package tezos-protocol-003-PsddFKi3
Tezos/Protocol: 003_PsddFKi3 (economic-protocol definition, functor version)
Install
Dune Dependency
Authors
Maintainers
Sources
tezos-16.1.tar.gz
sha256=43723d096307603703a1a89ed1b2eb202b365f5e7824b96b0cbf813b343a6cf7
sha512=b2a637f2e965000d3d49ad85277ca24d6cb07a1a7cf2bc69d296d8b03ad78c3eaa8e21e94b9162e62c2e11649cd03bc845b2a3dafe623b91065df69d47dc8e4f
doc/src/tezos-protocol-003-PsddFKi3.raw/michelson_v1_gas.ml.html
Source file michelson_v1_gas.ml
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 400 401 402 403 404 405 406 407 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436(*****************************************************************************) (* *) (* 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. *) (* *) (*****************************************************************************) open Alpha_context open Gas module Cost_of = struct let cycle = step_cost 1 let nop = free let stack_op = step_cost 1 let bool_binop _ _ = step_cost 1 let bool_unop _ = step_cost 1 let pair = alloc_cost 2 let pair_access = step_cost 1 let cons = alloc_cost 2 let variant_no_data = alloc_cost 1 let branch = step_cost 2 let string length = alloc_bytes_cost length let bytes length = alloc_mbytes_cost length let zint z = alloc_bits_cost (Z.numbits z) let concat cost length ss = let rec cum acc = function | [] -> acc | s :: ss -> cum (cost (length s) +@ acc) ss in cum free ss let concat_string ss = concat string String.length ss let concat_bytes ss = concat bytes MBytes.length ss let slice_string length = string length let slice_bytes = alloc_cost 0 (* Cost per cycle of a loop, fold, etc *) let loop_cycle = step_cost 2 let list_size = step_cost 1 let log2 = let rec help acc = function | 0 -> acc | n -> help (acc + 1) (n / 2) in help 1 let module_cost = alloc_cost 10 let map_access : type key value. (key, value) Script_typed_ir.map -> int = fun (module Box) -> log2 (snd Box.boxed) let map_to_list : type key value. (key, value) Script_typed_ir.map -> cost = fun (module Box) -> let size = snd Box.boxed in 3 *@ alloc_cost size let map_mem _key map = step_cost (map_access map) let map_get = map_mem let map_update _ _ map = map_access map *@ alloc_cost 3 let map_size = step_cost 2 let big_map_mem _key _map = step_cost 50 let big_map_get _key _map = step_cost 50 let big_map_update _key _value _map = step_cost 10 let set_access : type elt. elt -> elt Script_typed_ir.set -> int = fun _key (module Box) -> log2 @@ Box.size let set_mem key set = step_cost (set_access key set) let set_update key _presence set = set_access key set *@ alloc_cost 3 (* for LEFT, RIGHT, SOME *) let wrap = alloc_cost 1 let mul n1 n2 = let steps = (Z.numbits (Script_int.to_zint n1)) * (Z.numbits (Script_int.to_zint n2)) in let bits = (Z.numbits (Script_int.to_zint n1)) + (Z.numbits (Script_int.to_zint n2)) in step_cost steps +@ alloc_bits_cost bits let div n1 n2 = mul n1 n2 +@ alloc_cost 2 let add_sub_z n1 n2 = let bits = Compare.Int.max (Z.numbits n1) (Z.numbits n2) in