2020-09-22 14:53:52 +02:00
// Copyright 2015-2020 Parity Technologies (UK) Ltd.
// This file is part of OpenEthereum.
2016-02-05 13:40:41 +01:00
2020-09-22 14:53:52 +02:00
// OpenEthereum is free software: you can redistribute it and/or modify
2016-02-05 13:40:41 +01:00
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
2020-09-22 14:53:52 +02:00
// OpenEthereum is distributed in the hope that it will be useful,
2016-02-05 13:40:41 +01:00
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
2020-09-22 14:53:52 +02:00
// along with OpenEthereum. If not, see <http://www.gnu.org/licenses/>.
2016-02-05 13:40:41 +01:00
2018-07-20 15:06:11 +02:00
//! Standard built-in contracts.
2020-07-29 11:06:34 +02:00
#![ allow(missing_docs) ]
2019-11-11 21:57:38 +01:00
2019-09-12 18:43:53 +02:00
use std ::{
2020-08-05 06:08:03 +02:00
cmp ::{ max , min } ,
collections ::BTreeMap ,
convert ::{ TryFrom , TryInto } ,
io ::{ self , Cursor , Read } ,
mem ::size_of ,
str ::FromStr ,
2019-09-12 18:43:53 +02:00
} ;
2019-11-11 21:57:38 +01:00
use byteorder ::{ BigEndian , LittleEndian , ReadBytesExt } ;
2020-08-05 06:08:03 +02:00
use eip_152 ::compress ;
2020-09-03 01:26:06 +02:00
use eth_pairings ::public_interface ::eip2537 ::{
EIP2537Executor , SCALAR_BYTE_LENGTH , SERIALIZED_G1_POINT_BYTE_LENGTH ,
SERIALIZED_G2_POINT_BYTE_LENGTH ,
} ;
2018-01-10 13:35:18 +01:00
use ethereum_types ::{ H256 , U256 } ;
2016-04-09 19:20:35 +02:00
use ethjson ;
2019-11-11 21:57:38 +01:00
use keccak_hash ::keccak ;
2020-08-05 06:08:03 +02:00
use log ::{ trace , warn } ;
use num ::{ BigUint , One , Zero } ;
2019-11-11 21:57:38 +01:00
use parity_bytes ::BytesRef ;
2021-03-12 10:12:42 +01:00
use parity_crypto ::{
digest ,
publickey ::{ recover_allowing_all_zero_message , Signature , ZeroesAllowedMessage } ,
} ;
2017-07-12 13:09:17 +02:00
2016-08-30 11:10:59 +02:00
/// Native implementation of a built-in contract.
2019-11-11 21:57:38 +01:00
pub trait Implementation : Send + Sync {
2020-08-05 06:08:03 +02:00
/// execute this built-in on the given input, writing to the given output.
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > ;
2015-12-20 21:45:43 +01:00
}
2016-01-04 22:47:45 +01:00
2016-08-30 11:10:59 +02:00
/// A gas pricing scheme for built-in contracts.
2019-09-12 18:43:53 +02:00
trait Pricer : Send + Sync {
2020-08-05 06:08:03 +02:00
/// The gas cost of running this built-in for the given input data at block number `at`
fn cost ( & self , input : & [ u8 ] ) -> U256 ;
2019-09-12 18:43:53 +02:00
}
/// Pricing for the Blake2 compression function (aka "F").
/// Computes the price as a fixed cost per round where the number of rounds is part of the input
/// byte slice.
pub type Blake2FPricer = u64 ;
impl Pricer for Blake2FPricer {
2020-08-05 06:08:03 +02:00
fn cost ( & self , input : & [ u8 ] ) -> U256 {
const FOUR : usize = std ::mem ::size_of ::< u32 > ( ) ;
// Returning zero if the conversion fails is fine because `execute()` will check the length
// and bail with the appropriate error.
if input . len ( ) < FOUR {
return U256 ::zero ( ) ;
}
let ( rounds_bytes , _ ) = input . split_at ( FOUR ) ;
let rounds = u32 ::from_be_bytes ( rounds_bytes . try_into ( ) . unwrap_or ( [ 0 u8 ; 4 ] ) ) ;
U256 ::from ( * self as u64 * rounds as u64 )
}
2016-08-30 11:10:59 +02:00
}
2016-01-11 11:51:31 +01:00
2019-11-11 21:57:38 +01:00
/// Pricing model
#[ derive(Debug) ]
enum Pricing {
2020-08-05 06:08:03 +02:00
AltBn128Pairing ( AltBn128PairingPricer ) ,
AltBn128ConstOperations ( AltBn128ConstOperations ) ,
Blake2F ( Blake2FPricer ) ,
Linear ( Linear ) ,
Modexp ( ModexpPricer ) ,
2020-11-12 14:31:24 +01:00
Modexp2565 ( Modexp2565Pricer ) ,
2020-09-03 01:26:06 +02:00
Bls12Pairing ( Bls12PairingPricer ) ,
Bls12ConstOperations ( Bls12ConstOperations ) ,
Bls12MultiexpG1 ( Bls12MultiexpPricerG1 ) ,
Bls12MultiexpG2 ( Bls12MultiexpPricerG2 ) ,
2019-11-11 21:57:38 +01:00
}
impl Pricer for Pricing {
2020-08-05 06:08:03 +02:00
fn cost ( & self , input : & [ u8 ] ) -> U256 {
match self {
Pricing ::AltBn128Pairing ( inner ) = > inner . cost ( input ) ,
Pricing ::AltBn128ConstOperations ( inner ) = > inner . cost ( input ) ,
Pricing ::Blake2F ( inner ) = > inner . cost ( input ) ,
Pricing ::Linear ( inner ) = > inner . cost ( input ) ,
Pricing ::Modexp ( inner ) = > inner . cost ( input ) ,
2020-11-12 14:31:24 +01:00
Pricing ::Modexp2565 ( inner ) = > inner . cost ( input ) ,
2020-09-03 01:26:06 +02:00
Pricing ::Bls12Pairing ( inner ) = > inner . cost ( input ) ,
Pricing ::Bls12ConstOperations ( inner ) = > inner . cost ( input ) ,
Pricing ::Bls12MultiexpG1 ( inner ) = > inner . cost ( input ) ,
Pricing ::Bls12MultiexpG2 ( inner ) = > inner . cost ( input ) ,
2020-08-05 06:08:03 +02:00
}
}
2019-11-11 21:57:38 +01:00
}
2016-08-30 11:10:59 +02:00
/// A linear pricing model. This computes a price using a base cost and a cost per-word.
2019-11-11 21:57:38 +01:00
#[ derive(Debug) ]
2016-08-30 11:10:59 +02:00
struct Linear {
2020-08-05 06:08:03 +02:00
base : u64 ,
word : u64 ,
2016-01-07 19:10:29 +01:00
}
2017-03-21 17:36:38 +01:00
/// A special pricing model for modular exponentiation.
2019-11-11 21:57:38 +01:00
#[ derive(Debug) ]
2017-09-15 21:07:54 +02:00
struct ModexpPricer {
2020-08-05 06:08:03 +02:00
divisor : u64 ,
2017-03-21 17:36:38 +01:00
}
2020-11-12 14:31:24 +01:00
/// The EIP2565 pricing model of modular exponentiation.
