ligo/vendors/ligo-utils/tezos-protocol-alpha/script_repr.ml

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2019-09-05 17:21:01 +04:00
(*****************************************************************************)
(* *)
(* Open Source License *)
(* Copyright (c) 2018 Dynamic Ledger Solutions, Inc. <contact@tezos.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. *)
(* *)
(*****************************************************************************)
type location = Micheline.canonical_location
let location_encoding = Micheline.canonical_location_encoding
type annot = Micheline.annot
type expr = Michelson_v1_primitives.prim Micheline.canonical
type lazy_expr = expr Data_encoding.lazy_t
type node = (location, Michelson_v1_primitives.prim) Micheline.node
let expr_encoding =
Micheline.canonical_encoding_v1
~variant:"michelson_v1"
Michelson_v1_primitives.prim_encoding
type error += Lazy_script_decode (* `Permanent *)
let () =
register_error_kind `Permanent
~id:"invalid_binary_format"
~title:"Invalid binary format"
~description:"Could not deserialize some piece of data \
from its binary representation"
Data_encoding.empty
(function Lazy_script_decode -> Some () | _ -> None)
(fun () -> Lazy_script_decode)
let lazy_expr_encoding =
Data_encoding.lazy_encoding expr_encoding
let lazy_expr expr =
Data_encoding.make_lazy expr_encoding expr
type t = {
code : lazy_expr ;
storage : lazy_expr
}
let encoding =
let open Data_encoding in
def "scripted.contracts" @@
conv
(fun { code ; storage } -> (code, storage))
(fun (code, storage) -> { code ; storage })
(obj2
(req "code" lazy_expr_encoding)
(req "storage" lazy_expr_encoding))
let int_node_size_of_numbits n =
(1, 1 + (n + 63) / 64)
let int_node_size n =
int_node_size_of_numbits (Z.numbits n)
let string_node_size_of_length s =
(1, 1 + (s + 7) / 8)
let string_node_size s =
string_node_size_of_length (String.length s)
let bytes_node_size_of_length s =
(* approx cost of indirection to the C heap *)
(2, 1 + (s + 7) / 8 + 12)
let bytes_node_size s =
bytes_node_size_of_length (MBytes.length s)
let prim_node_size_nonrec_of_lengths n_args annots =
let annots_length = List.fold_left (fun acc s -> acc + String.length s) 0 annots in
if Compare.Int.(annots_length = 0) then
(1 + n_args, 2 + 2 * n_args)
else
(2 + n_args, 4 + 2 * n_args + (annots_length + 7) / 8)
let prim_node_size_nonrec args annots =
let n_args = List.length args in
prim_node_size_nonrec_of_lengths n_args annots
let seq_node_size_nonrec_of_length n_args =
(1 + n_args, 2 + 2 * n_args)
let seq_node_size_nonrec args =
let n_args = List.length args in
seq_node_size_nonrec_of_length n_args
let rec node_size node =
let open Micheline in
match node with
| Int (_, n) -> int_node_size n
| String (_, s) -> string_node_size s
| Bytes (_, s) -> bytes_node_size s
| Prim (_, _, args, annot) ->
List.fold_left
(fun (blocks, words) node ->
let (nblocks, nwords) = node_size node in
(blocks + nblocks, words + nwords))
(prim_node_size_nonrec args annot)
args
| Seq (_, args) ->
List.fold_left
(fun (blocks, words) node ->
let (nblocks, nwords) = node_size node in
(blocks + nblocks, words + nwords))
(seq_node_size_nonrec args)
args
let expr_size expr =
node_size (Micheline.root expr)
let traversal_cost node =
let blocks, _words = node_size node in
Gas_limit_repr.step_cost blocks
let cost_of_size (blocks, words) =
let open Gas_limit_repr in
((Compare.Int.max 0 (blocks - 1)) *@ alloc_cost 0) +@
alloc_cost words +@
step_cost blocks
let node_cost node =
cost_of_size (node_size node)
let int_node_cost n = cost_of_size (int_node_size n)
let int_node_cost_of_numbits n = cost_of_size (int_node_size_of_numbits n)
let string_node_cost s = cost_of_size (string_node_size s)
let string_node_cost_of_length s = cost_of_size (string_node_size_of_length s)
let bytes_node_cost s = cost_of_size (bytes_node_size s)
let bytes_node_cost_of_length s = cost_of_size (bytes_node_size_of_length s)
let prim_node_cost_nonrec args annot = cost_of_size (prim_node_size_nonrec args annot)
let prim_node_cost_nonrec_of_length n_args annot = cost_of_size (prim_node_size_nonrec_of_lengths n_args annot)
let seq_node_cost_nonrec args = cost_of_size (seq_node_size_nonrec args)
let seq_node_cost_nonrec_of_length n_args = cost_of_size (seq_node_size_nonrec_of_length n_args)
let deserialized_cost expr =
cost_of_size (expr_size expr)
let serialized_cost bytes =
let open Gas_limit_repr in
alloc_mbytes_cost (MBytes.length bytes)
let force_decode lexpr =
let account_deserialization_cost =
Data_encoding.apply_lazy
~fun_value:(fun _ -> false)
~fun_bytes:(fun _ -> true)
~fun_combine:(fun _ _ -> false)
lexpr in
match Data_encoding.force_decode lexpr with
| Some v ->
if account_deserialization_cost then
ok (v, deserialized_cost v)
else
ok (v, Gas_limit_repr.free)
| None -> error Lazy_script_decode
let force_bytes expr =
let open Gas_limit_repr in
let account_serialization_cost =
Data_encoding.apply_lazy
~fun_value:(fun v -> Some v)
~fun_bytes:(fun _ -> None)
~fun_combine:(fun _ _ -> None)
expr in
match Data_encoding.force_bytes expr with
| bytes ->
begin match account_serialization_cost with
| Some v -> ok (bytes, traversal_cost (Micheline.root v) +@ serialized_cost bytes)
| None -> ok (bytes, Gas_limit_repr.free)
end
| exception _ -> error Lazy_script_decode
let minimal_deserialize_cost lexpr =
Data_encoding.apply_lazy
~fun_value:(fun _ -> Gas_limit_repr.free)
~fun_bytes:(fun b -> serialized_cost b)
~fun_combine:(fun c_free _ -> c_free)
lexpr