(**************************************************************************) (* *) (* Copyright (c) 2014 - 2016. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) open Logging.Client.Mining module Ed25519 = Environment.Ed25519 let generate_proof_of_work_nonce () = Sodium.Random.Bigbytes.generate Constants.proof_of_work_nonce_size let generate_seed_nonce () = match Nonce.of_bytes @@ Sodium.Random.Bigbytes.generate Constants.nonce_length with | Error _ -> assert false | Ok nonce -> nonce let rec compute_stamp block delegate_sk shell mining_slot seed_nonce_hash = Client_proto_rpcs.Constants.stamp_threshold block >>=? fun stamp_threshold -> let rec loop () = let proof_of_work_nonce = generate_proof_of_work_nonce () in let unsigned_header = Tezos_context.Block.forge_header shell { mining_slot ; seed_nonce_hash ; proof_of_work_nonce } in let signed_header = Ed25519.append_signature delegate_sk unsigned_header in let block_hash = Block_hash.hash_bytes [signed_header] in if Mining.check_hash block_hash stamp_threshold then proof_of_work_nonce else loop () in return (loop ()) let inject_block block ?force ~priority ~timestamp ~fitness ~seed_nonce ~src_sk operations = let block = match block with `Prevalidation -> `Head 0 | block -> block in Client_node_rpcs.Blocks.info block >>= fun bi -> let seed_nonce_hash = Nonce.hash seed_nonce in Client_proto_rpcs.Context.next_level block >>=? fun level -> let shell = { Store.net_id = bi.net ; predecessor = bi.hash ; timestamp ; fitness ; operations } in let slot = level.level, Int32.of_int priority in compute_stamp block src_sk shell slot seed_nonce_hash >>=? fun proof_of_work_nonce -> Client_proto_rpcs.Helpers.Forge.block block ~net:bi.net ~predecessor:bi.hash ~timestamp ~fitness ~operations ~level:level.level ~priority:priority ~seed_nonce_hash ~proof_of_work_nonce () >>=? fun unsigned_header -> let signed_header = Ed25519.append_signature src_sk unsigned_header in Client_node_rpcs.inject_block ~wait:true ?force signed_header >>=? fun block_hash -> return block_hash let forge_block block ?force ?operations ?(best_effort = operations = None) ?(sort = best_effort) ?timestamp ?max_priority ?priority ~seed_nonce ~src_sk src_pkh = let block = match block with | `Prevalidation -> `Head 0 | `Test_prevalidation -> `Test_head 0 | block -> block in Client_proto_rpcs.Context.level block >>=? fun level -> let level = Raw_level.succ level.level in begin match operations with | None -> Client_node_rpcs.Blocks.pending_operations block >|= fun (ops, pendings) -> Operation_hash_set.elements @@ Operation_hash_set.union (Updater.operations ops) pendings | Some operations -> Lwt.return operations end >>= fun operations -> begin match priority with | Some prio -> begin Client_proto_rpcs.Helpers.minimal_time block ~prio () >>=? fun time -> return (prio, Some time) end | None -> Client_proto_rpcs.Helpers.Rights.mining_rights_for_delegate ?max_priority ~first_level:level ~last_level:level block src_pkh () >>=? fun possibilities -> try let _, prio, time = List.find (fun (l,_,_) -> l = level) possibilities in return (prio, time) with Not_found -> failwith "No slot found at level %a" Raw_level.pp level end >>=? fun (priority, minimal_timestamp) -> lwt_log_info "Mining block at level %a prio %d" Raw_level.pp level priority >>= fun () -> begin match timestamp, minimal_timestamp with | None, None -> failwith "Can't compute the expected timestamp" | None, timestamp | timestamp, None -> return timestamp | Some timestamp, Some minimal_timestamp -> if timestamp < minimal_timestamp then failwith "Proposed timestamp %a is earlier than minimal timestamp %a" Time.pp_hum timestamp Time.pp_hum minimal_timestamp else return (Some timestamp) end >>=? fun timestamp -> let request = List.length operations in Client_node_rpcs.Blocks.preapply block ?timestamp ~sort operations >>=? fun { operations ; fitness ; timestamp } -> let valid = List.length operations.applied in lwt_log_info "Found %d valid operations (%d refused) for timestamp %a" valid (request - valid) Time.pp_hum timestamp >>= fun () -> lwt_log_info "Computed fitness %a" Fitness.pp fitness >>= fun () -> if best_effort || ( Operation_hash_map.is_empty operations.refused && Operation_hash_map.is_empty operations.branch_refused && Operation_hash_map.is_empty operations.branch_delayed ) then inject_block ?force ~src_sk ~priority ~timestamp ~fitness ~seed_nonce block operations.applied else failwith "Cannot (fully) validate the given operations." (** Worker *) module State : sig val get_block: Raw_level.t -> Block_hash.t list tzresult Lwt.t val record_block: Raw_level.t -> Block_hash.t -> Nonce.t -> unit tzresult Lwt.t end = struct module LevelMap = Map.Make(Raw_level) type t = Block_hash.t list LevelMap.t let encoding : t Data_encoding.t = let open Data_encoding in conv (fun x -> LevelMap.bindings x) (fun l -> List.fold_left (fun x (y, z) -> LevelMap.add y z x) LevelMap.empty l) (list (obj2 (req "level" Raw_level.encoding) (req "blocks" (list Block_hash.encoding)))) let filename () = Client_config.