ligo/src/lib_shell/validator.ml

134 lines
4.9 KiB
OCaml

(**************************************************************************)
(* *)
(* Copyright (c) 2014 - 2018. *)
(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
include Logging.Make(struct let name = "node.validator" end)
type t = {
state: State.t ;
db: Distributed_db.t ;
block_validator: Block_validator.t ;
chain_validator_limits: Chain_validator.limits ;
peer_validator_limits: Peer_validator.limits ;
block_validator_limits: Block_validator.limits ;
prevalidator_limits: Prevalidator.limits ;
valid_block_input: State.Block.t Lwt_watcher.input ;
active_chains: Chain_validator.t Lwt.t Chain_id.Table.t ;
}
let create state db
peer_validator_limits
block_validator_limits
prevalidator_limits
chain_validator_limits =
Block_validator.create block_validator_limits db >>= fun block_validator ->
let valid_block_input = Lwt_watcher.create_input () in
Lwt.return
{ state ; db ; block_validator ;
block_validator_limits ; prevalidator_limits ;
peer_validator_limits ; chain_validator_limits ;
valid_block_input ;
active_chains = Chain_id.Table.create 7 }
let activate v ?max_child_ttl ~start_prevalidator chain_state =
let chain_id = State.Chain.id chain_state in
lwt_log_notice "activate chain %a" Chain_id.pp chain_id >>= fun () ->
try Chain_id.Table.find v.active_chains chain_id
with Not_found ->
let nv =
Chain_validator.create
?max_child_ttl
~start_prevalidator
v.peer_validator_limits v.prevalidator_limits
v.block_validator v.valid_block_input v.db chain_state
v.chain_validator_limits in
Chain_id.Table.add v.active_chains chain_id nv ;
nv
let get_exn { active_chains } chain_id =
Chain_id.Table.find active_chains chain_id
let get v chain_id =
try get_exn v chain_id >>= fun nv -> return nv
with Not_found -> fail (Validation_errors.Inactive_chain chain_id)
let validate_block v ?(force = false) ?chain_id bytes operations =
let hash = Block_hash.hash_bytes [bytes] in
match Block_header.of_bytes bytes with
| None -> failwith "Cannot parse block header."
| Some block ->
begin
match chain_id with
| None -> begin
Distributed_db.read_block_header
v.db block.shell.predecessor >>= function
| None ->
failwith "Unknown predecessor (%a), cannot inject the block."
Block_hash.pp_short block.shell.predecessor
| Some (chain_id, _bh) -> get v chain_id
end
| Some chain_id ->
get v chain_id >>=? fun nv ->
if force then
return nv
else
Distributed_db.Block_header.known
(Chain_validator.chain_db nv)
block.shell.predecessor >>= function
| true ->
return nv
| false ->
failwith "Unknown predecessor (%a), cannot inject the block."
Block_hash.pp_short block.shell.predecessor
end >>=? fun nv ->
let validation =
Chain_validator.validate_block nv ~force hash block operations in
return (hash, validation)
let shutdown { active_chains ; block_validator } =
let jobs =
Block_validator.shutdown block_validator ::
Chain_id.Table.fold
(fun _ nv acc -> (nv >>= Chain_validator.shutdown) :: acc)
active_chains [] in
Lwt.join jobs >>= fun () ->
Lwt.return_unit
let watcher { valid_block_input } =
Lwt_watcher.create_stream valid_block_input
let inject_operation v ?chain_id op =
begin
match chain_id with
| None -> begin
Distributed_db.read_block_header
v.db op.Operation.shell.branch >>= function
| None ->
failwith "Unknown branch (%a), cannot inject the operation."
Block_hash.pp_short op.shell.branch
| Some (chain_id, _bh) -> get v chain_id
end
| Some chain_id ->
get v chain_id >>=? fun nv ->
Distributed_db.Block_header.known
(Chain_validator.chain_db nv)
op.shell.branch >>= function
| true ->
return nv
| false ->
failwith "Unknown branch (%a), cannot inject the operation."
Block_hash.pp_short op.shell.branch
end >>=? fun nv ->
let pv_opt = Chain_validator.prevalidator nv in
match pv_opt with
| Some pv -> Prevalidator.inject_operation pv op
| None -> failwith "Prevalidator is not running, cannot inject the operation."