#[ derive(Debug) ]
struct Modexp2565Pricer { }
2016-08-30 11:10:59 +02:00
impl Pricer for Linear {
2020-08-05 06:08:03 +02:00
fn cost ( & self , input : & [ u8 ] ) -> U256 {
U256 ::from ( self . base ) + U256 ::from ( self . word ) * U256 ::from ( ( input . len ( ) + 31 ) / 32 )
}
2017-03-21 17:36:38 +01:00
}
2019-09-12 18:43:53 +02:00
/// alt_bn128 pairing price
#[ derive(Debug, Copy, Clone) ]
struct AltBn128PairingPrice {
2020-08-05 06:08:03 +02:00
base : u64 ,
pair : u64 ,
2017-09-15 21:07:54 +02:00
}
2019-09-12 18:43:53 +02:00
/// alt_bn128_pairing pricing model. This computes a price using a base cost and a cost per pair.
2019-11-11 21:57:38 +01:00
#[ derive(Debug) ]
2019-09-12 18:43:53 +02:00
struct AltBn128PairingPricer {
2020-08-05 06:08:03 +02:00
price : AltBn128PairingPrice ,
2019-09-12 18:43:53 +02:00
}
2019-11-11 21:57:38 +01:00
/// Pricing for constant alt_bn128 operations (ECADD and ECMUL)
#[ derive(Debug, Copy, Clone) ]
pub struct AltBn128ConstOperations {
2020-08-05 06:08:03 +02:00
/// Fixed price.
pub price : u64 ,
2019-11-11 21:57:38 +01:00
}
2019-09-12 18:43:53 +02:00
2019-11-11 21:57:38 +01:00
impl Pricer for AltBn128ConstOperations {
2020-08-05 06:08:03 +02:00
fn cost ( & self , _input : & [ u8 ] ) -> U256 {
self . price . into ( )
}
2019-11-11 21:57:38 +01:00
}
impl Pricer for AltBn128PairingPricer {
2020-08-05 06:08:03 +02:00
fn cost ( & self , input : & [ u8 ] ) -> U256 {
U256 ::from ( self . price . base ) + U256 ::from ( self . price . pair ) * U256 ::from ( input . len ( ) / 192 )
}
2017-09-15 21:07:54 +02:00
}
impl Pricer for ModexpPricer {
2020-08-05 06:08:03 +02:00
fn cost ( & self , input : & [ u8 ] ) -> U256 {
2020-11-12 14:31:24 +01:00
let ( base_len , exp_len , exp_low , mod_len ) = Self ::parse_input ( input ) ;
if let Some ( cost ) = Self ::check_input_boundaries ( & base_len , & exp_len , & mod_len ) {
return cost ;
}
let ( base_len , exp_len , mod_len ) =
( base_len . low_u64 ( ) , exp_len . low_u64 ( ) , mod_len . low_u64 ( ) ) ;
let adjusted_exp_len = Self ::adjusted_exp_len ( exp_len , exp_low ) ;
let m = max ( mod_len , base_len ) ;
let ( gas , overflow ) = Self ::mult_complexity ( m ) . overflowing_mul ( max ( adjusted_exp_len , 1 ) ) ;
if overflow {
return U256 ::max_value ( ) ;
}
( gas / self . divisor as u64 ) . into ( )
}
}
impl ModexpPricer {
pub fn parse_input ( input : & [ u8 ] ) -> ( U256 , U256 , U256 , U256 ) {
2020-08-05 06:08:03 +02:00
let mut reader = input . chain ( io ::repeat ( 0 ) ) ;
let mut buf = [ 0 ; 32 ] ;
// read lengths as U256 here for accurate gas calculation.
let mut read_len = | | {
reader
. read_exact ( & mut buf [ .. ] )
. expect ( " reading from zero-extended memory cannot fail; qed " ) ;
2021-03-12 10:12:42 +01:00
U256 ::from_big_endian ( & buf [ .. ] )
2020-08-05 06:08:03 +02:00
} ;
2020-11-12 14:31:24 +01:00
let base_len_u256 = read_len ( ) ;
let exp_len_u256 = read_len ( ) ;
let mod_len_u256 = read_len ( ) ;
2020-08-05 06:08:03 +02:00
2020-11-12 14:31:24 +01:00
let ( base_len , exp_len ) = ( base_len_u256 . low_u64 ( ) , exp_len_u256 . low_u64 ( ) ) ;
2020-08-05 06:08:03 +02:00
// read fist 32-byte word of the exponent.
2021-11-30 08:33:40 +01:00
let exp_low = if base_len . wrapping_add ( 96 ) > = input . len ( ) as u64 {
2020-08-05 06:08:03 +02:00
U256 ::zero ( )
} else {
buf . iter_mut ( ) . for_each ( | b | * b = 0 ) ;
2021-11-30 08:33:40 +01:00
let mut reader = input [ ( base_len as usize ) . wrapping_add ( 96 ) .. ] . chain ( io ::repeat ( 0 ) ) ;
2020-08-05 06:08:03 +02:00
let len = min ( exp_len , 32 ) as usize ;
reader
. read_exact ( & mut buf [ ( 32 - len ) .. ] )
. expect ( " reading from zero-extended memory cannot fail; qed " ) ;
2021-03-12 10:12:42 +01:00
U256 ::from_big_endian ( & buf [ .. ] )
2020-08-05 06:08:03 +02:00
} ;
2020-11-12 14:31:24 +01:00
( base_len_u256 , exp_len_u256 , exp_low , mod_len_u256 )
}
2020-08-05 06:08:03 +02:00
2020-11-12 14:31:24 +01:00
pub fn check_input_boundaries ( base_len : & U256 , exp_len : & U256 , mod_len : & U256 ) -> Option < U256 > {
if mod_len . is_zero ( ) & & base_len . is_zero ( ) {
return Some ( U256 ::zero ( ) ) ;
2020-08-05 06:08:03 +02:00
}
2020-11-12 14:31:24 +01:00
let max_len = U256 ::from ( u32 ::max_value ( ) / 2 ) ;
if base_len > & max_len | | mod_len > & max_len | | exp_len > & max_len {
return Some ( U256 ::max_value ( ) ) ;
}
None
2020-08-05 06:08:03 +02:00
}
2017-09-15 21:07:54 +02:00
2020-08-05 06:08:03 +02:00
fn adjusted_exp_len ( len : u64 , exp_low : U256 ) -> u64 {
let bit_index = if exp_low . is_zero ( ) {
0
} else {
( 255 - exp_low . leading_zeros ( ) ) as u64
} ;
if len < = 32 {
bit_index
} else {
8 * ( len - 32 ) + bit_index
}
}
fn mult_complexity ( x : u64 ) -> u64 {
match x {
x if x < = 64 = > x * x ,
x if x < = 1024 = > ( x * x ) / 4 + 96 * x - 3072 ,
x = > ( x * x ) / 16 + 480 * x - 199_680 ,
}
}
2016-08-30 11:10:59 +02:00
}
2016-01-05 19:11:41 +01:00
2020-11-12 14:31:24 +01:00
impl Pricer for Modexp2565Pricer {
fn cost ( & self , input : & [ u8 ] ) -> U256 {
fn bit_length ( a : & U256 ) -> u64 {
let mut bit_no = 255 u64 ;
while bit_no > 0 {
if a . bit ( bit_no as usize ) {
return 1 + bit_no as u64 ;
}
bit_no - = 1 ;
}
2021-02-17 19:43:09 +01:00
1
2020-11-12 14:31:24 +01:00
}
fn calculate_multiplication_complexity ( base_len : u64 , modulus_len : u64 ) -> f64 {
let max_len = std ::cmp ::max ( base_len , modulus_len ) ;
