package octez-protocol-010-PtGRANAD-libs
Octez protocol 010-PtGRANAD libraries
Install
Dune Dependency
Authors
Maintainers
Sources
tezos-octez-v20.1.tag.bz2
sha256=ddfb5076eeb0b32ac21c1eed44e8fc86a6743ef18ab23fff02d36e365bb73d61
sha512=d22a827df5146e0aa274df48bc2150b098177ff7e5eab52c6109e867eb0a1f0ec63e6bfbb0e3645a6c2112de3877c91a17df32ccbff301891ce4ba630c997a65
doc/src/octez-protocol-010-PtGRANAD-libs.plugin/plugin.ml.html
Source file plugin.ml
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<contact@tezcore.com> *) (* *) (* Permission is hereby granted, free of charge, to any person obtaining a *) (* copy of this software and associated documentation files (the "Software"),*) (* to deal in the Software without restriction, including without limitation *) (* the rights to use, copy, modify, merge, publish, distribute, sublicense, *) (* and/or sell copies of the Software, and to permit persons to whom the *) (* Software is furnished to do so, subject to the following conditions: *) (* *) (* The above copyright notice and this permission notice shall be included *) (* in all copies or substantial portions of the Software. *) (* *) (* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR*) (* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *) (* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *) (* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER*) (* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING *) (* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER *) (* DEALINGS IN THE SOFTWARE. *) (* *) (*****************************************************************************) open Protocol open Alpha_context type Environment.Error_monad.error += Cannot_parse_operation (* `Branch *) type Environment.Error_monad.error += Cannot_serialize_log let () = Environment.Error_monad.register_error_kind `Branch ~id:"operation.cannot_parse" ~title:"Cannot parse operation" ~description:"The operation is ill-formed or for another protocol version" ~pp:(fun ppf () -> Format.fprintf ppf "The operation cannot be parsed") Data_encoding.unit (function Cannot_parse_operation -> Some () | _ -> None) (fun () -> Cannot_parse_operation) ; (* Cannot serialize log *) Environment.Error_monad.register_error_kind `Temporary ~id:"michelson_v1.cannot_serialize_log" ~title:"Not enough gas to serialize execution trace" ~description: "Execution trace with stacks was to big to be serialized with the \ provided gas" Data_encoding.empty (function Cannot_serialize_log -> Some () | _ -> None) (fun () -> Cannot_serialize_log) module View_helpers = struct open Tezos_micheline type Environment.Error_monad.error += Viewed_contract_has_no_script type Environment.Error_monad.error += View_callback_origination_failed type Environment.Error_monad.error += | Illformed_view_type of string * Script.expr type Environment.Error_monad.error += | View_never_returns of string * Contract.t type Environment.Error_monad.error += | View_unexpected_return of string * Contract.t let () = Environment.Error_monad.register_error_kind `Permanent ~id:"viewedContractHasNoScript" ~title:"Viewed contract has no script" ~description:"A view was called on a contract with no script." ~pp:(fun ppf () -> Format.fprintf ppf "A view was called on a contract with no script.") Data_encoding.(unit) (function Viewed_contract_has_no_script -> Some () | _ -> None) (fun () -> Viewed_contract_has_no_script) ; Environment.Error_monad.register_error_kind `Permanent ~id:"viewCallbackOriginationFailed" ~title:"View callback origination failed" ~description:"View callback origination failed" ~pp:(fun ppf () -> Format.fprintf ppf "Error during origination of view callback contract.") Data_encoding.(unit) (function View_callback_origination_failed -> Some () | _ -> None) (fun () -> View_callback_origination_failed) ; Environment.Error_monad.register_error_kind `Permanent ~id:"illformedViewType" ~title:"An entrypoint type is incompatible with TZIP-4 view type." ~description:"An entrypoint type is incompatible with TZIP-4 view type." ~pp:(fun ppf (entrypoint, typ) -> Format.fprintf ppf "The view %s has type %a, it is not compatible with a TZIP-4 view \ type." entrypoint Micheline_printer.print_expr (Micheline_printer.printable (fun x -> x) (Michelson_v1_primitives.strings_of_prims typ))) Data_encoding.( obj2 (req "entrypoint" string) (req "type" Script.expr_encoding)) (function Illformed_view_type (etp, exp) -> Some (etp, exp) | _ -> None) (fun (etp, exp) -> Illformed_view_type (etp, exp)) ; Environment.Error_monad.register_error_kind `Permanent ~id:"viewNeverReturns" ~title: "A view never returned a transaction to the given callback contract" ~description: "A view never initiated a transaction to the given callback contract." ~pp:(fun ppf (entrypoint, callback) -> Format.fprintf ppf "The view %s never initiated a transaction to the given callback \ contract %a." entrypoint Contract.pp callback) Data_encoding.( obj2 (req "entrypoint" string) (req "callback" Contract.encoding)) (function View_never_returns (e, c) -> Some (e, c) | _ -> None) (fun (e, c) -> View_never_returns (e, c)) ; Environment.Error_monad.register_error_kind `Permanent ~id:"viewUnexpectedReturn" ~title:"A view returned an unexpected list of operations" ~description: "A view initiated a list of operations while the TZIP-4 standard \ expects only a transaction to the given callback contract." ~pp:(fun ppf (entrypoint, callback) -> Format.fprintf ppf "The view %s initiated a list of operations while the TZIP-4 \ standard expects only a transaction to the given callback contract \ %a." entrypoint Contract.pp callback) Data_encoding.