `Running of State.Valid_block.t tzresult Lwt.t ] ;
wakener: State.Valid_block.t tzresult Lwt.u }
type context =
{ tbl : data Block_hash.Table.t ;
canceler : Lwt_utils.Canceler.t ;
worker_trigger: unit -> unit;
worker_waiter: unit -> unit Lwt.t ;
worker: unit Lwt.t ;
net_db : Distributed_db.net ;
net_state : State.Net.t }
let pending_requests { tbl } =
Block_hash.Table.fold
(fun h data acc ->
match data.state with
| `Initing _ -> acc
| `Running _ -> acc
| `Inited d -> (h, d, data) :: acc)
tbl []
let pending { tbl } hash = Block_hash.Table.mem tbl hash
let request validator { tbl ; worker_trigger ; net_db } hash =
assert (not (Block_hash.Table.mem tbl hash));
let waiter, wakener = Lwt.wait () in
let data =
Distributed_db.Block_header.fetch net_db hash >>= return in
match Lwt.state data with
| Lwt.Return data ->
let state = `Inited data in
Block_hash.Table.add tbl hash { validator ; state ; wakener } ;
worker_trigger () ;
waiter
| _ ->
let state = `Initing data in
Block_hash.Table.add tbl hash { validator ; state ; wakener } ;
Lwt.async
(fun () ->
data >>= fun data ->
let state = `Inited data in
Block_hash.Table.replace tbl hash { validator ; state ; wakener } ;
worker_trigger () ;
Lwt.return_unit) ;
waiter
let prefetch validator ({ net_state ; tbl } as session) hash =
Lwt.ignore_result
(State.Valid_block.known net_state hash >>= fun exists ->
if not exists && not (Block_hash.Table.mem tbl hash) then
request validator session hash >>= fun _ -> Lwt.return_unit
else
Lwt.return_unit)
let known { net_state } hash =
State.Valid_block.known net_state hash
let read { net_state } hash =
State.Valid_block.read net_state hash
let fetch ({ net_state ; tbl } as session) validator hash =
try Lwt.waiter_of_wakener (Block_hash.Table.find tbl hash).wakener
with Not_found ->
State.Valid_block.read_opt net_state hash >>= function
| Some op ->
Lwt.return (Ok op)
| None ->
try Lwt.waiter_of_wakener (Block_hash.Table.find tbl hash).wakener
with Not_found -> request validator session hash
let store { net_state ; net_db ; tbl } hash data =
begin
match data with
| Ok data ->
Distributed_db.Block_header.commit net_db hash >>= fun () ->
begin
State.Valid_block.store net_state hash data >>=? function
| None ->
State.Valid_block.read net_state hash >>=? fun block ->
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Lwt_list.iter_p (fun hash ->
Distributed_db.Operation.commit net_db hash)
block.operations >>= fun () ->
return (Ok block, false)
| Some block ->
Lwt_list.iter_p (fun hash ->
Distributed_db.Operation.commit net_db hash)
block.operations >>= fun () ->
return (Ok block, true)
end
| Error err ->
State.Block_header.mark_invalid net_state hash err >>= fun changed ->
return (Error err, changed)
end >>= function
| Ok (block, changed) ->
let wakener = (Block_hash.Table.find tbl hash).wakener in
Block_hash.Table.remove tbl hash;
Lwt.wakeup wakener block ;
Lwt.return changed
| Error _ as err ->
let wakener = (Block_hash.Table.find tbl hash).wakener in
Block_hash.Table.remove tbl hash;
Lwt.wakeup wakener err ;
Lwt.return false
let process (v:t) ~get_context ~set_context hash block =
let state = Distributed_db.state v.net_db in
get_context v block.State.Block_header.shell.predecessor >>= function
| Error _ as error ->
set_context v hash (Error [(* TODO *)]) >>= fun () ->
Lwt.return error
| Ok _context ->
lwt_debug "process %a" Block_hash.pp_short hash >>= fun () ->
begin
State.Valid_block.Current.genesis state >>= fun genesis ->
if Block_hash.equal genesis.hash block.shell.predecessor then
Lwt.return genesis
else
State.Valid_block.read_exn state block.shell.predecessor
end >>= fun pred ->
apply_block state v.net_db pred hash block >>= function
| Error ([State.Unknown_protocol _] as err) as error ->
lwt_log_error
"@[<v 2>Ignoring block %a@ %a@]"
Block_hash.pp_short hash
Error_monad.pp_print_error err >>= fun () ->
Lwt.return error
| Error exns as error ->
set_context v hash error >>= fun () ->
lwt_warn "Failed to validate block %a."