let words = ( max_len as f64 / 8 f64 ) . ceil ( ) ;
words . powi ( 2 )
}
fn calculate_iteration_count ( exponent_len : u64 , exponent_low : & U256 ) -> u64 {
let mut iteration_count = 0 ;
if exponent_len < = 32 & & exponent_low . is_zero ( ) {
iteration_count = 0
} else if exponent_len < = 32 {
iteration_count = bit_length ( exponent_low ) - 1
} else if exponent_len > 32 {
iteration_count = ( 8 * ( exponent_len - 32 ) ) + bit_length ( exponent_low ) - 1
} ;
std ::cmp ::max ( iteration_count , 1 )
}
let ( base_len , exp_len , exp_low , mod_len ) = ModexpPricer ::parse_input ( input ) ;
2021-02-17 19:43:09 +01:00
let cost = if let Some ( cost ) =
ModexpPricer ::check_input_boundaries ( & base_len , & exp_len , & mod_len )
{
cost
} else {
let ( base_len , exp_len , mod_len ) =
( base_len . low_u64 ( ) , exp_len . low_u64 ( ) , mod_len . low_u64 ( ) ) ;
let multiplication_complexity = calculate_multiplication_complexity ( base_len , mod_len ) ;
let iteration_count = calculate_iteration_count ( exp_len , & exp_low ) ;
let computed =
( multiplication_complexity * iteration_count as f64 / 3 f64 ) . floor ( ) as u64 ;
U256 ::from ( computed )
} ;
std ::cmp ::max ( U256 ::from ( 200 ) , cost )
2020-11-12 14:31:24 +01:00
}
}
2020-09-03 01:26:06 +02:00
/// Bls12 pairing price
#[ derive(Debug, Copy, Clone) ]
struct Bls12PairingPrice {
base : u64 ,
pair : u64 ,
}
/// bls12_pairing pricing model. This computes a price using a base cost and a cost per pair.
#[ derive(Debug) ]
struct Bls12PairingPricer {
price : Bls12PairingPrice ,
}
/// Pricing for constant Bls12 operations (ADD and MUL in G1 and G2, as well as mappings)
#[ derive(Debug, Copy, Clone) ]
pub struct Bls12ConstOperations {
/// Fixed price.
pub price : u64 ,
}
/// Discount table for multiexponentiation (Pippenger's Algorithm)
/// Later on is normalized using the divisor
pub const BLS12_MULTIEXP_DISCOUNTS_TABLE : [ [ u64 ; 2 ] ; BLS12_MULTIEXP_PAIRS_FOR_MAX_DISCOUNT ] = [
[ 1 , 1200 ] ,
[ 2 , 888 ] ,
[ 3 , 764 ] ,
[ 4 , 641 ] ,
[ 5 , 594 ] ,
[ 6 , 547 ] ,
[ 7 , 500 ] ,
[ 8 , 453 ] ,
[ 9 , 438 ] ,
[ 10 , 423 ] ,
[ 11 , 408 ] ,
[ 12 , 394 ] ,
[ 13 , 379 ] ,
[ 14 , 364 ] ,
[ 15 , 349 ] ,
[ 16 , 334 ] ,
[ 17 , 330 ] ,
[ 18 , 326 ] ,
[ 19 , 322 ] ,
[ 20 , 318 ] ,
[ 21 , 314 ] ,
[ 22 , 310 ] ,
[ 23 , 306 ] ,
[ 24 , 302 ] ,
[ 25 , 298 ] ,
[ 26 , 294 ] ,
[ 27 , 289 ] ,
[ 28 , 285 ] ,
[ 29 , 281 ] ,
[ 30 , 277 ] ,
[ 31 , 273 ] ,
[ 32 , 269 ] ,
[ 33 , 268 ] ,
[ 34 , 266 ] ,
[ 35 , 265 ] ,
[ 36 , 263 ] ,
[ 37 , 262 ] ,
[ 38 , 260 ] ,
[ 39 , 259 ] ,
[ 40 , 257 ] ,
[ 41 , 256 ] ,
[ 42 , 254 ] ,
[ 43 , 253 ] ,
[ 44 , 251 ] ,
[ 45 , 250 ] ,
[ 46 , 248 ] ,
[ 47 , 247 ] ,
[ 48 , 245 ] ,
[ 49 , 244 ] ,
[ 50 , 242 ] ,
[ 51 , 241 ] ,
[ 52 , 239 ] ,
[ 53 , 238 ] ,
[ 54 , 236 ] ,
[ 55 , 235 ] ,
[ 56 , 233 ] ,
[ 57 , 232 ] ,
[ 58 , 231 ] ,
[ 59 , 229 ] ,
[ 60 , 228 ] ,
[ 61 , 226 ] ,
[ 62 , 225 ] ,
[ 63 , 223 ] ,
[ 64 , 222 ] ,
[ 65 , 221 ] ,
[ 66 , 220 ] ,
[ 67 , 219 ] ,
[ 68 , 219 ] ,
[ 69 , 218 ] ,
[ 70 , 217 ] ,
[ 71 , 216 ] ,
[ 72 , 216 ] ,
[ 73 , 215 ] ,
[ 74 , 214 ] ,
[ 75 , 213 ] ,
[ 76 , 213 ] ,
[ 77 , 212 ] ,
[ 78 , 211 ] ,
[ 79 , 211 ] ,
[ 80 , 210 ] ,
[ 81 , 209 ] ,
[ 82 , 208 ] ,
[ 83 , 208 ] ,
[ 84 , 207 ] ,
[ 85 , 206 ] ,
[ 86 , 205 ] ,
[ 87 , 205 ] ,
[ 88 , 204 ] ,
[ 89 , 203 ] ,
[ 90 , 202 ] ,
[ 91 , 202 ] ,
[ 92 , 201 ] ,
[ 93 , 200 ] ,
[ 94 , 199 ] ,
[ 95 , 199 ] ,
[ 96 , 198 ] ,
[ 97 , 197 ] ,
[ 98 , 196 ] ,
[ 99 , 196 ] ,
[ 100 , 195 ] ,
[ 101 , 194 ] ,
[ 102 , 193 ] ,
[ 103 , 193 ] ,
[ 104 , 192 ] ,
[ 105 , 191 ] ,
[ 106 , 191 ] ,
[ 107 , 190 ] ,
[ 108 , 189 ] ,
[ 109 , 188 ] ,
[ 110 , 188 ] ,
[ 111 , 187 ] ,
[ 112 , 186 ] ,
[ 113 , 185 ] ,
[ 114 , 185 ] ,
[ 115 , 184 ] ,
[ 116 , 183 ] ,
[ 117 , 182 ] ,
[ 118 , 182 ] ,
[ 119 , 181 ] ,
[ 120 , 180 ] ,
[ 121 , 179 ] ,
[ 122 , 179 ] ,
[ 123 , 178 ] ,
[ 124 , 177 ] ,
[ 125 , 176 ] ,
[ 126 , 176 ] ,
[ 127 , 175 ] ,
[ 128 , 174 ] ,
] ;
/// Max discount allowed
pub const BLS12_MULTIEXP_MAX_DISCOUNT : u64 = 174 ;
/// Max discount is reached at this number of pairs
pub const BLS12_MULTIEXP_PAIRS_FOR_MAX_DISCOUNT : usize = 128 ;
/// Divisor for discounts table
pub const BLS12_MULTIEXP_DISCOUNT_DIVISOR : u64 = 1000 ;
/// Length of single G1 + G2 points pair for pairing operation
pub const BLS12_G1_AND_G2_PAIR_LEN : usize =
SERIALIZED_G1_POINT_BYTE_LENGTH + SERIALIZED_G2_POINT_BYTE_LENGTH ;
/// Marter trait for length of input per one pair (point + scalar)
pub trait PointScalarLength : Copy + Clone + std ::fmt ::Debug + Send + Sync {
/// Length itself
const LENGTH : usize ;
}
/// Marker trait that indicated that we perform operations in G1
#[ derive(Clone, Copy, Debug) ]
pub struct G1Marker ;
impl PointScalarLength for G1Marker {
const LENGTH : usize = SERIALIZED_G1_POINT_BYTE_LENGTH + SCALAR_BYTE_LENGTH ;
}
/// Marker trait that indicated that we perform operations in G2
#[ derive(Clone, Copy, Debug) ]
pub struct G2Marker ;
impl PointScalarLength for G2Marker {
const LENGTH : usize = SERIALIZED_G2_POINT_BYTE_LENGTH + SCALAR_BYTE_LENGTH ;
}
/// Pricing for constant Bls12 operations (ADD and MUL in G1 and G2, as well as mappings)
#[ derive(Debug, Copy, Clone) ]
pub struct Bls12MultiexpPricer < P : PointScalarLength > {
/// Base const of the operation (G1 or G2 multiplication)
pub base_price : Bls12ConstOperations ,
_marker : std ::marker ::PhantomData < P > ,