(base_dir#get // "blocks") let load () = let filename = filename () in if not (Sys.file_exists filename) then return LevelMap.empty else Data_encoding.Json.read_file filename >>= function | None -> failwith "couldn't to read the block file" | Some json -> match Data_encoding.Json.destruct encoding json with | exception _ -> (* TODO print_error *) failwith "didn't understand the block file" | map -> return map let save map = Lwt.catch (fun () -> let dirname = Client_config.base_dir#get in (if not (Sys.file_exists dirname) then Utils.create_dir dirname else Lwt.return ()) >>= fun () -> let filename = filename () in let json = Data_encoding.Json.construct encoding map in Data_encoding.Json.write_file filename json >>= function | false -> failwith "Json.write_file" | true -> return ()) (fun exn -> failwith "could not write the block file: %s." (Printexc.to_string exn)) let lock = Lwt_mutex.create () let get_block level = Lwt_mutex.with_lock lock (fun () -> load () >>=? fun map -> try let blocks = LevelMap.find level map in return blocks with Not_found -> return []) let record_block level hash nonce = Lwt_mutex.with_lock lock (fun () -> load () >>=? fun map -> let previous = try LevelMap.find level map with Not_found -> [] in save (LevelMap.add level (hash :: previous) map)) >>=? fun () -> Client_proto_nonces.add hash nonce end let get_mining_slot ?max_priority (bi: Client_mining_blocks.block_info) delegates = let block = `Hash bi.hash in let level = Raw_level.succ bi.level.level in Lwt_list.filter_map_p (fun delegate -> Client_proto_rpcs.Helpers.Rights.mining_rights_for_delegate ?max_priority ~first_level:level ~last_level:level block delegate () >>= function | Error errs -> log_error "Error while fetching mining possibilities:\n%a" pp_print_error errs ; Lwt.return_none | Ok slots -> let convert = function | (_,_,None) -> None | (_lvl, slot, Some timestamp) -> Some (timestamp, (bi, slot, delegate)) in Lwt.return (Some (Utils.filter_map convert slots))) delegates >>= fun slots -> let sorted_slots = List.sort (fun (t1,_) (t2,_) -> Time.compare t1 t2) (List.flatten slots) in match sorted_slots with | [] -> Lwt.return None | slot :: _ -> Lwt.return (Some slot) let rec insert_mining_slot slot = function | [] -> [slot] | ((timestamp,_) :: _) as slots when Time.(fst slot < timestamp) -> slot :: slots | slot' :: slots -> slot' :: insert_mining_slot slot slots type state = { genesis: Block_hash.t ; delegates: public_key_hash list ; mutable best_fitness: Fitness.t ; mutable future_slots: (Time.t * (Client_mining_blocks.block_info * int * public_key_hash)) list ; } let create_state genesis delegates best_fitness = { genesis ; delegates ; best_fitness ; future_slots = [] ; } let compute_timeout { future_slots } = match future_slots with | [] -> Lwt_utils.never_ending | (timestamp, _) :: _ -> let now = Time.now () in let delay = Time.diff timestamp now in if delay <= 0L then Lwt.return_unit else Lwt_unix.sleep (Int64.to_float delay) let insert_block ?max_priority state (bi: Client_mining_blocks.block_info) = if Fitness.compare state.best_fitness bi.fitness < 0 then state.best_fitness <- bi.fitness ; get_mining_slot ?max_priority bi state.delegates >>= function | None -> lwt_debug "Can't compute slot for %a" Block_hash.pp_short bi.hash >>= fun () -> Lwt.return_unit | Some ((timestamp, (_,_,delegate)) as slot) -> Client_keys.Public_key_hash.name delegate >>= fun name -> lwt_log_info "New mining slot at %a for %s after %a" Time.pp_hum timestamp name Block_hash.pp_short bi.hash >>= fun () -> state.future_slots <- insert_mining_slot slot state.future_slots ; Lwt.return_unit let pop_mining_slots state = let now = Time.now () in let rec pop acc = function | [] -> List.rev acc, [] | ((timestamp,_) :: _) as slots when Time.compare now timestamp < 0 -> List.rev acc, slots | slot :: slots -> pop (slot :: acc) slots in let slots, future_slots = pop [] state.future_slots in state.future_slots <- future_slots ; slots let insert_blocks ?max_priority state bis = Lwt_list.iter_s (insert_block ?max_priority state) bis let mine state = let slots = pop_mining_slots state in Lwt_list.map_p (fun (timestamp, (bi, prio, delegate)) -> let block = `Hash bi.Client_mining_blocks.hash in let timestamp = if Block_hash.equal bi.Client_mining_blocks.hash state.genesis then Time.now () else timestamp in Client_keys.Public_key_hash.name delegate >>= fun name -> lwt_debug "Try mining after %a (slot %d) for %s (%a)" Block_hash.pp_short bi.hash prio name Time.pp_hum timestamp >>= fun () -> Client_node_rpcs.Blocks.pending_operations block >>= fun (res, ops) -> let operations = let open Operation_hash_set in elements (union ops (Updater.operations res)) in let request = List.length operations in Client_node_rpcs.Blocks.preapply block ~timestamp ~sort:true operations >>= function | Error errs -> lwt_log_error "Error while prevalidating operations:\n%a" pp_print_error errs >>= fun () -> Lwt.return_none | Ok { operations ; fitness ; timestamp } -> lwt_debug "Computed condidate block after %a (slot %d): %d/%d fitness: %a" Block_hash.pp_short bi.hash prio (List.length operations.applied) request Fitness.pp fitness >>= fun () -> Lwt.return (Some (bi, prio, fitness, timestamp, operations, delegate))) slots >>= fun candidates -> let candidates = List.sort (fun (_,_,f1,_,_,_) (_,_,f2,_,_,_) -> ~- (Fitness.compare f1 f2)) (Utils.unopt_list candidates) in match candidates with | (bi, priority, fitness, timestamp, operations, delegate) :: _ when Fitness.compare state.best_fitness fitness < 0 -> begin let level = Raw_level.succ bi.level.level in lwt_log_info "Select candidate block after %a (slot %d) fitness: %a" Block_hash.pp_short bi.hash priority Fitness.pp fitness >>= fun () -> let seed_nonce = generate_seed_nonce () in Client_keys.get_key delegate >>=? fun (_,_,src_sk) -> inject_block ~force:true ~src_sk ~priority ~timestamp ~fitness ~seed_nonce (`Hash bi.hash) operations.applied |> trace_exn (Failure "Error while injecting block") >>=? fun block_hash -> State.record_block level block_hash seed_nonce |> trace_exn (Failure "Error while recording block") >>=? fun () -> Client_keys.Public_key_hash.name delegate >>= fun name -> Cli_entries.message "Injected block %a for %s after %a \ \ (level %a, slot %d, fitness %a, operations %d)" Block_hash.pp_short block_hash name Block_hash.pp_short bi.hash Raw_level.pp level priority Fitness.pp fitness (List.length operations.applied) ; return () end | _ -> lwt_debug "No valid candidates." >>= fun () -> return () let create ?max_priority delegates (block_stream: Client_mining_blocks.block_info list Lwt_stream.t) (endorsement_stream: Client_mining_operations.valid_endorsement Lwt_stream.t) = Lwt_stream.get block_stream >>= function | None | Some [] -> Cli_entries.error "Can't fetch the current block head." | Some ({ Client_mining_blocks.fitness } :: _ as initial_heads) -> Client_node_rpcs.Blocks.hash `Genesis >>= fun genesis_hash -> let last_get_block = ref None in let get_block () = match !last_get_block with | None -> let t = Lwt_stream.get block_stream in last_get_block := Some t ; t | Some t -> t in let last_get_endorsement = ref None in let get_endorsement () = match !last_get_endorsement with | None -> let t = Lwt_stream.get endorsement_stream in last_get_endorsement := Some t ; t | Some t -> t in let state = create_state genesis_hash delegates fitness in insert_blocks ?max_priority state initial_heads >>= fun () -> let rec worker_loop () = let timeout = compute_timeout state in Lwt.choose [ (timeout >|= fun () -> `Timeout) ; (get_block () >|= fun b -> `Hash b) ; (get_endorsement () >|= fun e -> `Endorsement e) ; ] >>= function | `Hash None | `Endorsement None -> Lwt.return_unit | `Hash (Some bis) -> begin Lwt.cancel timeout ; last_get_block := None ; lwt_debug "@[Discoverer blocks:@ %a@]" (Format.pp_print_list (fun ppf bi -> Block_hash.pp_short ppf bi.Client_mining_blocks.hash)) bis >>= fun () -> insert_blocks ?max_priority state bis >>= fun () -> worker_loop () end | `Endorsement (Some e) -> Lwt.cancel timeout ; last_get_endorsement := None ; Client_keys.Public_key_hash.name e.Client_mining_operations.source >>= fun _source -> (* TODO *) worker_loop () | `Timeout -> lwt_debug "Waking up for mining..." >>= fun () -> begin mine state >>= function | Ok () -> Lwt.return_unit | Error errs -> lwt_log_error "Error while mining:\n%a" pp_print_error errs >>= fun () -> Lwt.return_unit end >>= fun () -> worker_loop () in lwt_log_info "Starting mining daemon" >>= fun () -> worker_loop () (* FIXME bug in ocamldep ?? *) open Level