Block_hash.pp_short hash >>= fun () ->
lwt_debug "%a" Error_monad.pp_print_error exns >>= fun () ->
Lwt.return error
| Ok new_context ->
(* The sanity check `set_context` detects differences
between the computed fitness and the fitness announced
in the block header. Then `Valid_block.read` will
return an error. *)
set_context v hash (Ok new_context) >>= fun () ->
State.Valid_block.read state hash >>= function
| Error err as error ->
lwt_log_error
"@[<v 2>Ignoring block %a@ %a@]"
Block_hash.pp_short hash
Error_monad.pp_print_error err >>= fun () ->
Lwt.return error
| Ok block ->
lwt_debug
"validation of %a: reevaluate current block"
Block_hash.pp_short hash >>= fun () ->
Watcher.notify v.worker.valid_block_input block ;
Watcher.notify v.valid_block_input block ;
fetch_protocols v block >>=? fun block ->
may_set_head v block >>= fun () ->
return block
let request session ~get_context ~set_context pendings =
let time = Time.now () in
let min_block b pb =
match pb with
| None -> Some b
| Some pb
when b.Store.Block_header.shell.timestamp
< pb.Store.Block_header.shell.timestamp ->
Some b
| Some _ as pb -> pb in
let next =
List.fold_left
(fun acc (hash, block, (data : data)) ->
match block with
| Error _ ->
acc
| Ok block ->
if Time.(block.Store.Block_header.shell.timestamp > time) then
min_block block acc
else begin
Block_hash.Table.replace session.tbl hash { data with state = `Running begin
Lwt_main.yield () >>= fun () ->
process data.validator ~get_context ~set_context hash block >>= fun res ->
Block_hash.Table.remove session.tbl hash ;
Lwt.return res
end } ;
acc
end)
None
pendings in
match next with
| None -> 0.
| Some b -> Int64.to_float (Time.diff b.Store.Block_header.shell.timestamp time)
let create net_db =
let net_state = Distributed_db.state net_db in
let tbl = Block_hash.Table.create 50 in
let canceler = Lwt_utils.Canceler.create () in
let worker_trigger, worker_waiter = Lwt_utils.trigger () in
let session =
{ tbl ; net_db ; net_state ; worker = Lwt.return () ;
canceler ; worker_trigger ; worker_waiter } in
let worker =
let rec worker_loop () =
Lwt_utils.protect ~canceler begin fun () ->
worker_waiter () >>= return
end >>= function
| Error [Lwt_utils.Canceled] -> Lwt.return_unit
| Error err ->
lwt_log_error
"@[Unexpected error in validation:@ %a@]"
pp_print_error err >>= fun () ->
worker_loop ()
| Ok () ->
begin
match pending_requests session with
| [] -> ()
| requests ->
let set_context _validator hash context =
store session hash context >>= fun _ ->
Lwt.return_unit in
let timeout =
request session
~get_context:(fetch session)
~set_context requests in
if timeout > 0. then
Lwt.ignore_result
(Lwt_unix.sleep timeout >|= worker_trigger);
end ;
worker_loop ()
in
Lwt_utils.worker "validation"
~run:worker_loop
~cancel:(fun () -> Lwt_utils.Canceler.cancel canceler) in
{ session with worker }
let shutdown { canceler ; worker } =
Lwt_utils.Canceler.cancel canceler >>= fun () -> worker
end
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let rec create_validator ?parent worker state db net =
let queue = Lwt_pipe.create () in
let current_ops = ref (fun () -> []) in
let callback : Distributed_db.callback = {
notify_branch = begin fun gid locator ->
Lwt.async (fun () -> Lwt_pipe.push queue (`Branch (gid, locator)))
end ;
current_branch = begin fun size ->
State.Valid_block.Current.head net >>= fun head ->
State.Valid_block.Helpers.block_locator net size head
end ;
notify_head = begin fun gid block ops ->
Lwt.async (fun () -> Lwt_pipe.push queue (`Head (gid, block, ops))) ;
end ;
current_head = begin fun size ->
State.Valid_block.Current.head net >>= fun head ->
Lwt.return (head.hash, Utils.list_sub (!current_ops ()) size)
end ;
disconnection = (fun _gid -> ()) ;
} in
let net_id = State.Net.id net in
let net_db = Distributed_db.activate ~callback db net in
let session = Context_db.create net_db in
Prevalidator.create net_db >>= fun prevalidator ->
current_ops :=
(fun () ->
let res, _ = Prevalidator.operations prevalidator in
res.applied);
let new_blocks = ref Lwt.return_unit in
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let shutdown () =