}
impl Pricer for Bls12ConstOperations {
fn cost ( & self , _input : & [ u8 ] ) -> U256 {
self . price . into ( )
}
}
impl Pricer for Bls12PairingPricer {
fn cost ( & self , input : & [ u8 ] ) -> U256 {
U256 ::from ( self . price . base )
+ U256 ::from ( self . price . pair ) * U256 ::from ( input . len ( ) / BLS12_G1_AND_G2_PAIR_LEN )
}
}
impl < P : PointScalarLength > Pricer for Bls12MultiexpPricer < P > {
fn cost ( & self , input : & [ u8 ] ) -> U256 {
let num_pairs = input . len ( ) / P ::LENGTH ;
if num_pairs = = 0 {
return U256 ::zero ( ) ;
}
let discount = if num_pairs > BLS12_MULTIEXP_PAIRS_FOR_MAX_DISCOUNT {
BLS12_MULTIEXP_MAX_DISCOUNT
} else {
let table_entry = BLS12_MULTIEXP_DISCOUNTS_TABLE [ num_pairs - 1 ] ;
table_entry [ 1 ]
} ;
U256 ::from ( self . base_price . price ) * U256 ::from ( num_pairs ) * U256 ::from ( discount )
/ U256 ::from ( BLS12_MULTIEXP_DISCOUNT_DIVISOR )
}
}
/// Multiexp pricer in G1
pub type Bls12MultiexpPricerG1 = Bls12MultiexpPricer < G1Marker > ;
/// Multiexp pricer in G2
pub type Bls12MultiexpPricerG2 = Bls12MultiexpPricer < G2Marker > ;
2017-03-21 17:36:38 +01:00
/// Pricing scheme, execution definition, and activation block for a built-in contract.
///
/// Call `cost` to compute cost for the given input, `execute` to execute the contract
/// on the given input, and `is_active` to determine whether the contract is active.
2016-08-30 11:10:59 +02:00
pub struct Builtin {
2020-08-05 06:08:03 +02:00
pricer : BTreeMap < u64 , Pricing > ,
native : EthereumBuiltin ,
2016-08-30 11:10:59 +02:00
}
2016-01-05 19:11:41 +01:00
2016-08-30 11:10:59 +02:00
impl Builtin {
2020-08-05 06:08:03 +02:00
/// Simple forwarder for cost.
///
/// Return the cost of the most recently activated pricer at the current block number.
///
/// If no pricer is actived `zero` is returned
///
/// If multiple `activation_at` has the same block number the last one is used
/// (follows `BTreeMap` semantics).
#[ inline ]
pub fn cost ( & self , input : & [ u8 ] , at : u64 ) -> U256 {
if let Some ( ( _ , pricer ) ) = self . pricer . range ( 0 ..= at ) . last ( ) {
pricer . cost ( input )
} else {
U256 ::zero ( )
}
}
/// Simple forwarder for execute.
#[ inline ]
pub fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
self . native . execute ( input , output )
}
/// Whether the builtin is activated at the given block number.
#[ inline ]
pub fn is_active ( & self , at : u64 ) -> bool {
self . pricer . range ( 0 ..= at ) . last ( ) . is_some ( )
}
2016-04-09 19:20:35 +02:00
}
2016-01-14 21:58:37 +01:00
2019-11-11 21:57:38 +01:00
impl TryFrom < ethjson ::spec ::builtin ::Builtin > for Builtin {
2020-08-05 06:08:03 +02:00
type Error = String ;
2019-11-11 21:57:38 +01:00
2020-08-05 06:08:03 +02:00
fn try_from ( b : ethjson ::spec ::builtin ::Builtin ) -> Result < Self , Self ::Error > {
let native = EthereumBuiltin ::from_str ( & b . name ) ? ;
let mut pricer = BTreeMap ::new ( ) ;
2019-11-11 21:57:38 +01:00
2020-08-05 06:08:03 +02:00
for ( activate_at , p ) in b . pricing {
pricer . insert ( activate_at , p . price . into ( ) ) ;
}
2019-11-11 21:57:38 +01:00
2020-08-05 06:08:03 +02:00
Ok ( Self { pricer , native } )
}
2019-11-11 21:57:38 +01:00
}
impl From < ethjson ::spec ::builtin ::Pricing > for Pricing {
2020-08-05 06:08:03 +02:00
fn from ( pricing : ethjson ::spec ::builtin ::Pricing ) -> Self {
match pricing {
ethjson ::spec ::builtin ::Pricing ::Blake2F { gas_per_round } = > {
Pricing ::Blake2F ( gas_per_round )
}
ethjson ::spec ::builtin ::Pricing ::Linear ( linear ) = > Pricing ::Linear ( Linear {
base : linear . base ,
word : linear . word ,
} ) ,
ethjson ::spec ::builtin ::Pricing ::Modexp ( exp ) = > Pricing ::Modexp ( ModexpPricer {
divisor : if exp . divisor = = 0 {
warn! ( target : " builtin " , " Zero modexp divisor specified. Falling back to default: 10. " ) ;
10
} else {
exp . divisor
} ,
} ) ,
2020-11-12 14:31:24 +01:00
ethjson ::spec ::builtin ::Pricing ::Modexp2565 ( _ ) = > {
Pricing ::Modexp2565 ( Modexp2565Pricer { } )
}
2020-08-05 06:08:03 +02:00
ethjson ::spec ::builtin ::Pricing ::AltBn128Pairing ( pricer ) = > {
Pricing ::AltBn128Pairing ( AltBn128PairingPricer {
price : AltBn128PairingPrice {
base : pricer . base ,
pair : pricer . pair ,
} ,
} )
}
ethjson ::spec ::builtin ::Pricing ::AltBn128ConstOperations ( pricer ) = > {
Pricing ::AltBn128ConstOperations ( AltBn128ConstOperations {
price : pricer . price ,
} )
}
2020-09-03 01:26:06 +02:00
ethjson ::spec ::builtin ::Pricing ::Bls12ConstOperations ( pricer ) = > {
Pricing ::Bls12ConstOperations ( Bls12ConstOperations {
price : pricer . price ,
} )
}
ethjson ::spec ::builtin ::Pricing ::Bls12Pairing ( pricer ) = > {
Pricing ::Bls12Pairing ( Bls12PairingPricer {
price : Bls12PairingPrice {
base : pricer . base ,
pair : pricer . pair ,
} ,
} )
}
ethjson ::spec ::builtin ::Pricing ::Bls12G1Multiexp ( pricer ) = > {
Pricing ::Bls12MultiexpG1 ( Bls12MultiexpPricerG1 {
base_price : Bls12ConstOperations { price : pricer . base } ,
_marker : std ::marker ::PhantomData ,
} )
}
ethjson ::spec ::builtin ::Pricing ::Bls12G2Multiexp ( pricer ) = > {
Pricing ::Bls12MultiexpG2 ( Bls12MultiexpPricerG2 {
base_price : Bls12ConstOperations { price : pricer . base } ,
_marker : std ::marker ::PhantomData ,
} )
}
2020-08-05 06:08:03 +02:00
}
}
2016-01-05 19:11:41 +01:00
}
2019-11-11 21:57:38 +01:00