step_cost bits +@ alloc_cost bits let add n1 n2 = add_sub_z (Script_int.to_zint n1) (Script_int.to_zint n2) let sub = add let abs n = alloc_bits_cost (Z.numbits @@ Script_int.to_zint n) let neg = abs let int _ = step_cost 1 let add_timestamp t n = add_sub_z (Script_timestamp.to_zint t) (Script_int.to_zint n) let sub_timestamp t n = add_sub_z (Script_timestamp.to_zint t) (Script_int.to_zint n) let diff_timestamps t1 t2 = add_sub_z (Script_timestamp.to_zint t1) (Script_timestamp.to_zint t2) let empty_set = module_cost let set_size = step_cost 2 let set_to_list : type item. item Script_typed_ir.set -> cost = fun (module Box) -> alloc_cost @@ Pervasives.(Box.size * 2) let empty_map = module_cost let int64_op = step_cost 1 +@ alloc_cost 1 let z_to_int64 = step_cost 2 +@ alloc_cost 1 let int64_to_z = step_cost 2 +@ alloc_cost 1 let bitwise_binop n1 n2 = let bits = Compare.Int.max (Z.numbits (Script_int.to_zint n1)) (Z.numbits (Script_int.to_zint n2)) in step_cost bits +@ alloc_bits_cost bits let logor = bitwise_binop let logand = bitwise_binop let logxor = bitwise_binop let lognot n = let bits = Z.numbits @@ Script_int.to_zint n in step_cost bits +@ alloc_cost bits let unopt ~default = function | None -> default | Some x -> x let max_int = 1073741823 let shift_left x y = alloc_bits_cost (Z.numbits (Script_int.to_zint x) + (unopt (Script_int.to_int y) ~default:max_int)) let shift_right x y = alloc_bits_cost (Compare.Int.max 1 (Z.numbits (Script_int.to_zint x) - unopt (Script_int.to_int y) ~default:max_int)) let exec = step_cost 1 let push = step_cost 1 let compare_res = step_cost 1 let unpack_failed bytes = (* We cannot instrument failed deserialization, so we take worst case fees: a set of size 1 bytes values. *) let len = MBytes.length bytes in (len *@ alloc_mbytes_cost 1) +@ (len *@ (log2 len *@ (alloc_cost 3 +@ step_cost 1))) let address = step_cost 1 let contract = Gas.read_bytes_cost Z.zero +@ step_cost 10000 let transfer = step_cost 10 let create_account = step_cost 10 let create_contract = step_cost 10 let implicit_account = step_cost 10 let set_delegate = step_cost 10 +@ write_bytes_cost (Z.of_int 32) let balance = step_cost 1 +@ read_bytes_cost (Z.of_int 8) let now = step_cost 5 let check_signature = step_cost 1000 let hash_key = step_cost 3 +@ bytes 20 let hash data len = 10 *@ step_cost (MBytes.length data) +@ bytes len let steps_to_quota = step_cost 1 let source = step_cost 1 let self = step_cost 1 let amount = step_cost 1 let compare_bool _ _ = step_cost 1 let compare_string s1 s2 = step_cost ((7 + Compare.Int.max (String.length s1) (String.length s2)) / 8) +@ step_cost 1 let compare_bytes s1 s2 = step_cost ((7 + Compare.Int.max (MBytes.length s1) (MBytes.length s2)) / 8) +@ step_cost 1 let compare_tez _ _ = step_cost 1 let compare_zint n1 n2 = step_cost ((7 + Compare.Int.max (Z.numbits n1) (Z.numbits n2)) / 8) +@ step_cost 1 let compare_int n1 n2 = compare_zint (Script_int.to_zint n1) (Script_int.to_zint n2) let compare_nat = compare_int let compare_key_hash _ _ = alloc_bytes_cost 36 let compare_timestamp t1 t2 = compare_zint (Script_timestamp.to_zint t1) (Script_timestamp.to_zint t2) let compare_address _ _ = step_cost 20 let manager_operation = step_cost 10_000 module Typechecking = struct let cycle = step_cost 1 let bool = free let unit = free let string = string let bytes = bytes let z = zint let int_of_string str = alloc_cost @@ (Pervasives.