( obj2 (req "entrypoint" string) (req "callback" Contract.encoding)) (function View_never_returns (e, c) -> Some (e, c) | _ -> None) (fun (e, c) -> View_never_returns (e, c)) (* This script is actually never run, its usage is to ensure a contract that has the type `contract <ty>` is originated, which will be required as callback of the view. *) let make_viewer_script ty : Script.t = let loc = 0 in let ty = Micheline.root ty in let code = Micheline.strip_locations @@ Micheline.Seq ( loc, [ Micheline.Prim (loc, Script.K_parameter, [ty], []); Micheline.Prim ( loc, Script.K_storage, [Micheline.Prim (loc, Script.T_unit, [], [])], [] ); Micheline.Prim ( loc, Script.K_code, [Micheline.Prim (loc, Script.I_FAILWITH, [], [])], [] ); ] ) in let storage = Micheline.strip_locations (Micheline.Prim (loc, Script.D_Unit, [], [])) in {code = Script.lazy_expr code; storage = Script.lazy_expr storage} let make_view_parameter input callback = let loc = 0 in Micheline.strip_locations (Micheline.Prim ( loc, Script.D_Pair, [ input; Micheline.Bytes ( loc, Data_encoding.Binary.to_bytes_exn Contract.encoding callback ); ], [] )) let extract_view_output_type entrypoint ty = match Micheline.root ty with | Micheline.Prim ( _, Script.T_pair, [_; Micheline.Prim (_, Script.T_contract, [ty], _)], _ ) -> ok (Micheline.strip_locations ty) | _ -> Environment.Error_monad.error (Illformed_view_type (entrypoint, ty)) (* 'view' entrypoints returns their value by calling a callback contract, thus the expected result is a unique internal transaction to this callback. *) let extract_parameter_from_operations entrypoint operations callback = let unexpected_return = Environment.Error_monad.error @@ View_unexpected_return (entrypoint, callback) in match operations with | [ Internal_operation {operation = Transaction {destination; parameters; _}; _}; ] when Contract.equal destination callback -> ok parameters | [] -> Environment.Error_monad.error (View_never_returns (entrypoint, callback)) | _ -> unexpected_return end module RPC = struct open Environment open Alpha_context open Environment.Error_monad let parse_operation (op : Operation.raw) = match Data_encoding.Binary.of_bytes Operation.protocol_data_encoding op.proto with | Some protocol_data -> ok {shell = op.shell; protocol_data} | None -> error Cannot_parse_operation let path = RPC_path.(open_root / "helpers") module Registration = struct let patched_services = ref (RPC_directory.empty : Updater.rpc_context RPC_directory.t) let register0_fullctxt s f = patched_services := RPC_directory.register !patched_services s (fun ctxt q i -> Services_registration.rpc_init ctxt >>=? fun ctxt -> f ctxt q i) let register0 s f = register0_fullctxt s (fun {context; _} -> f context) let register0_noctxt s f = patched_services := RPC_directory.register !patched_services s (fun _ q i -> f q i) let opt_register0_fullctxt s f = patched_services := RPC_directory.opt_register !patched_services s (fun ctxt q i -> Services_registration.rpc_init ctxt >>=? fun ctxt -> f ctxt q i) let opt_register0 s f = opt_register0_fullctxt s (fun {context; _} -> f context) let register1_fullctxt s f = patched_services := RPC_directory.register !patched_services s (fun (ctxt, arg) q i -> Services_registration.rpc_init ctxt >>=? fun ctxt -> f ctxt arg q i) let register1 s f = register1_fullctxt s (fun {context; _} x -> f context x) let register2_fullctxt s f = patched_services := RPC_directory.register !patched_services s (fun ((ctxt, arg1), arg2) q i -> Services_registration.rpc_init ctxt >>=? fun ctxt -> f ctxt arg1 arg2 q i) let register2 s f = register2_fullctxt s (fun {context; _} a1 a2 q i -> f context a1 a2 q i) end let unparsing_mode_encoding = let open Script_ir_translator in let open Data_encoding in union ~tag_size:`Uint8 [ case (Tag 0) ~title:"Readable" (constant "Readable") (function | Readable -> Some () | Optimized | Optimized_legacy -> None) (fun () -> Readable); case (Tag 1) ~title:"Optimized" (constant "Optimized") (function | Optimized -> Some () | Readable | Optimized_legacy -> None) (fun () -> Optimized); case (Tag 2) ~title:"Optimized_legacy" (constant "Optimized_legacy") (function | Optimized_legacy -> Some () | Readable | Optimized -> None) (fun () -> Optimized_legacy); ] module Scripts = struct module S = struct open Data_encoding let path = RPC_path.(path / "scripts") let run_code_input_encoding = merge_objs (obj10 (req "script" Script.expr_encoding) (req "storage" Script.expr_encoding) (req "input" Script.expr_encoding) (req "amount" Tez.encoding) (req "balance" Tez.encoding) (req "chain_id" Chain_id.encoding) (opt "source" Contract.encoding) (opt "payer" Contract.encoding) (opt "gas" Gas.Arith.z_integral_encoding) (dft "entrypoint" string "default")) (obj1 (opt "unparsing_mode" unparsing_mode_encoding)) let run_code_output_encoding = conv (fun (storage, operations, lazy_storage_diff) -> (storage, operations, lazy_storage_diff, lazy_storage_diff)) (fun (storage, operations, legacy_lazy_storage_diff, lazy_storage_diff) -> let lazy_storage_diff = Option.either lazy_storage_diff legacy_lazy_storage_diff in (storage, operations, lazy_storage_diff)) (obj4 (req "storage" Script.expr_encoding) (req "operations" (list Operation.internal_operation_encoding)) (opt "big_map_diff" Lazy_storage.legacy_big_map_diff_encoding) (opt "lazy_storage_diff" Lazy_storage.encoding)) let trace_code_input_encoding = run_code_input_encoding let trace_encoding = def "scripted.trace" @@ list @@ obj3 (req "location" Script.location_encoding) (req "gas" Gas.encoding) (req "stack" (list (obj2 (req "item" Script.expr_encoding) (opt "annot" string)))) let trace_code_output_encoding = conv (fun (storage, operations, trace, lazy_storage_diff) -> (storage, operations, trace, lazy_storage_diff, lazy_storage_diff)) (fun ( storage, operations, trace, legacy_lazy_storage_diff, lazy_storage_diff ) -> let lazy_storage_diff = Option.either lazy_storage_diff legacy_lazy_storage_diff in (storage, operations, trace, lazy_storage_diff)) (obj5 (req "storage" Script.expr_encoding) (req "operations" (list Operation.internal_operation_encoding)) (req "trace" trace_encoding) (opt "big_map_diff" Lazy_storage.legacy_big_map_diff_encoding) (opt "lazy_storage_diff" Lazy_storage.encoding)) let run_view_encoding = let open Data_encoding in obj8 (req "contract" Contract.encoding) (req "entrypoint" string) (req "input" Script.expr_encoding) (req "chain_id" Chain_id.encoding) (opt "source" Contract.encoding) (opt "payer" Contract.encoding) (opt "gas" Gas.Arith.z_integral_encoding) (req "unparsing_mode" unparsing_mode_encoding) let run_code = RPC_service.post_service ~description:"Run a piece of code in the current context" ~query:RPC_query.empty ~input:run_code_input_encoding ~output:run_code_output_encoding RPC_path.