/// Ethereum builtins:
enum EthereumBuiltin {
2020-08-05 06:08:03 +02:00
/// The identity function
Identity ( Identity ) ,
/// ec recovery
EcRecover ( EcRecover ) ,
/// sha256
Sha256 ( Sha256 ) ,
/// ripemd160
Ripemd160 ( Ripemd160 ) ,
/// modexp (EIP 198)
Modexp ( Modexp ) ,
/// alt_bn128_add
Bn128Add ( Bn128Add ) ,
/// alt_bn128_mul
Bn128Mul ( Bn128Mul ) ,
/// alt_bn128_pairing
Bn128Pairing ( Bn128Pairing ) ,
/// blake2_f (The Blake2 compression function F, EIP-152)
Blake2F ( Blake2F ) ,
2020-09-03 01:26:06 +02:00
/// bls12_381 addition in g1
Bls12G1Add ( Bls12G1Add ) ,
/// bls12_381 multiplication in g1
Bls12G1Mul ( Bls12G1Mul ) ,
/// bls12_381 multiexponentiation in g1
Bls12G1MultiExp ( Bls12G1MultiExp ) ,
/// bls12_381 addition in g2
Bls12G2Add ( Bls12G2Add ) ,
/// bls12_381 multiplication in g2
Bls12G2Mul ( Bls12G2Mul ) ,
/// bls12_381 multiexponentiation in g2
Bls12G2MultiExp ( Bls12G2MultiExp ) ,
/// bls12_381 pairing
Bls12Pairing ( Bls12Pairing ) ,
/// bls12_381 fp to g1 mapping
Bls12MapFpToG1 ( Bls12MapFpToG1 ) ,
/// bls12_381 fp2 to g2 mapping
Bls12MapFp2ToG2 ( Bls12MapFp2ToG2 ) ,
2019-11-11 21:57:38 +01:00
}
impl FromStr for EthereumBuiltin {
2020-08-05 06:08:03 +02:00
type Err = String ;
fn from_str ( name : & str ) -> Result < EthereumBuiltin , Self ::Err > {
match name {
" identity " = > Ok ( EthereumBuiltin ::Identity ( Identity ) ) ,
" ecrecover " = > Ok ( EthereumBuiltin ::EcRecover ( EcRecover ) ) ,
" sha256 " = > Ok ( EthereumBuiltin ::Sha256 ( Sha256 ) ) ,
" ripemd160 " = > Ok ( EthereumBuiltin ::Ripemd160 ( Ripemd160 ) ) ,
" modexp " = > Ok ( EthereumBuiltin ::Modexp ( Modexp ) ) ,
" alt_bn128_add " = > Ok ( EthereumBuiltin ::Bn128Add ( Bn128Add ) ) ,
" alt_bn128_mul " = > Ok ( EthereumBuiltin ::Bn128Mul ( Bn128Mul ) ) ,
" alt_bn128_pairing " = > Ok ( EthereumBuiltin ::Bn128Pairing ( Bn128Pairing ) ) ,
" blake2_f " = > Ok ( EthereumBuiltin ::Blake2F ( Blake2F ) ) ,
2020-09-03 01:26:06 +02:00
" bls12_381_g1_add " = > Ok ( EthereumBuiltin ::Bls12G1Add ( Bls12G1Add ) ) ,
" bls12_381_g1_mul " = > Ok ( EthereumBuiltin ::Bls12G1Mul ( Bls12G1Mul ) ) ,
" bls12_381_g1_multiexp " = > Ok ( EthereumBuiltin ::Bls12G1MultiExp ( Bls12G1MultiExp ) ) ,
" bls12_381_g2_add " = > Ok ( EthereumBuiltin ::Bls12G2Add ( Bls12G2Add ) ) ,
" bls12_381_g2_mul " = > Ok ( EthereumBuiltin ::Bls12G2Mul ( Bls12G2Mul ) ) ,
" bls12_381_g2_multiexp " = > Ok ( EthereumBuiltin ::Bls12G2MultiExp ( Bls12G2MultiExp ) ) ,
" bls12_381_pairing " = > Ok ( EthereumBuiltin ::Bls12Pairing ( Bls12Pairing ) ) ,
" bls12_381_fp_to_g1 " = > Ok ( EthereumBuiltin ::Bls12MapFpToG1 ( Bls12MapFpToG1 ) ) ,
" bls12_381_fp2_to_g2 " = > Ok ( EthereumBuiltin ::Bls12MapFp2ToG2 ( Bls12MapFp2ToG2 ) ) ,
2020-08-05 06:08:03 +02:00
_ = > return Err ( format! ( " invalid builtin name: {} " , name ) ) ,
}
}
2016-01-04 22:47:45 +01:00
}
2019-11-11 21:57:38 +01:00
impl Implementation for EthereumBuiltin {
2020-08-05 06:08:03 +02:00
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
match self {
EthereumBuiltin ::Identity ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::EcRecover ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Sha256 ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Ripemd160 ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Modexp ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Bn128Add ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Bn128Mul ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Bn128Pairing ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Blake2F ( inner ) = > inner . execute ( input , output ) ,
2020-09-03 01:26:06 +02:00
EthereumBuiltin ::Bls12G1Add ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Bls12G1Mul ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Bls12G1MultiExp ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Bls12G2Add ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Bls12G2Mul ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Bls12G2MultiExp ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Bls12Pairing ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Bls12MapFpToG1 ( inner ) = > inner . execute ( input , output ) ,
EthereumBuiltin ::Bls12MapFp2ToG2 ( inner ) = > inner . execute ( input , output ) ,
2020-08-05 06:08:03 +02:00
}
}
2019-11-11 21:57:38 +01:00
}
2016-08-30 11:10:59 +02:00
#[ derive(Debug) ]
2019-11-11 21:57:38 +01:00
pub struct Identity ;
2016-08-30 11:10:59 +02:00
#[ derive(Debug) ]
2019-11-11 21:57:38 +01:00
pub struct EcRecover ;
2016-08-30 11:10:59 +02:00
#[ derive(Debug) ]
2019-11-11 21:57:38 +01:00
pub struct Sha256 ;
2016-08-30 11:10:59 +02:00
#[ derive(Debug) ]
2019-11-11 21:57:38 +01:00
pub struct Ripemd160 ;
2016-08-30 11:10:59 +02:00
2017-03-21 17:36:38 +01:00
#[ derive(Debug) ]
2019-11-11 21:57:38 +01:00
pub struct Modexp ;
2017-03-21 17:36:38 +01:00
2017-03-22 02:01:46 +01:00
#[ derive(Debug) ]
2019-11-11 21:57:38 +01:00
pub struct Bn128Add ;
2017-03-22 02:01:46 +01:00
#[ derive(Debug) ]
2019-11-11 21:57:38 +01:00
pub struct Bn128Mul ;
2017-03-22 02:01:46 +01:00
2017-03-27 17:39:21 +02:00
#[ derive(Debug) ]
2019-11-11 21:57:38 +01:00
pub struct Bn128Pairing ;
2017-03-27 17:39:21 +02:00
2019-09-12 18:43:53 +02:00
#[ derive(Debug) ]
2019-11-11 21:57:38 +01:00
pub struct Blake2F ;
2019-09-12 18:43:53 +02:00
2020-09-03 01:26:06 +02:00
#[ derive(Debug) ]
/// The Bls12G1Add builtin.
