(**************************************************************************) (* *) (* Copyright (c) 2014 - 2016. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) open Hash module type DATA = sig type t val compare: t -> t -> int val equal: t -> t -> bool val pp: Format.formatter -> t -> unit val encoding: t Data_encoding.t val to_bytes: t -> MBytes.t val of_bytes: MBytes.t -> t option end module type HASHABLE_DATA = sig include DATA type hash val hash: t -> hash val hash_raw: MBytes.t -> hash end module Fitness = struct type t = MBytes.t list (* Fitness comparison: - shortest lists are smaller ; - lexicographical order for lists of the same length. *) let compare_bytes b1 b2 = let len1 = MBytes.length b1 in let len2 = MBytes.length b2 in let c = compare len1 len2 in if c <> 0 then c else let rec compare_byte b1 b2 pos len = if pos = len then 0 else let c = compare (MBytes.get_char b1 pos) (MBytes.get_char b2 pos) in if c <> 0 then c else compare_byte b1 b2 (pos+1) len in compare_byte b1 b2 0 len1 let compare f1 f2 = let rec compare_rec f1 f2 = match f1, f2 with | [], [] -> 0 | i1 :: f1, i2 :: f2 -> let i = compare_bytes i1 i2 in if i = 0 then compare_rec f1 f2 else i | _, _ -> assert false in let len = compare (List.length f1) (List.length f2) in if len = 0 then compare_rec f1 f2 else len let equal f1 f2 = compare f1 f2 = 0 let rec pp fmt = function | [] -> () | [f] -> Format.fprintf fmt "%s" (Hex_encode.hex_of_bytes f) | f1 :: f -> Format.fprintf fmt "%s::%a" (Hex_encode.hex_of_bytes f1) pp f let to_string x = Format.asprintf "%a" pp x let encoding = let open Data_encoding in describe ~title: "Tezos block fitness" (list bytes) let to_bytes v = Data_encoding.Binary.to_bytes encoding v let of_bytes b = Data_encoding.Binary.of_bytes encoding b let of_bytes_exn b = Data_encoding.Binary.of_bytes_exn encoding b end module Operation = struct type shell_header = { net_id: Net_id.t ; branch: Block_hash.t ; } let shell_header_encoding = let open Data_encoding in conv (fun { net_id ; branch } -> net_id, branch) (fun (net_id, branch) -> { net_id ; branch }) (obj2 (req "net_id" Net_id.encoding) (req "branch" Block_hash.encoding)) type t = { shell: shell_header ; proto: MBytes.t ; } let encoding = let open Data_encoding in conv (fun { shell ; proto } -> (shell, proto)) (fun (shell, proto) -> { shell ; proto }) (merge_objs shell_header_encoding (obj1 (req "data" Variable.bytes))) let pp fmt op = Format.pp_print_string fmt @@ Data_encoding_ezjsonm.to_string (Data_encoding.Json.construct encoding op) let compare o1 o2 = let (>>) x y = if x = 0 then y () else x in Net_id.compare o1.shell.net_id o1.shell.net_id >> fun () -> MBytes.compare o1.proto o2.proto let equal b1 b2 = compare b1 b2 = 0 let to_bytes v = Data_encoding.Binary.to_bytes encoding v let of_bytes b = Data_encoding.Binary.of_bytes encoding b let of_bytes_exn b = Data_encoding.Binary.of_bytes_exn encoding b let hash op = Operation_hash.hash_bytes [to_bytes op] let hash_raw bytes = Operation_hash.hash_bytes [bytes] end module Block_header = struct type shell_header = { net_id: Net_id.t ; level: Int32.t ; proto_level: int ; (* uint8 *) predecessor: Block_hash.t ; timestamp: Time.t ; operations_hash: Operation_list_list_hash.t ; fitness: MBytes.t list ; } let shell_header_encoding = let open Data_encoding in conv (fun { net_id ; level ; proto_level ; predecessor ; timestamp ; operations_hash ; fitness } -> (net_id, level, proto_level, predecessor, timestamp, operations_hash, fitness)) (fun (net_id, level, proto_level, predecessor, timestamp, operations_hash, fitness) -> { net_id ; level ; proto_level ; predecessor ; timestamp ; operations_hash ; fitness }) (obj7 (req "net_id" Net_id.encoding) (req "level" int32) (req "proto" uint8) (req "predecessor" Block_hash.encoding) (req "timestamp" Time.encoding) (req "operations_hash" Operation_list_list_hash.encoding) (req "fitness" Fitness.encoding)) type t = { shell: shell_header ; proto: MBytes.t ; } let encoding = let open Data_encoding in conv (fun { shell ; proto } -> (shell, proto)) (fun (shell, proto) -> { shell ; proto }) (merge_objs shell_header_encoding (obj1 (req "data" Variable.bytes))) let encoding = let open Data_encoding in conv (fun { shell ; proto } -> (shell, proto)) (fun (shell, proto) -> { shell ; proto }) (merge_objs shell_header_encoding (obj1 (req "data" Variable.bytes))) let pp fmt op = Format.pp_print_string fmt @@ Data_encoding_ezjsonm.to_string (Data_encoding.Json.construct encoding op) let compare b1 b2 = let (>>) x y = if x = 0 then y () else x in let rec list compare xs ys = match xs, ys with | [], [] -> 0 | _ :: _, [] -> -1 | [], _ :: _ -> 1 | x :: xs, y :: ys -> compare x y >> fun () -> list compare xs ys in Block_hash.compare b1.shell.predecessor b2.shell.predecessor >> fun () -> compare b1.proto b2.proto >> fun () -> Operation_list_list_hash.compare b1.shell.operations_hash b2.shell.operations_hash >> fun () -> Time.compare b1.shell.timestamp b2.shell.timestamp >> fun () -> list compare b1.shell.fitness b2.shell.fitness let equal b1 b2 = compare b1 b2 = 0 let to_bytes v = Data_encoding.Binary.to_bytes encoding v let of_bytes b = Data_encoding.Binary.of_bytes encoding b let of_bytes_exn b = Data_encoding.Binary.of_bytes_exn encoding b let hash block = Block_hash.hash_bytes [to_bytes block] let hash_raw bytes = Block_hash.hash_bytes [bytes] end module Protocol = struct type t = component list and component = { name: string ; interface: string option ; implementation: string ; } let component_encoding = let open Data_encoding in conv (fun { name ; interface; implementation } -> (name, interface, implementation)) (fun (name, interface, implementation) -> { name ; interface ; implementation }) (obj3 (req "name" string) (opt "interface" string) (req "implementation" string)) let encoding = Data_encoding.list component_encoding let pp fmt op = Format.pp_print_string fmt @@ Data_encoding_ezjsonm.to_string (Data_encoding.Json.construct encoding op) let compare = Pervasives.compare let equal = (=) let to_bytes v = Data_encoding.Binary.to_bytes encoding v let of_bytes b = Data_encoding.Binary.of_bytes encoding b let of_bytes_exn b = Data_encoding.Binary.of_bytes_exn encoding b let hash proto = Protocol_hash.hash_bytes [to_bytes proto] let hash_raw proto = Protocol_hash.hash_bytes [proto] end