(path / "run_code") let run_code_normalized = RPC_service.post_service ~description: "Deprecated alias of the .../helpers/scripts/run_code RPC" ~query:RPC_query.empty ~input:run_code_input_encoding ~output:run_code_output_encoding RPC_path.(path / "run_code" / "normalized") let trace_code = RPC_service.post_service ~description: "Run a piece of code in the current context, keeping a trace" ~query:RPC_query.empty ~input:trace_code_input_encoding ~output:trace_code_output_encoding RPC_path.(path / "trace_code") let trace_code_normalized = RPC_service.post_service ~description: "Deprecated alias of the .../helpers/scripts/trace_code RPC" ~query:RPC_query.empty ~input:trace_code_input_encoding ~output:trace_code_output_encoding RPC_path.(path / "trace_code" / "normalized") let run_view = RPC_service.post_service ~description: "Simulate a call to a view following the TZIP-4 standard. See \ https://gitlab.com/tzip/tzip/-/blob/master/proposals/tzip-4/tzip-4.md#view-entrypoints." ~input:run_view_encoding ~output:(obj1 (req "data" Script.expr_encoding)) ~query:RPC_query.empty RPC_path.(path / "run_view") let typecheck_code = RPC_service.post_service ~description:"Typecheck a piece of code in the current context" ~query:RPC_query.empty ~input: (obj3 (req "program" Script.expr_encoding) (opt "gas" Gas.Arith.z_integral_encoding) (opt "legacy" bool)) ~output: (obj2 (req "type_map" Script_tc_errors_registration.type_map_enc) (req "gas" Gas.encoding)) RPC_path.(path / "typecheck_code") let typecheck_data = RPC_service.post_service ~description: "Check that some data expression is well formed and of a given \ type in the current context" ~query:RPC_query.empty ~input: (obj4 (req "data" Script.expr_encoding) (req "type" Script.expr_encoding) (opt "gas" Gas.Arith.z_integral_encoding) (opt "legacy" bool)) ~output:(obj1 (req "gas" Gas.encoding)) RPC_path.(path / "typecheck_data") let pack_data = RPC_service.post_service ~description: "Computes the serialized version of some data expression using the \ same algorithm as script instruction PACK" ~input: (obj3 (req "data" Script.expr_encoding) (req "type" Script.expr_encoding) (opt "gas" Gas.Arith.z_integral_encoding)) ~output:(obj2 (req "packed" bytes) (req "gas" Gas.encoding)) ~query:RPC_query.empty RPC_path.(path / "pack_data") let normalize_data = RPC_service.post_service ~description: "Normalizes some data expression using the requested unparsing mode" ~input: (obj4 (req "data" Script.expr_encoding) (req "type" Script.expr_encoding) (req "unparsing_mode" unparsing_mode_encoding) (opt "legacy" bool)) ~output:(obj1 (req "normalized" Script.expr_encoding)) ~query:RPC_query.empty RPC_path.(path / "normalize_data") let normalize_script = RPC_service.post_service ~description: "Normalizes a Michelson script using the requested unparsing mode" ~input: (obj2 (req "script" Script.expr_encoding) (req "unparsing_mode" unparsing_mode_encoding)) ~output:(obj1 (req "normalized" Script.expr_encoding)) ~query:RPC_query.empty RPC_path.(path / "normalize_script") let normalize_type = RPC_service.post_service ~description: "Normalizes some Michelson type by expanding `pair a b c` as `pair \ a (pair b c)" ~input:(obj1 (req "type" Script.expr_encoding)) ~output:(obj1 (req "normalized" Script.expr_encoding)) ~query:RPC_query.empty RPC_path.(path / "normalize_type") let run_operation = RPC_service.post_service ~description:"Run an operation without signature checks" ~query:RPC_query.empty ~input: (obj2 (req "operation" Operation.encoding) (req "chain_id" Chain_id.encoding)) ~output:Apply_results.operation_data_and_metadata_encoding RPC_path.(path / "run_operation") let entrypoint_type = RPC_service.post_service ~description:"Return the type of the given entrypoint" ~query:RPC_query.empty ~input: (obj2 (req "script" Script.expr_encoding) (dft "entrypoint" string "default")) ~output:(obj1 (req "entrypoint_type" Script.expr_encoding)) RPC_path.(path / "entrypoint") let list_entrypoints = RPC_service.post_service ~description:"Return the list of entrypoints of the given script" ~query:RPC_query.empty ~input:(obj1 (req "script" Script.expr_encoding)) ~output: (obj2 (dft "unreachable" (Data_encoding.list (obj1 (req "path" (Data_encoding.list Michelson_v1_primitives.prim_encoding)))) []) (req "entrypoints" (assoc Script.expr_encoding))) RPC_path.(path / "entrypoints") end module type UNPARSING_MODE = sig val unparsing_mode : Script_ir_translator.unparsing_mode end module Traced_interpreter (Unparsing_mode : UNPARSING_MODE) = struct type log_element = | Log : context * Script.location * ('a * 's) * ('a, 's) Script_typed_ir.stack_ty -> log_element let unparse_stack ctxt (stack, stack_ty) = (* We drop the gas limit as this function is only used for debugging/errors. *) let ctxt = Gas.set_unlimited ctxt in let rec unparse_stack : type a s. (a, s) Script_typed_ir.stack_ty * (a * s) -> (Script.expr * string option) list tzresult Lwt.t = function | Bot_t, (EmptyCell, EmptyCell) -> return_nil | Item_t (ty, rest_ty, annot), (v, rest) -> Script_ir_translator.unparse_data ctxt Unparsing_mode.unparsing_mode ty v >>=? fun (data, _ctxt) -> unparse_stack (rest_ty, rest) >|=? fun rest -> let annot = match Script_ir_annot.unparse_var_annot annot with | [] -> None | [a] -> Some a | _ -> assert false in let data = Micheline.strip_locations data in (data, annot) :: rest in unparse_stack (stack_ty, stack) let trace_logger () : Script_typed_ir.logger = let log : log_element list ref = ref [] in let log_interp _ ctxt loc sty stack = log := Log (ctxt, loc, stack, sty) :: !log in let log_entry _ _ctxt _loc _sty _stack = () in let log_exit _ ctxt loc sty stack = log := Log (ctxt, loc, stack, sty) :: !log in let log_control _ = () in let get_log () = map_s (fun (Log (ctxt, loc, stack, stack_ty)) -> trace Cannot_serialize_log (unparse_stack ctxt (stack, stack_ty)) >>=? fun stack -> return (loc, Gas.level ctxt, stack)) !log >>=? fun res -> return (Some (List.rev res)) in {log_exit; log_entry; log_interp; get_log; log_control} let execute ctxt step_constants ~script ~entrypoint ~parameter = let open Script_interpreter in let logger = trace_logger () in execute ~logger ctxt Unparsing_mode.unparsing_mode step_constants ~script ~entrypoint ~parameter ~internal:true >>=? fun {ctxt; storage; lazy_storage_diff; operations} -> logger.get_log () >|=? fun trace -> let trace = Option.value ~default:[] trace in ({ctxt; storage; lazy_storage_diff; operations}, trace) end let typecheck_data : legacy:bool -> context -> Script.expr * Script.expr -> context tzresult Lwt.t = fun ~legacy ctxt (data, exp_ty) -> record_trace (Script_tc_errors.Ill_formed_type (None, exp_ty, 0)) (Script_ir_translator.parse_parameter_ty ctxt ~legacy (Micheline.root exp_ty)) >>?