pub struct Bls12G1Add ;
#[ derive(Debug) ]
/// The Bls12G1Mul builtin.
pub struct Bls12G1Mul ;
#[ derive(Debug) ]
/// The Bls12G1MultiExp builtin.
pub struct Bls12G1MultiExp ;
#[ derive(Debug) ]
/// The Bls12G2Add builtin.
pub struct Bls12G2Add ;
#[ derive(Debug) ]
/// The Bls12G2Mul builtin.
pub struct Bls12G2Mul ;
#[ derive(Debug) ]
/// The Bls12G2MultiExp builtin.
pub struct Bls12G2MultiExp ;
#[ derive(Debug) ]
/// The Bls12Pairing builtin.
pub struct Bls12Pairing ;
#[ derive(Debug) ]
/// The Bls12MapFpToG1 builtin.
pub struct Bls12MapFpToG1 ;
#[ derive(Debug) ]
/// The Bls12MapFp2ToG2 builtin.
pub struct Bls12MapFp2ToG2 ;
2019-11-11 21:57:38 +01:00
impl Implementation for Identity {
2020-08-05 06:08:03 +02:00
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
output . write ( 0 , input ) ;
Ok ( ( ) )
}
2016-08-30 11:10:59 +02:00
}
2019-11-11 21:57:38 +01:00
impl Implementation for EcRecover {
2020-08-05 06:08:03 +02:00
fn execute ( & self , i : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let len = min ( i . len ( ) , 128 ) ;
let mut input = [ 0 ; 128 ] ;
input [ .. len ] . copy_from_slice ( & i [ .. len ] ) ;
let hash = H256 ::from_slice ( & input [ 0 .. 32 ] ) ;
let v = H256 ::from_slice ( & input [ 32 .. 64 ] ) ;
let r = H256 ::from_slice ( & input [ 64 .. 96 ] ) ;
let s = H256 ::from_slice ( & input [ 96 .. 128 ] ) ;
let bit = match v [ 31 ] {
27 | 28 if v . 0 [ .. 31 ] = = [ 0 ; 31 ] = > v [ 31 ] - 27 ,
_ = > {
return Ok ( ( ) ) ;
}
} ;
let s = Signature ::from_rsv ( & r , & s , bit ) ;
if s . is_valid ( ) {
2021-03-12 10:12:42 +01:00
// The builtin allows/requires all-zero messages to be valid to
// recover the public key. Use of such messages is disallowed in
// `rust-secp256k1` and this is a workaround for that. It is not an
// openethereum-level error to fail here; instead we return all
// zeroes and let the caller interpret that outcome.
let recovery_message = ZeroesAllowedMessage ( hash ) ;
if let Ok ( p ) = recover_allowing_all_zero_message ( & s , recovery_message ) {
2020-08-05 06:08:03 +02:00
let r = keccak ( p ) ;
output . write ( 0 , & [ 0 ; 12 ] ) ;
2021-03-12 10:12:42 +01:00
output . write ( 12 , & r . as_bytes ( ) [ 12 .. ] ) ;
2020-08-05 06:08:03 +02:00
}
}
Ok ( ( ) )
}
2016-01-04 22:47:45 +01:00
}
2019-11-11 21:57:38 +01:00
impl Implementation for Sha256 {
2020-08-05 06:08:03 +02:00
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let d = digest ::sha256 ( input ) ;
output . write ( 0 , & * d ) ;
Ok ( ( ) )
}
2016-01-05 19:23:40 +01:00
}
2019-11-11 21:57:38 +01:00
impl Implementation for Blake2F {
2020-08-05 06:08:03 +02:00
/// Format of `input`:
/// [4 bytes for rounds][64 bytes for h][128 bytes for m][8 bytes for t_0][8 bytes for t_1][1 byte for f]
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
const BLAKE2_F_ARG_LEN : usize = 213 ;
const PROOF : & str = " Checked the length of the input above; qed " ;
if input . len ( ) ! = BLAKE2_F_ARG_LEN {
trace! ( target : " builtin " , " input length for Blake2 F precompile should be exactly 213 bytes, was {} " , input . len ( ) ) ;
return Err ( " input length for Blake2 F precompile should be exactly 213 bytes " . into ( ) ) ;
}
let mut cursor = Cursor ::new ( input ) ;
let rounds = cursor . read_u32 ::< BigEndian > ( ) . expect ( PROOF ) ;
// state vector, h
let mut h = [ 0 u64 ; 8 ] ;
for state_word in & mut h {
* state_word = cursor . read_u64 ::< LittleEndian > ( ) . expect ( PROOF ) ;
}
// message block vector, m
let mut m = [ 0 u64 ; 16 ] ;
for msg_word in & mut m {
* msg_word = cursor . read_u64 ::< LittleEndian > ( ) . expect ( PROOF ) ;
}
// 2w-bit offset counter, t
let t = [
cursor . read_u64 ::< LittleEndian > ( ) . expect ( PROOF ) ,
cursor . read_u64 ::< LittleEndian > ( ) . expect ( PROOF ) ,
] ;
// final block indicator flag, "f"
let f = match input . last ( ) {
Some ( 1 ) = > true ,
Some ( 0 ) = > false ,
_ = > {
trace! ( target : " builtin " , " incorrect final block indicator flag, was: {:?} " , input . last ( ) ) ;
return Err ( " incorrect final block indicator flag " . into ( ) ) ;
}
} ;
compress ( & mut h , m , t , f , rounds as usize ) ;
let mut output_buf = [ 0 u8 ; 8 * size_of ::< u64 > ( ) ] ;
for ( i , state_word ) in h . iter ( ) . enumerate ( ) {