lwt_log_notice "shutdown %a" State.Net_id.pp net_id >>= fun () ->
Distributed_db.deactivate net_db >>= fun () ->
Lwt_pipe.close queue ;
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Lwt.join [
Context_db.shutdown session ;
!new_blocks ;
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Prevalidator.shutdown prevalidator ;
]
in
let valid_block_input = Watcher.create_input () in
let new_head_input = Watcher.create_input () in
let bootstrapped =
(* TODO improve by taking current peers count and current
locators into account... *)
let stream, stopper =
Watcher.create_stream valid_block_input in
let rec wait () =
Lwt.pick [ ( Lwt_stream.get stream ) ;
( Lwt_unix.sleep 30. >|= fun () -> None) ] >>= function
| Some block
when Time.(block.State.Valid_block.timestamp < add (Time.now ()) (-60L)) ->
wait ()
| _ ->
State.Valid_block.Current.head net >>= fun head ->
State.Valid_block.Current.genesis net >>= fun genesis ->
if Block_hash.equal head.hash genesis.hash then
wait ()
else
Lwt.return_unit in
let t =
wait () >>= fun () ->
Watcher.shutdown stopper ;
Lwt.return_unit in
Lwt.no_cancel t
in
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let rec v = {
net ;
worker ;
parent ;
child = None ;
prevalidator ;
net_db ;
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shutdown ;
notify_block ;
fetch_block ;
create_child ;
test_validator ;
bootstrapped ;
new_head_input ;
valid_block_input ;
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}
and notify_block hash block =
lwt_debug "-> Validator.notify_block %a"
Block_hash.pp_short hash >>= fun () ->
State.Valid_block.Current.head net >>= fun head ->
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if Fitness.compare head.fitness block.shell.fitness <= 0 then
Context_db.prefetch v session hash ;
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Lwt.return_unit
and fetch_block hash =
Context_db.fetch session v hash
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and create_child block =
begin
match v.child with
| None -> Lwt.return_unit
| Some child ->
v.child <- None ;
deactivate child
end >>= fun () ->
match block.test_network with
| None -> return ()
| Some (net_id, expiration) ->
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begin
State.Net.get state net_id >>= function
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| Ok net_store -> return net_store
| Error _ ->
State.Valid_block.fork_testnet
state net block expiration >>=? fun net_store ->
State.Valid_block.Current.head net_store >>= fun block ->
Watcher.notify v.worker.valid_block_input block ;
return net_store
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end >>=? fun net_store ->
worker.activate ~parent:v net_store >>= fun child ->
v.child <- Some child ;
return ()
and test_validator () =
match v.child with
| None -> None
| Some child -> Some (child, child.net_db)
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in
new_blocks := begin
let rec loop () =
Lwt_pipe.pop queue >>= function
| `Branch (_gid, locator) ->
List.iter (Context_db.prefetch v session) locator ;
loop ()
| `Head (gid, head, ops) ->
Context_db.prefetch v session head ;
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Prevalidator.notify_operations prevalidator gid ops ;
loop ()
in
Lwt.catch loop
(function Lwt_pipe.Closed -> Lwt.return_unit
| exn -> Lwt.fail exn)
end ;
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Lwt.return v
type error += Unknown_network of State.Net_id.t
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let create_worker state db =
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let validators : t Lwt.t State.Net_id.Table.t =
Store.Net_id.Table.create 7 in
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let valid_block_input = Watcher.create_input () in
let get_exn net = State.Net_id.Table.find validators net in
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let get net =
try get_exn net >>= fun v -> return v
with Not_found -> fail (State.Unknown_network net) in
let remove net = State.Net_id.Table.remove validators net in
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let deactivate { net } =
let id = State.Net.id net in