= fun (Ex_ty exp_ty, ctxt) -> trace_eval (fun () -> Lwt.return ( Script_ir_translator.serialize_ty_for_error ctxt exp_ty >|? fun (exp_ty, _ctxt) -> Script_tc_errors.Ill_typed_data (None, data, exp_ty) )) (let allow_forged = true (* Safe since we ignore the value afterwards. *) in Script_ir_translator.parse_data ctxt ~legacy ~allow_forged exp_ty (Micheline.root data)) >|=? fun (_, ctxt) -> ctxt module Unparse_types = struct (* Same as the unparsing functions for types in Script_ir_translator but does not consume gas and never folds (pair a (pair b c)) *) open Script_ir_translator open Micheline open Michelson_v1_primitives open Script_ir_annot open Script_typed_ir let rec unparse_comparable_ty : type a. a comparable_ty -> Script.node = function | Unit_key tname -> Prim (-1, T_unit, [], unparse_type_annot tname) | Never_key tname -> Prim (-1, T_never, [], unparse_type_annot tname) | Int_key tname -> Prim (-1, T_int, [], unparse_type_annot tname) | Nat_key tname -> Prim (-1, T_nat, [], unparse_type_annot tname) | Signature_key tname -> Prim (-1, T_signature, [], unparse_type_annot tname) | String_key tname -> Prim (-1, T_string, [], unparse_type_annot tname) | Bytes_key tname -> Prim (-1, T_bytes, [], unparse_type_annot tname) | Mutez_key tname -> Prim (-1, T_mutez, [], unparse_type_annot tname) | Bool_key tname -> Prim (-1, T_bool, [], unparse_type_annot tname) | Key_hash_key tname -> Prim (-1, T_key_hash, [], unparse_type_annot tname) | Key_key tname -> Prim (-1, T_key, [], unparse_type_annot tname) | Timestamp_key tname -> Prim (-1, T_timestamp, [], unparse_type_annot tname) | Address_key tname -> Prim (-1, T_address, [], unparse_type_annot tname) | Chain_id_key tname -> Prim (-1, T_chain_id, [], unparse_type_annot tname) | Pair_key ((l, al), (r, ar), pname) -> let tl = add_field_annot al None (unparse_comparable_ty l) in let tr = add_field_annot ar None (unparse_comparable_ty r) in Prim (-1, T_pair, [tl; tr], unparse_type_annot pname) | Union_key ((l, al), (r, ar), tname) -> let tl = add_field_annot al None (unparse_comparable_ty l) in let tr = add_field_annot ar None (unparse_comparable_ty r) in Prim (-1, T_or, [tl; tr], unparse_type_annot tname) | Option_key (t, tname) -> Prim (-1, T_option, [unparse_comparable_ty t], unparse_type_annot tname) let unparse_memo_size memo_size = let z = Alpha_context.Sapling.Memo_size.unparse_to_z memo_size in Int (-1, z) let rec unparse_ty : type a. a ty -> Script.node = fun ty -> let return (name, args, annot) = Prim (-1, name, args, annot) in match ty with | Unit_t tname -> return (T_unit, [], unparse_type_annot tname) | Int_t tname -> return (T_int, [], unparse_type_annot tname) | Nat_t tname -> return (T_nat, [], unparse_type_annot tname) | Signature_t tname -> return (T_signature, [], unparse_type_annot tname) | String_t tname -> return (T_string, [], unparse_type_annot tname) | Bytes_t tname -> return (T_bytes, [], unparse_type_annot tname) | Mutez_t tname -> return (T_mutez, [], unparse_type_annot tname) | Bool_t tname -> return (T_bool, [], unparse_type_annot tname) | Key_hash_t tname -> return (T_key_hash, [], unparse_type_annot tname) | Key_t tname -> return (T_key, [], unparse_type_annot tname) | Timestamp_t tname -> return (T_timestamp, [], unparse_type_annot tname) | Address_t tname -> return (T_address, [], unparse_type_annot tname) | Operation_t tname -> return (T_operation, [], unparse_type_annot tname) | Chain_id_t tname -> return (T_chain_id, [], unparse_type_annot tname) | Never_t tname -> return (T_never, [], unparse_type_annot tname) | Bls12_381_g1_t tname -> return (T_bls12_381_g1, [], unparse_type_annot tname) | Bls12_381_g2_t tname -> return (T_bls12_381_g2, [], unparse_type_annot tname) | Bls12_381_fr_t tname -> return (T_bls12_381_fr, [], unparse_type_annot tname) | Contract_t (ut, tname) -> let t = unparse_ty ut in return (T_contract, [t], unparse_type_annot tname) | Pair_t ((utl, l_field, l_var), (utr, r_field, r_var), tname) -> let annot = unparse_type_annot tname in let utl = unparse_ty utl in let tl = add_field_annot l_field l_var utl in let utr = unparse_ty utr in let tr = add_field_annot r_field r_var utr in return (T_pair, [tl; tr], annot) | Union_t ((utl, l_field), (utr, r_field), tname) -> let annot = unparse_type_annot tname in let utl = unparse_ty utl in let tl = add_field_annot l_field None utl in let utr = unparse_ty utr in let tr = add_field_annot r_field None utr in return (T_or, [tl; tr], annot) | Lambda_t (uta, utr, tname) -> let ta = unparse_ty uta in let tr = unparse_ty utr in return (T_lambda, [ta; tr], unparse_type_annot tname) | Option_t (ut, tname) -> let annot = unparse_type_annot tname in let ut = unparse_ty ut in return (T_option, [ut], annot) | List_t (ut, tname) -> let t = unparse_ty ut in return (T_list, [t], unparse_type_annot tname) | Ticket_t (ut, tname) -> let t = unparse_comparable_ty ut in return (T_ticket, [t], unparse_type_annot tname) | Set_t (ut, tname) -> let t = unparse_comparable_ty ut in return (T_set, [t], unparse_type_annot tname) | Map_t (uta, utr, tname) -> let ta = unparse_comparable_ty uta in let tr = unparse_ty utr in return (T_map, [ta; tr], unparse_type_annot tname) | Big_map_t (uta, utr, tname) -> let ta = unparse_comparable_ty uta in let tr = unparse_ty utr in return (T_big_map, [ta; tr], unparse_type_annot tname) | Sapling_transaction_t (memo_size, tname) -> return ( T_sapling_transaction, [unparse_memo_size memo_size], unparse_type_annot tname ) | Sapling_state_t (memo_size, tname) -> return ( T_sapling_state, [unparse_memo_size memo_size], unparse_type_annot tname ) end let register () = let originate_dummy_contract ctxt script balance = let ctxt = Contract.init_origination_nonce ctxt Operation_hash.zero in Lwt.return (Contract.fresh_contract_from_current_nonce ctxt) >>=? fun (ctxt, dummy_contract) -> Contract.originate