output_buf [ i * 8 .. ( i + 1 ) * 8 ] . copy_from_slice ( & state_word . to_le_bytes ( ) ) ;
}
output . write ( 0 , & output_buf [ .. ] ) ;
Ok ( ( ) )
}
2019-09-12 18:43:53 +02:00
}
2019-11-11 21:57:38 +01:00
impl Implementation for Ripemd160 {
2020-08-05 06:08:03 +02:00
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let hash = digest ::ripemd160 ( input ) ;
output . write ( 0 , & [ 0 ; 12 ] [ .. ] ) ;
output . write ( 12 , & hash ) ;
Ok ( ( ) )
}
2016-01-08 00:26:52 +01:00
}
2018-10-04 13:29:53 +02:00
// calculate modexp: left-to-right binary exponentiation to keep multiplicands lower
fn modexp ( mut base : BigUint , exp : Vec < u8 > , modulus : BigUint ) -> BigUint {
2020-08-05 06:08:03 +02:00
const BITS_PER_DIGIT : usize = 8 ;
2017-09-02 20:08:34 +02:00
2020-08-05 06:08:03 +02:00
// n^m % 0 || n^m % 1
if modulus < = BigUint ::one ( ) {
return BigUint ::zero ( ) ;
}
2017-09-15 21:07:54 +02:00
2020-08-05 06:08:03 +02:00
// normalize exponent
let mut exp = exp . into_iter ( ) . skip_while ( | d | * d = = 0 ) . peekable ( ) ;
2018-10-04 13:29:53 +02:00
2020-08-05 06:08:03 +02:00
// n^0 % m
if exp . peek ( ) . is_none ( ) {
return BigUint ::one ( ) ;
}
2017-09-15 21:07:54 +02:00
2020-08-05 06:08:03 +02:00
// 0^n % m, n > 0
if base . is_zero ( ) {
return BigUint ::zero ( ) ;
}
2017-09-02 20:08:34 +02:00
2020-08-05 06:08:03 +02:00
base % = & modulus ;
2017-09-02 20:08:34 +02:00
2020-08-05 06:08:03 +02:00
// Fast path for base divisible by modulus.
if base . is_zero ( ) {
return BigUint ::zero ( ) ;
}
2017-09-02 20:08:34 +02:00
2020-08-05 06:08:03 +02:00
// Left-to-right binary exponentiation (Handbook of Applied Cryptography - Algorithm 14.79).
// http://www.cacr.math.uwaterloo.ca/hac/about/chap14.pdf
let mut result = BigUint ::one ( ) ;
2018-10-04 13:29:53 +02:00
2020-08-05 06:08:03 +02:00
for digit in exp {
let mut mask = 1 < < ( BITS_PER_DIGIT - 1 ) ;
2018-10-04 13:29:53 +02:00
2020-08-05 06:08:03 +02:00
for _ in 0 .. BITS_PER_DIGIT {
result = & result * & result % & modulus ;
2018-10-04 13:29:53 +02:00
2020-08-05 06:08:03 +02:00
if digit & mask > 0 {
result = result * & base % & modulus ;
}
2018-10-04 13:29:53 +02:00
2020-08-05 06:08:03 +02:00
mask > > = 1 ;
}
}
2018-10-04 13:29:53 +02:00
2020-08-05 06:08:03 +02:00
result
2017-09-02 20:08:34 +02:00
}
2019-11-11 21:57:38 +01:00
impl Implementation for Modexp {
2020-08-05 06:08:03 +02:00
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let mut reader = input . chain ( io ::repeat ( 0 ) ) ;
let mut buf = [ 0 ; 32 ] ;
// read lengths as usize.
// ignoring the first 24 bytes might technically lead us to fall out of consensus,
// but so would running out of addressable memory!
let mut read_len = | reader : & mut io ::Chain < & [ u8 ] , io ::Repeat > | {
reader
. read_exact ( & mut buf [ .. ] )
. expect ( " reading from zero-extended memory cannot fail; qed " ) ;
let mut len_bytes = [ 0 u8 ; 8 ] ;
len_bytes . copy_from_slice ( & buf [ 24 .. ] ) ;
u64 ::from_be_bytes ( len_bytes ) as usize
} ;
let base_len = read_len ( & mut reader ) ;
let exp_len = read_len ( & mut reader ) ;
let mod_len = read_len ( & mut reader ) ;
// Gas formula allows arbitrary large exp_len when base and modulus are empty, so we need to handle empty base first.
let r = if base_len = = 0 & & mod_len = = 0 {
BigUint ::zero ( )
} else {
// read the numbers themselves.
let mut buf = vec! [ 0 ; max ( mod_len , max ( base_len , exp_len ) ) ] ;
let mut read_num = | reader : & mut io ::Chain < & [ u8 ] , io ::Repeat > , len : usize | {
reader
. read_exact ( & mut buf [ .. len ] )
. expect ( " reading from zero-extended memory cannot fail; qed " ) ;
BigUint ::from_bytes_be ( & buf [ .. len ] )
} ;
let base = read_num ( & mut reader , base_len ) ;
let mut exp_buf = vec! [ 0 ; exp_len ] ;
reader
. read_exact ( & mut exp_buf [ .. exp_len ] )
. expect ( " reading from zero-extended memory cannot fail; qed " ) ;
let modulus = read_num ( & mut reader , mod_len ) ;
modexp ( base , exp_buf , modulus )
} ;
// write output to given memory, left padded and same length as the modulus.
let bytes = r . to_bytes_be ( ) ;
// always true except in the case of zero-length modulus, which leads to
// output of length and value 1.