get id >>= function
| Error _ -> Lwt.return_unit
| Ok v ->
lwt_log_notice "deactivate network %a" State.Net_id.pp id >>= fun () ->
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remove id ;
v.shutdown ()
in
let notify_block hash (block : Store.Block_header.t) =
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match get_exn block.shell.net_id with
| exception Not_found -> Lwt.return_unit
| net ->
net >>= fun net ->
net.notify_block hash block in
let cancelation, cancel, _on_cancel = Lwt_utils.canceler () in
let maintenance_worker =
let next_net_maintenance = ref (Time.now ()) in
let net_maintenance () =
lwt_log_info "net maintenance" >>= fun () ->
let time = Time.now () in
Store.Net_id.Table.fold
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(fun _ v acc ->
v >>= fun v ->
acc >>= fun () ->
match State.Net.expiration v.net with
| Some eol when Time.(eol <= time) -> deactivate v
| Some _ | None -> Lwt.return_unit)
validators Lwt.return_unit >>= fun () ->
State.Net.all state >>= fun all_net ->
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Lwt_list.iter_p
(fun net ->
match State.Net.expiration net with
| Some eol when Time.(eol <= time) ->
lwt_log_notice "destroy network %a"
State.Net_id.pp (State.Net.id net) >>= fun () ->
State.Net.destroy state net
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| Some _ | None -> Lwt.return_unit)
all_net >>= fun () ->
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next_net_maintenance := Time.add (Time.now ()) (Int64.of_int 55) ;
Lwt.return_unit in
let next_head_maintenance = ref (Time.now ()) in
let head_maintenance () =
lwt_log_info "head maintenance" >>= fun () ->
(* TODO *)
next_head_maintenance := Time.add (Time.now ()) (Int64.of_int 55) ;
Lwt.return_unit in
let rec worker_loop () =
let timeout =
let next = min !next_head_maintenance !next_net_maintenance in
let delay = Time.(diff next (now ())) in
if delay <= 0L then
Lwt.return_unit
else
Lwt_unix.sleep (Int64.to_float delay) in
Lwt.pick [(timeout >|= fun () -> `Process);
(cancelation () >|= fun () -> `Cancel)] >>= function
| `Cancel -> Lwt.return_unit
| `Process ->
begin
if !next_net_maintenance < Time.now () then
net_maintenance ()
else
Lwt.return ()
end >>= fun () ->
begin
if !next_head_maintenance < Time.now () then
head_maintenance ()
else
Lwt.return ()
end >>= fun () ->
worker_loop ()
in
Lwt_utils.worker "validator_maintenance" ~run:worker_loop ~cancel in
let shutdown () =
cancel () >>= fun () ->
let validators =
Store.Net_id.Table.fold
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(fun _ (v: t Lwt.t) acc -> (v >>= fun v -> v.shutdown ()) :: acc)
validators [] in
Lwt.join (maintenance_worker :: validators) in
let inject_block ?(force = false) bytes =
Distributed_db.inject_block db bytes >>=? fun (hash, block) ->
get block.shell.net_id >>=? fun net ->
let validation =
State.Valid_block.Current.head net.net >>= fun head ->
if force
|| Fitness.compare head.fitness block.shell.fitness <= 0 then
fetch_block net hash
else
failwith "Fitness is below the current one" in
return (hash, validation) in
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let rec activate ?parent net =
lwt_log_notice "activate network %a"
State.Net_id.pp (State.Net.id net) >>= fun () ->
State.Valid_block.Current.genesis net >>= fun genesis ->
let net_id = State.Net_id.Id genesis.hash in
get net_id >>= function
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| Error _ ->
let v = create_validator ?parent worker state db net in
Store.Net_id.Table.add validators net_id v ;
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v
| Ok v -> Lwt.return v
and worker = {
get ; get_exn ;
activate ; deactivate ;
notify_block ;
inject_block ;
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shutdown ;
valid_block_input ;
db ;
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}
in
worker
let new_head_watcher ({ new_head_input } : t) =
Watcher.create_stream new_head_input
let watcher ({ valid_block_input } : t) =
Watcher.create_stream valid_block_input
let global_watcher ({ valid_block_input } : worker) =
Watcher.create_stream valid_block_input