(/) (String.length str) 5) let tez = step_cost 1 +@ alloc_cost 1 let string_timestamp = step_cost 3 +@ alloc_cost 3 let key = step_cost 3 +@ alloc_cost 3 let key_hash = step_cost 1 +@ alloc_cost 1 let signature = step_cost 1 +@ alloc_cost 1 let contract = step_cost 5 let get_script = step_cost 20 +@ alloc_cost 5 let contract_exists = step_cost 15 +@ alloc_cost 5 let pair = alloc_cost 2 let union = alloc_cost 1 let lambda = alloc_cost 5 +@ step_cost 3 let some = alloc_cost 1 let none = alloc_cost 0 let list_element = alloc_cost 2 +@ step_cost 1 let set_element size = log2 size *@ (alloc_cost 3 +@ step_cost 2) let map_element size = log2 size *@ (alloc_cost 4 +@ step_cost 2) let primitive_type = alloc_cost 1 let one_arg_type = alloc_cost 2 let two_arg_type = alloc_cost 3 let operation b = bytes b let type_ nb_args = alloc_cost (nb_args + 1) (* Cost of parsing instruction, is cost of allocation of constructor + cost of contructor parameters + cost of allocation on the stack type *) let instr : type b a. (b, a) Script_typed_ir.instr -> cost = fun i -> let open Script_typed_ir in alloc_cost 1 +@ (* cost of allocation of constructor *) match i with | Drop -> alloc_cost 0 | Dup -> alloc_cost 1 | Swap -> alloc_cost 0 | Const _ -> alloc_cost 1 | Cons_pair -> alloc_cost 2 | Car -> alloc_cost 1 | Cdr -> alloc_cost 1 | Cons_some -> alloc_cost 2 | Cons_none _ -> alloc_cost 3 | If_none _ -> alloc_cost 2 | Left -> alloc_cost 3 | Right -> alloc_cost 3 | If_left _ -> alloc_cost 2 | Cons_list -> alloc_cost 1 | Nil -> alloc_cost 1 | If_cons _ -> alloc_cost 2 | List_map _ -> alloc_cost 5 | List_iter _ -> alloc_cost 4 | List_size -> alloc_cost 1 | Empty_set _ -> alloc_cost 1 | Set_iter _ -> alloc_cost 4 | Set_mem -> alloc_cost 1 | Set_update -> alloc_cost 1 | Set_size -> alloc_cost 1 | Empty_map _ -> alloc_cost 2 | Map_map _ -> alloc_cost 5 | Map_iter _ -> alloc_cost 4 | Map_mem -> alloc_cost 1 | Map_get -> alloc_cost 1 | Map_update -> alloc_cost 1 | Map_size -> alloc_cost 1 | Big_map_mem -> alloc_cost 1 | Big_map_get -> alloc_cost 1 | Big_map_update -> alloc_cost 1 | Concat_string -> alloc_cost 1 | Concat_string_pair -> alloc_cost 1 | Concat_bytes -> alloc_cost 1 | Concat_bytes_pair -> alloc_cost 1 | Slice_string -> alloc_cost 1 | Slice_bytes -> alloc_cost 1 | String_size -> alloc_cost 1 | Bytes_size -> alloc_cost 1 | Add_seconds_to_timestamp -> alloc_cost 1 | Add_timestamp_to_seconds -> alloc_cost 1 | Sub_timestamp_seconds -> alloc_cost 1 | Diff_timestamps -> alloc_cost 1 | Add_tez -> alloc_cost 1 | Sub_tez -> alloc_cost 1 | Mul_teznat -> alloc_cost 1 | Mul_nattez -> alloc_cost 1 | Ediv_teznat -> alloc_cost 1 | Ediv_tez -> alloc_cost 1 | Or -> alloc_cost 1 | And -> alloc_cost 1 | Xor -> alloc_cost 1 | Not -> alloc_cost 1 | Is_nat -> alloc_cost 1 | Neg_nat -> alloc_cost 1 | Neg_int -> alloc_cost 1 | Abs_int -> alloc_cost 1 | Int_nat -> alloc_cost 1 | Add_intint -> alloc_cost 1 | Add_intnat -> alloc_cost 1 | Add_natint -> alloc_cost 1 | Add_natnat -> alloc_cost 1 | Sub_int -> alloc_cost 1 | Mul_intint -> alloc_cost 1 | Mul_intnat -> alloc_cost 1 | Mul_natint -> alloc_cost 1 | Mul_natnat -> alloc_cost 1 | Ediv_intint -> alloc_cost 1 | Ediv_intnat -> alloc_cost 1 | Ediv_natint -> alloc_cost 1 | Ediv_natnat -> alloc_cost 1 | Lsl_nat -> alloc_cost 1 | Lsr_nat -> alloc_cost 1 | Or_nat -> alloc_cost 1 | And_nat -> alloc_cost 1 | And_int_nat -> alloc_cost 1 | Xor_nat -> alloc_cost 1 | Not_nat -> alloc_cost 1 | Not_int -> alloc_cost 1 | Seq _ -> alloc_cost 8 | If _ -> alloc_cost 8 | Loop _ -> alloc_cost 4 | Loop_left _ -> alloc_cost 5 | Dip _ -> alloc_cost 4 | Exec -> alloc_cost 1 | Lambda _ -> alloc_cost 2 | Failwith _ -> alloc_cost 1 | Nop -> alloc_cost 0 | Compare _ -> alloc_cost 1 | Eq -> alloc_cost 1 | Neq -> alloc_cost 1 | Lt -> alloc_cost 1 | Gt -> alloc_cost 1 | Le -> alloc_cost 1 | Ge -> alloc_cost 1 | Address -> alloc_cost 1 | Contract _ -> alloc_cost 2 | Transfer_tokens -> alloc_cost 1 | Create_account -> alloc_cost 2 | Implicit_account -> alloc_cost 1 | Create_contract _ -> alloc_cost 8 | Set_delegate -> alloc_cost 1 | Now -> alloc_cost 1 | Balance -> alloc_cost 1 | Check_signature -> alloc_cost 1 | Hash_key -> alloc_cost 1 | Pack _ -> alloc_cost 2 | Unpack _ -> alloc_cost 2 | Blake2b -> alloc_cost 1 | Sha256 -> alloc_cost 1 | Sha512 -> alloc_cost 1 | Steps_to_quota -> alloc_cost 1 | Source -> alloc_cost 1 | Sender -> alloc_cost 1 | Self _ -> alloc_cost 2 | Amount -> alloc_cost 1 end module Unparse = struct let prim_cost l annot = Script.prim_node_cost_nonrec_of_length l annot let seq_cost = Script.seq_node_cost_nonrec_of_length let string_cost length = Script.string_node_cost_of_length length let cycle = step_cost 1 let bool = prim_cost 0 [] let unit = prim_cost 0 [] (* We count the length of strings and bytes to prevent hidden miscalculations due to non detectable expansion of sharing. *) let string s = Script.string_node_cost s let bytes s = Script.bytes_node_cost s let z i = Script.int_node_cost i let int i = Script.int_node_cost (Script_int.to_zint i) let tez = Script.int_node_cost_of_numbits 60 (* int64 bound *) let timestamp x = Script_timestamp.to_zint x |> Script_int.of_zint |> int let operation bytes = Script.bytes_node_cost bytes let key = string_cost 54 let key_hash = string_cost 36 let signature = string_cost 128 let contract = string_cost 36 let pair = prim_cost 2 [] let union = prim_cost 1 [] let some = prim_cost 1 [] let none = prim_cost 0 [] let list_element = alloc_cost 2 let set_element = alloc_cost 2 let map_element = alloc_cost 2 let one_arg_type = prim_cost 1 let two_arg_type = prim_cost 2 let set_to_list = set_to_list let map_to_list = map_to_list end end