ctxt dummy_contract ~balance ~delegate:None ~script:(script, None) >>=? fun ctxt -> return (ctxt, dummy_contract) in let script_entrypoint_type ctxt expr entrypoint = let ctxt = Gas.set_unlimited ctxt in let legacy = false in let open Script_ir_translator in Lwt.return ( ( parse_toplevel ~legacy expr >>? fun (arg_type, _, _, root_name) -> parse_parameter_ty ctxt ~legacy arg_type >>? fun (Ex_ty arg_type, _) -> Script_ir_translator.find_entrypoint ~root_name arg_type entrypoint ) >>? fun (_f, Ex_ty ty) -> unparse_ty ctxt ty >|? fun (ty_node, _) -> Micheline.strip_locations ty_node ) in let run_code_registration ctxt () ( ( code, storage, parameter, amount, balance, chain_id, source, payer, gas, entrypoint ), unparsing_mode ) = let unparsing_mode = Option.value ~default:Script_ir_translator.Readable unparsing_mode in let storage = Script.lazy_expr storage in let code = Script.lazy_expr code in originate_dummy_contract ctxt {storage; code} balance >>=? fun (ctxt, dummy_contract) -> let source, payer = match (source, payer) with | Some source, Some payer -> (source, payer) | Some source, None -> (source, source) | None, Some payer -> (payer, payer) | None, None -> (dummy_contract, dummy_contract) in let gas = match gas with | Some gas -> gas | None -> Constants.hard_gas_limit_per_operation ctxt in let ctxt = Gas.set_limit ctxt gas in let step_constants = let open Script_interpreter in {source; payer; self = dummy_contract; amount; chain_id} in Script_interpreter.execute ctxt unparsing_mode step_constants ~script:{storage; code} ~entrypoint ~parameter ~internal:true >|=? fun {Script_interpreter.storage; operations; lazy_storage_diff; _} -> (storage, operations, lazy_storage_diff) in Registration.register0 S.run_code run_code_registration ; Registration.register0 S.run_code_normalized run_code_registration ; let trace_code_registration ctxt () ( ( code, storage, parameter, amount, balance, chain_id, source, payer, gas, entrypoint ), unparsing_mode ) = let unparsing_mode = Option.value ~default:Script_ir_translator.Readable unparsing_mode in let storage = Script.lazy_expr storage in let code = Script.lazy_expr code in originate_dummy_contract ctxt {storage; code} balance >>=? fun (ctxt, dummy_contract) -> let source, payer = match (source, payer) with | Some source, Some payer -> (source, payer) | Some source, None -> (source, source) | None, Some payer -> (payer, payer) | None, None -> (dummy_contract, dummy_contract) in let gas = match gas with | Some gas -> gas | None -> Constants.hard_gas_limit_per_operation ctxt in let ctxt = Gas.set_limit ctxt gas in let step_constants = let open Script_interpreter in {source; payer; self = dummy_contract; amount; chain_id} in let module Unparsing_mode = struct let unparsing_mode = unparsing_mode end in let module Interp = Traced_interpreter (Unparsing_mode) in Interp.execute ctxt step_constants ~script:{storage; code} ~entrypoint ~parameter >|=? fun ( {Script_interpreter.storage; operations; lazy_storage_diff; _}, trace ) -> (storage, operations, trace, lazy_storage_diff) in Registration.register0 S.trace_code trace_code_registration ; Registration.register0 S.trace_code_normalized trace_code_registration ; Registration.register0 S.run_view (fun ctxt () ( contract, entrypoint, input, chain_id, source, payer, gas, unparsing_mode ) -> Contract.get_script ctxt contract >>=? fun (ctxt, script_opt) -> Option.fold ~some:ok ~none:(Error_monad.error View_helpers.Viewed_contract_has_no_script) script_opt >>?= fun script -> Script_repr.(force_decode script.code) >>?= fun decoded_script -> script_entrypoint_type ctxt decoded_script entrypoint >>=? fun view_ty -> View_helpers.extract_view_output_type entrypoint view_ty >>?= fun ty -> Error_monad.trace View_helpers.View_callback_origination_failed @@ originate_dummy_contract ctxt (View_helpers.make_viewer_script ty) Tez.zero >>=? fun (ctxt, viewer_contract) -> let source, payer = match (source, payer) with | Some source, Some payer -> (source, payer) | Some source, None -> (source, source) | None, Some payer -> (payer, payer) | None, None -> (contract, contract) in let gas = Option.value ~default:(Constants.hard_gas_limit_per_operation ctxt) gas in let ctxt = Gas.set_limit ctxt gas in let step_constants = let open Script_interpreter in {source; payer; self = contract; amount = Tez.zero; chain_id} in let parameter = View_helpers.make_view_parameter (Micheline.root input) viewer_contract in Script_interpreter.execute ctxt unparsing_mode step_constants ~script ~entrypoint ~parameter ~internal:true >>=? fun {Script_interpreter.operations; _} -> View_helpers.extract_parameter_from_operations entrypoint operations viewer_contract >>?= fun parameter -> Lwt.return (Script_repr.force_decode parameter)) ; Registration.register0 S.typecheck_code (fun ctxt () (expr, maybe_gas, legacy) -> let legacy = Option.value ~default:false legacy in let ctxt = match maybe_gas with | None -> Gas.set_unlimited ctxt | Some gas -> Gas.set_limit ctxt gas in Script_ir_translator.typecheck_code ~legacy ctxt expr >|=? fun (res, ctxt) -> (res, Gas.level ctxt)) ; Registration.register0 S.typecheck_data (fun ctxt () (data, ty, maybe_gas, legacy) -> let legacy = Option.value ~default:false legacy in let ctxt = match maybe_gas with | None -> Gas.set_unlimited ctxt | Some gas -> Gas.set_limit ctxt gas in typecheck_data ~legacy ctxt (data, ty) >|=? fun ctxt -> Gas.level ctxt) ; Registration.register0 S.pack_data (fun ctxt () (expr, typ, maybe_gas) -> let open Script_ir_translator in let ctxt = match maybe_gas with | None -> Gas.set_unlimited ctxt | Some gas -> Gas.set_limit ctxt gas in parse_packable_ty ctxt ~legacy:true (Micheline.root typ) >>?= fun (Ex_ty typ, ctxt) -> parse_data ctxt ~legacy:true ~allow_forged:true typ (Micheline.root expr) >>=? fun (data, ctxt) -> Script_ir_translator.pack_data ctxt typ data >|=? fun (bytes, ctxt) -> (bytes, Gas.level ctxt)) ; Registration.register0 S.normalize_data (fun ctxt () (expr, typ, unparsing_mode, legacy) -> let open Script_ir_translator in let legacy = Option.value ~default:false legacy in let ctxt = Gas.set_unlimited ctxt in Script_ir_translator.parse_any_ty ctxt ~legacy (Micheline.root typ) >>?= fun (Ex_ty typ, ctxt) -> parse_data ctxt ~legacy ~allow_forged:true typ (Micheline.root expr) >>=? fun (data, ctxt) -> Script_ir_translator.unparse_data ctxt unparsing_mode typ data >|=? fun (normalized, _ctxt) -> Micheline.strip_locations normalized) ; Registration.register0 S.normalize_script (fun ctxt () (script, unparsing_mode) -> let ctxt = Gas.set_unlimited ctxt in Script_ir_translator.unparse_code ctxt unparsing_mode (Micheline.root script) >|=? fun (normalized, _ctxt) -> Micheline.strip_locations normalized) ; Registration.register0 S.normalize_type (fun ctxt () typ -> let open Script_ir_translator in let ctxt = Gas.set_unlimited ctxt in (* Unfortunately, Script_ir_translator.parse_any_ty is not exported *) Script_ir_translator.parse_ty ctxt ~legacy:true ~allow_lazy_storage:true ~allow_operation:true ~allow_contract:true ~allow_ticket:true (Micheline.root typ) >>?= fun (Ex_ty typ, _ctxt) -> let normalized = Unparse_types.unparse_ty typ in return @@ Micheline.strip_locations normalized) ; Registration.register0 S.run_operation (fun ctxt () ({shell; protocol_data = Operation_data protocol_data}, chain_id) -> (* this code is a duplicate of Apply without signature check *) let partial_precheck_manager_contents (type kind) ctxt (op : kind Kind.manager contents) : context tzresult Lwt.t = let (Manager_operation {source; fee; counter; operation; gas_limit; storage_limit}) = op in Gas.consume_limit_in_block ctxt gas_limit >>?= fun ctxt -> let ctxt = Gas.set_limit ctxt gas_limit in Fees.check_storage_limit ctxt ~storage_limit >>?= fun () -> Contract.must_be_allocated ctxt (Contract.implicit_contract source) >>=? fun () -> Contract.check_counter_increment ctxt source counter >>=? fun () -> (match operation with | Reveal pk -> Contract.reveal_manager_key ctxt source pk | Transaction {parameters; _} -> (* Here the data comes already deserialized, so we need to fake the deserialization to mimic apply *) let arg_bytes = Data_encoding.Binary.to_bytes_exn Script.lazy_expr_encoding parameters in let arg = match Data_encoding.Binary.of_bytes Script.lazy_expr_encoding arg_bytes with | Some arg -> arg | None -> assert false in Lwt.return @@ record_trace Apply.Gas_quota_exceeded_init_deserialize @@ (* Fail if not enough gas for complete deserialization cost *) ( Script.force_decode_in_context ctxt arg >|? fun (_arg, ctxt) -> ctxt ) | Origination {script; _} -> (* Here the data comes already deserialized, so we need to fake the deserialization to mimic apply *) let script_bytes = Data_encoding.Binary.to_bytes_exn Script.encoding script in let script = match Data_encoding.Binary.of_bytes Script.encoding script_bytes with | Some script -> script | None -> assert false in Lwt.return @@ record_trace Apply.Gas_quota_exceeded_init_deserialize @@ (* Fail if not enough gas for complete deserialization cost *) ( Script.force_decode_in_context ctxt script.code >>? fun (_code, ctxt) -> Script.force_decode_in_context ctxt script.storage >|? fun (_storage, ctxt) -> ctxt ) | _ -> return ctxt) >>=? fun ctxt -> Contract.get_manager_key ctxt source >>=? fun _public_key -> (* signature check unplugged from here *) Contract.increment_counter ctxt source >>=? fun ctxt -> Contract.spend ctxt (Contract.implicit_contract source) fee in let rec partial_precheck_manager_contents_list : type kind. Alpha_context.t -> kind Kind.manager contents_list -> context tzresult Lwt.t = fun ctxt contents_list -> match contents_list with | Single (Manager_operation _ as op) -> partial_precheck_manager_contents ctxt op | Cons ((Manager_operation _ as op), rest) -> partial_precheck_manager_contents ctxt op >>=? fun ctxt -> partial_precheck_manager_contents_list ctxt rest in let ret contents = ( Operation_data protocol_data, Apply_results.Operation_metadata {contents} ) in let operation : _ operation = {shell; protocol_data} in let hash = Operation.hash {shell; protocol_data} in let ctxt = Contract.init_origination_nonce ctxt hash in let baker = Tezos_crypto.Signature.V0.Public_key_hash.zero in match protocol_data.contents with | Single (Manager_operation _) as op -> partial_precheck_manager_contents_list ctxt op >>=? fun ctxt -> Apply.apply_manager_contents_list ctxt Optimized baker chain_id op >|= fun (_ctxt, result) -> ok @@ ret result | Cons (Manager_operation _, _) as op -> partial_precheck_manager_contents_list ctxt op >>=? fun ctxt -> Apply.apply_manager_contents_list ctxt Optimized baker chain_id op >|= fun (_ctxt, result) -> ok @@ ret result | _ -> Apply.apply_contents_list ctxt chain_id Optimized shell.branch baker operation operation.protocol_data.contents >|=? fun (_ctxt, result) -> ret result) ; Registration.register0 S.entrypoint_type (fun ctxt () (expr, entrypoint) -> script_entrypoint_type ctxt expr entrypoint) ; Registration.register0 S.list_entrypoints (fun ctxt () expr -> let ctxt = Gas.set_unlimited ctxt in let legacy = false in let open Script_ir_translator in Lwt.return ( parse_toplevel ~legacy expr >>? fun (arg_type, _, _, root_name) -> parse_parameter_ty ctxt ~legacy arg_type >>? fun (Ex_ty arg_type, _) -> Script_ir_translator.list_entrypoints ~root_name arg_type ctxt >|? fun (unreachable_entrypoint, map) -> ( unreachable_entrypoint, Entrypoints_map.fold (fun entry (_, ty) acc -> (entry, Micheline.strip_locations ty) :: acc) map [] ) )) let run_code ?unparsing_mode ?gas ?(entrypoint = "default") ~script ~storage ~input ~amount ~balance ~chain_id ~source ~payer ctxt block = RPC_context.make_call0 S.run_code ctxt block () ( ( script, storage, input, amount, balance, chain_id, source, payer, gas, entrypoint ), unparsing_mode ) let trace_code ?unparsing_mode ?gas ?(entrypoint = "default") ~script ~storage ~input ~amount ~balance ~chain_id ~source ~payer ctxt block = RPC_context.make_call0 S.trace_code ctxt block () ( ( script, storage, input, amount, balance, chain_id, source, payer, gas, entrypoint ), unparsing_mode ) let run_view ?gas ~contract ~entrypoint ~input ~chain_id ?source ?payer ~unparsing_mode ctxt block = RPC_context.make_call0 S.run_view ctxt block () ( contract, entrypoint, input, chain_id, source, payer, gas, unparsing_mode ) let typecheck_code ?gas ?legacy ~script ctxt block = RPC_context.make_call0 S.typecheck_code ctxt block () (script, gas, legacy) let typecheck_data ?gas ?legacy ~data ~ty ctxt block = RPC_context.make_call0 S.typecheck_data ctxt block () (data, ty, gas, legacy) let pack_data ?gas ~data ~ty ctxt block = RPC_context.make_call0 S.pack_data ctxt block () (data, ty, gas) let normalize_data ?legacy ~data ~ty ~unparsing_mode ctxt block = RPC_context.make_call0 S.normalize_data ctxt block () (data, ty, unparsing_mode, legacy) let normalize_script ctxt block ~script ~unparsing_mode = RPC_context.make_call0 S.normalize_script ctxt block () (script, unparsing_mode) let normalize_type ctxt block ~ty = RPC_context.make_call0 S.normalize_type ctxt block () ty let run_operation ctxt block ~op ~chain_id = RPC_context.make_call0 S.run_operation ctxt block () (op, chain_id) let entrypoint_type ctxt block ~script ~entrypoint = RPC_context.make_call0 S.entrypoint_type ctxt block () (script, entrypoint) let list_entrypoints ctxt block ~script = RPC_context.make_call0 S.list_entrypoints ctxt block () script end module Contract = struct module S = struct let path = (RPC_path.(open_root / "context" / "contracts") : RPC_context.t RPC_path.context) let get_storage_normalized = let open Data_encoding in RPC_service.post_service ~description: "Access the data of the contract and normalize it using the \ requested unparsing mode." ~input:(obj1 (req "unparsing_mode" unparsing_mode_encoding)) ~query:RPC_query.empty ~output:(option Script.expr_encoding) RPC_path.(path /: Contract.rpc_arg / "storage" / "normalized") let get_script_normalized = let open Data_encoding in RPC_service.post_service ~description: "Access the script of the contract and normalize it using the \ requested unparsing mode." ~input:(obj1 (req "unparsing_mode" unparsing_mode_encoding)) ~query:RPC_query.empty ~output:(option Script.encoding) RPC_path.(path /: Contract.rpc_arg / "script" / "normalized") end let register () = (* Patched RPC: get_storage *) Registration.register1 S.get_storage_normalized (fun ctxt contract () unparsing_mode -> Contract.get_script ctxt contract >>=? fun (ctxt, script) -> match script with | None -> return_none | Some script -> let ctxt = Gas.set_unlimited ctxt in let open Script_ir_translator in parse_script ctxt ~legacy:true ~allow_forged_in_storage:true script >>=? fun (Ex_script script, ctxt) -> unparse_script ctxt unparsing_mode script >>=? fun (script, ctxt) -> Script.force_decode_in_context ctxt script.storage >>?= fun (storage, _ctxt) -> return_some storage) ; (* Patched RPC: get_script *) Registration.register1 S.get_script_normalized (fun ctxt contract () unparsing_mode -> Contract.get_script ctxt contract >>=? fun (ctxt, script) -> match script with | None -> return_none | Some script -> let ctxt = Gas.set_unlimited ctxt in let open Script_ir_translator in parse_script ctxt ~legacy:true ~allow_forged_in_storage:true script >>=? fun (Ex_script script, ctxt) -> unparse_script ctxt unparsing_mode script >>=? fun (script, _ctxt) -> return_some script) let get_storage_normalized ctxt block ~contract ~unparsing_mode = RPC_context.make_call1 S.get_storage_normalized ctxt block contract () unparsing_mode let get_script_normalized ctxt block ~contract ~unparsing_mode = RPC_context.make_call1 S.get_script_normalized ctxt block contract () unparsing_mode end module Big_map = struct module S = struct let path = (RPC_path.(open_root / "context" / "big_maps") : RPC_context.t RPC_path.context) let big_map_get_normalized = let open Data_encoding in RPC_service.post_service ~description: "Access the value associated with a key in a big map, normalize \ the output using the requested unparsing mode." ~query:RPC_query.empty ~input:(obj1 (req "unparsing_mode" unparsing_mode_encoding)) ~output:Script.expr_encoding RPC_path.( path /: Big_map.Id.rpc_arg /: Script_expr_hash.rpc_arg / "normalized") end let register () = Registration.register2 S.big_map_get_normalized (fun ctxt id key () unparsing_mode -> let open Script_ir_translator in let ctxt = Gas.set_unlimited ctxt in Big_map.exists ctxt id >>=? fun (ctxt, types) -> match types with | None -> raise Not_found | Some (_, value_type) -> ( parse_big_map_value_ty ctxt ~legacy:true (Micheline.root value_type) >>?= fun (Ex_ty value_type, ctxt) -> Big_map.get_opt ctxt id key >>=? fun (_ctxt, value) -> match value with | None -> raise Not_found | Some value -> parse_data ctxt ~legacy:true ~allow_forged:true value_type (Micheline.root value) >>=? fun (value, ctxt) -> unparse_data ctxt unparsing_mode value_type value >|=? fun (value, _ctxt) -> Micheline.strip_locations value)) let big_map_get_normalized ctxt block id key ~unparsing_mode = RPC_context.make_call2 S.big_map_get_normalized ctxt block id key () unparsing_mode end module Forge = struct module S = struct open Data_encoding let path = RPC_path.(path / "forge") let operations = RPC_service.post_service ~description:"Forge an operation" ~query:RPC_query.empty ~input:Operation.unsigned_encoding ~output:bytes RPC_path.(path / "operations") let empty_proof_of_work_nonce = Bytes.make Constants_repr.proof_of_work_nonce_size '\000' let protocol_data = RPC_service.post_service ~description:"Forge the protocol-specific part of a block header" ~query:RPC_query.empty ~input: (obj4 (req "priority" uint16) (opt "nonce_hash" Nonce_hash.encoding) (dft "proof_of_work_nonce" (Fixed.bytes Alpha_context.Constants.proof_of_work_nonce_size) empty_proof_of_work_nonce) (dft "liquidity_baking_escape_vote" bool false)) ~output:(obj1 (req "protocol_data" bytes)) RPC_path.(path / "protocol_data") end let register () = Registration.register0_noctxt S.operations (fun () (shell, proto) -> return (Data_encoding.Binary.to_bytes_exn Operation.unsigned_encoding (shell, proto))) ; Registration.register0_noctxt S.protocol_data (fun () ( priority, seed_nonce_hash, proof_of_work_nonce, liquidity_baking_escape_vote ) -> return (Data_encoding.Binary.to_bytes_exn Block_header.contents_encoding { priority; seed_nonce_hash; proof_of_work_nonce; liquidity_baking_escape_vote; })) module Manager = struct let operations ctxt block ~branch ~source ?sourcePubKey ~counter ~fee ~gas_limit ~storage_limit operations = Contract_services.manager_key ctxt block source >>= function | Error _ as e -> Lwt.return e | Ok revealed -> let ops = List.map (fun (Manager operation) -> Contents (Manager_operation { source; counter; operation; fee; gas_limit; storage_limit; })) operations in let ops = match (sourcePubKey, revealed) with | None, _ | _, Some _ -> ops | Some pk, None -> let operation = Reveal pk in Contents (Manager_operation { source; counter; operation; fee; gas_limit; storage_limit; }) :: ops in RPC_context.make_call0 S.operations ctxt block () ({branch}, Operation.of_list ops) let reveal ctxt block ~branch ~source ~sourcePubKey ~counter ~fee () = operations ctxt block ~branch ~source ~sourcePubKey ~counter ~fee ~gas_limit:Gas.Arith.zero ~storage_limit:Z.zero [] let transaction ctxt block ~branch ~source ?sourcePubKey ~counter ~amount ~destination ?(entrypoint = "default") ?parameters ~gas_limit ~storage_limit ~fee () = let parameters = Option.fold ~some:Script.lazy_expr ~none:Script.unit_parameter parameters in operations ctxt block ~branch ~source ?sourcePubKey ~counter ~fee ~gas_limit ~storage_limit [Manager (Transaction {amount; parameters; destination; entrypoint})] let origination ctxt block ~branch ~source ?sourcePubKey ~counter ~balance ?delegatePubKey ~script ~gas_limit ~storage_limit ~fee () = operations ctxt block ~branch ~source ?sourcePubKey ~counter ~fee ~gas_limit ~storage_limit [ Manager (Origination { delegate = delegatePubKey; script; credit = balance; preorigination = None; }); ] let delegation ctxt block ~branch ~source ?sourcePubKey ~counter ~fee delegate = operations ctxt block ~branch ~source ?sourcePubKey ~counter ~fee ~gas_limit:Gas.Arith.zero ~storage_limit:Z.zero [Manager (Delegation delegate)] end let operation ctxt block ~branch operation = RPC_context.make_call0 S.operations ctxt block () ({branch}, Contents_list (Single operation)) let endorsement ctxt b ~branch ~level () = operation ctxt b ~branch (Endorsement {level}) let proposals ctxt b ~branch ~source ~period ~proposals () = operation ctxt b ~branch (Proposals {source; period; proposals}) let ballot ctxt b ~branch ~source ~period ~proposal ~ballot () = operation ctxt b ~branch (Ballot {source; period; proposal; ballot}) let failing_noop ctxt b ~branch ~message () = operation ctxt b ~branch (Failing_noop message) let seed_nonce_revelation ctxt block ~branch ~level ~nonce () = operation ctxt block ~branch (Seed_nonce_revelation {level; nonce}) let double_baking_evidence ctxt block ~branch ~bh1 ~bh2 () = operation ctxt block ~branch (Double_baking_evidence {bh1; bh2}) let double_endorsement_evidence ctxt block ~branch ~op1 ~op2 ~slot () = operation ctxt block ~branch (Double_endorsement_evidence {op1; op2; slot}) let empty_proof_of_work_nonce = Bytes.make Constants_repr.proof_of_work_nonce_size '\000' let protocol_data ctxt block ~priority ?seed_nonce_hash ?(proof_of_work_nonce = empty_proof_of_work_nonce) ~liquidity_baking_escape_vote () = RPC_context.make_call0 S.protocol_data ctxt block () ( priority, seed_nonce_hash, proof_of_work_nonce, liquidity_baking_escape_vote ) end module Parse = struct module S = struct open Data_encoding let path = RPC_path.(path / "parse") let operations = RPC_service.post_service ~description:"Parse operations" ~query:RPC_query.empty ~input: (obj2 (req "operations" (list (dynamic_size Operation.raw_encoding))) (opt "check_signature" bool)) ~output:(list (dynamic_size Operation.encoding)) RPC_path.(path / "operations") let block = RPC_service.post_service ~description:"Parse a block" ~query:RPC_query.empty ~input:Block_header.raw_encoding ~output:Block_header.protocol_data_encoding RPC_path.(path / "block") end let parse_protocol_data protocol_data = match Data_encoding.Binary.of_bytes Block_header.protocol_data_encoding protocol_data with | None -> Stdlib.failwith "Cant_parse_protocol_data" | Some protocol_data -> protocol_data let register () = Registration.register0 S.operations (fun _ctxt () (operations, check) -> map_s (fun raw -> parse_operation raw >>?= fun op -> (match check with | Some true -> return_unit (* FIXME *) (* I.check_signature ctxt *) (* op.protocol_data.signature op.shell op.protocol_data.contents *) | Some false | None -> return_unit) >|=? fun () -> op) operations) ; Registration.register0_noctxt S.block (fun () raw_block -> return @@ parse_protocol_data raw_block.protocol_data) let operations ctxt block ?check operations = RPC_context.make_call0 S.operations ctxt block () (operations, check) let block ctxt block shell protocol_data = RPC_context.make_call0 S.block ctxt block () ({shell; protocol_data} : Block_header.raw) end module S = struct open Data_encoding type level_query = {offset : int32} let level_query : level_query RPC_query.t = let open RPC_query in query (fun offset -> {offset}) |+ field "offset" RPC_arg.int32 0l (fun t -> t.offset) |> seal let current_level = RPC_service.get_service ~description: "Returns the level of the interrogated block, or the one of a block \ located `offset` blocks after in the chain (or before when \ negative). For instance, the next block if `offset` is 1." ~query:level_query ~output:Level.encoding RPC_path.(path / "current_level") let levels_in_current_cycle = RPC_service.get_service ~description:"Levels of a cycle" ~query:level_query ~output: (obj2 (req "first" Raw_level.encoding) (req "last" Raw_level.encoding)) RPC_path.(path / "levels_in_current_cycle") end let register () = Scripts.register () ; Forge.register () ; Parse.register () ; Contract.register () ; Big_map.register () ; Registration.register0 S.current_level (fun ctxt q () -> Level.from_raw ctxt ~offset:q.offset (Level.current ctxt).level |> return) ; Registration.opt_register0 S.levels_in_current_cycle (fun ctxt q () -> let rev_levels = Level.levels_in_current_cycle ctxt ~offset:q.offset () in match rev_levels with | [] -> return_none | [level] -> return (Some (level.level, level.level)) | last :: (_ :: _ as rest) -> (* The [rev_levels] list is reversed, the last level is the head *) let first = List.hd (List.rev rest) in return (Some (first.level, last.level))) let current_level ctxt ?(offset = 0l) block = RPC_context.make_call0 S.current_level ctxt block {offset} () let levels_in_current_cycle ctxt ?(offset = 0l) block = RPC_context.make_call0 S.levels_in_current_cycle ctxt block {offset} () let rpc_services = register () ; RPC_directory.merge rpc_services !Registration.patched_services end