if bytes . len ( ) < = mod_len {
let res_start = mod_len - bytes . len ( ) ;
output . write ( res_start , & bytes ) ;
}
Ok ( ( ) )
}
2017-03-21 17:36:38 +01:00
}
2020-09-03 01:26:06 +02:00
impl Implementation for Bls12G1Add {
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let result = EIP2537Executor ::g1_add ( input ) ;
match result {
Ok ( result_bytes ) = > {
output . write ( 0 , & result_bytes [ .. ] ) ;
Ok ( ( ) )
}
Err ( e ) = > {
trace! ( target : " builtin " , " Bls12G1Add error: {:?} " , e ) ;
Err ( " Bls12G1Add error " )
}
}
}
}
impl Implementation for Bls12G1Mul {
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let result = EIP2537Executor ::g1_mul ( input ) ;
match result {
Ok ( result_bytes ) = > {
output . write ( 0 , & result_bytes [ .. ] ) ;
Ok ( ( ) )
}
Err ( e ) = > {
trace! ( target : " builtin " , " Bls12G1Mul error: {:?} " , e ) ;
Err ( " Bls12G1Mul error " )
}
}
}
}
impl Implementation for Bls12G1MultiExp {
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let result = EIP2537Executor ::g1_multiexp ( input ) ;
match result {
Ok ( result_bytes ) = > {
output . write ( 0 , & result_bytes [ .. ] ) ;
Ok ( ( ) )
}
Err ( e ) = > {
trace! ( target : " builtin " , " Bls12G1MultiExp error: {:?} " , e ) ;
Err ( " Bls12G1MultiExp error " )
}
}
}
}
impl Implementation for Bls12G2Add {
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let result = EIP2537Executor ::g2_add ( input ) ;
match result {
Ok ( result_bytes ) = > {
output . write ( 0 , & result_bytes [ .. ] ) ;
Ok ( ( ) )
}
Err ( e ) = > {
trace! ( target : " builtin " , " Bls12G2Add error: {:?} " , e ) ;
Err ( " Bls12G2Add error " )
}
}
}
}
impl Implementation for Bls12G2Mul {
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let result = EIP2537Executor ::g2_mul ( input ) ;
match result {
Ok ( result_bytes ) = > {
output . write ( 0 , & result_bytes [ .. ] ) ;
Ok ( ( ) )
}
Err ( e ) = > {
trace! ( target : " builtin " , " Bls12G2Mul error: {:?} " , e ) ;
Err ( " Bls12G2Mul error " )
}
}
}
}
impl Implementation for Bls12G2MultiExp {
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let result = EIP2537Executor ::g2_multiexp ( input ) ;
match result {
Ok ( result_bytes ) = > {
output . write ( 0 , & result_bytes [ .. ] ) ;
Ok ( ( ) )
}
Err ( e ) = > {
trace! ( target : " builtin " , " Bls12G2MultiExp error: {:?} " , e ) ;
Err ( " Bls12G2MultiExp error " )
}
}
}
}
impl Implementation for Bls12Pairing {
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let result = EIP2537Executor ::pair ( input ) ;
match result {
Ok ( result_bytes ) = > {
output . write ( 0 , & result_bytes [ .. ] ) ;
Ok ( ( ) )
}
Err ( e ) = > {
trace! ( target : " builtin " , " Bls12Pairing error: {:?} " , e ) ;
Err ( " Bls12Pairing error " )
}
}
}
}
impl Implementation for Bls12MapFpToG1 {
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let result = EIP2537Executor ::map_fp_to_g1 ( input ) ;
match result {
Ok ( result_bytes ) = > {
output . write ( 0 , & result_bytes [ .. ] ) ;
Ok ( ( ) )
}
Err ( e ) = > {
trace! ( target : " builtin " , " Bls12MapFpToG1 error: {:?} " , e ) ;
Err ( " Bls12MapFpToG1 error " )
}
}
}
}
impl Implementation for Bls12MapFp2ToG2 {
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
let result = EIP2537Executor ::map_fp2_to_g2 ( input ) ;
match result {
Ok ( result_bytes ) = > {
output . write ( 0 , & result_bytes [ .. ] ) ;
Ok ( ( ) )
}
Err ( e ) = > {
trace! ( target : " builtin " , " Bls12MapFp2ToG2 error: {:?} " , e ) ;
Err ( " Bls12MapFp2ToG2 error " )
}
}
}
}
2019-11-11 21:57:38 +01:00
fn read_fr ( reader : & mut io ::Chain < & [ u8 ] , io ::Repeat > ) -> Result < bn ::Fr , & 'static str > {
2020-08-05 06:08:03 +02:00
let mut buf = [ 0 u8 ; 32 ] ;
2017-06-17 21:18:52 +02:00
2020-08-05 06:08:03 +02:00
reader
. read_exact ( & mut buf [ .. ] )
. expect ( " reading from zero-extended memory cannot fail; qed " ) ;
bn ::Fr ::from_slice ( & buf [ 0 .. 32 ] ) . map_err ( | _ | " Invalid field element " )
2017-03-22 14:31:43 +01:00
}
2017-03-22 02:01:46 +01:00
2019-11-11 21:57:38 +01:00
fn read_point ( reader : & mut io ::Chain < & [ u8 ] , io ::Repeat > ) -> Result < bn ::G1 , & 'static str > {
2020-08-05 06:08:03 +02:00
use bn ::{ AffineG1 , Fq , Group , G1 } ;
let mut buf = [ 0 u8 ; 32 ] ;
reader
. read_exact ( & mut buf [ .. ] )
. expect ( " reading from zero-extended memory cannot fail; qed " ) ;
let px = Fq ::from_slice ( & buf [ 0 .. 32 ] ) . map_err ( | _ | " Invalid point x coordinate " ) ? ;
reader
. read_exact ( & mut buf [ .. ] )
. expect ( " reading from zero-extended memory cannot fail; qed " ) ;
let py = Fq ::from_slice ( & buf [ 0 .. 32 ] ) . map_err ( | _ | " Invalid point y coordinate " ) ? ;
Ok ( if px = = Fq ::zero ( ) & & py = = Fq ::zero ( ) {
G1 ::zero ( )
} else {
AffineG1 ::new ( px , py )
. map_err ( | _ | " Invalid curve point " ) ?
. into ( )
} )
2017-03-22 14:31:43 +01:00
}
2017-03-22 02:01:46 +01:00
2019-11-11 21:57:38 +01:00
impl Implementation for Bn128Add {
2020-08-05 06:08:03 +02:00
// Can fail if any of the 2 points does not belong the bn128 curve
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
use bn ::AffineG1 ;
let mut padded_input = input . chain ( io ::repeat ( 0 ) ) ;
let p1 = read_point ( & mut padded_input ) ? ;
let p2 = read_point ( & mut padded_input ) ? ;
let mut write_buf = [ 0 u8 ; 64 ] ;
if let Some ( sum ) = AffineG1 ::from_jacobian ( p1 + p2 ) {
// point not at infinity
sum . x ( )
. to_big_endian ( & mut write_buf [ 0 .. 32 ] )
. expect ( " Cannot fail since 0..32 is 32-byte length " ) ;
sum . y ( )
. to_big_endian ( & mut write_buf [ 32 .. 64 ] )
. expect ( " Cannot fail since 32..64 is 32-byte length " ) ;
}
output . write ( 0 , & write_buf ) ;
Ok ( ( ) )
}
2017-03-22 02:01:46 +01:00
}
2019-11-11 21:57:38 +01:00
impl Implementation for Bn128Mul {
2020-08-05 06:08:03 +02:00
// Can fail if first paramter (bn128 curve point) does not actually belong to the curve
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
use bn ::AffineG1 ;
let mut padded_input = input . chain ( io ::repeat ( 0 ) ) ;
let p = read_point ( & mut padded_input ) ? ;
let fr = read_fr ( & mut padded_input ) ? ;
let mut write_buf = [ 0 u8 ; 64 ] ;
if let Some ( sum ) = AffineG1 ::from_jacobian ( p * fr ) {
// point not at infinity
sum . x ( )
. to_big_endian ( & mut write_buf [ 0 .. 32 ] )
. expect ( " Cannot fail since 0..32 is 32-byte length " ) ;
sum . y ( )
. to_big_endian ( & mut write_buf [ 32 .. 64 ] )
. expect ( " Cannot fail since 32..64 is 32-byte length " ) ;
}
output . write ( 0 , & write_buf ) ;
Ok ( ( ) )
}
2017-03-22 02:01:46 +01:00
}
2019-11-11 21:57:38 +01:00
impl Implementation for Bn128Pairing {
2020-08-05 06:08:03 +02:00
/// Can fail if:
/// - input length is not a multiple of 192
/// - any of odd points does not belong to bn128 curve
/// - any of even points does not belong to the twisted bn128 curve over the field F_p^2 = F_p[i] / (i^2 + 1)
fn execute ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
if input . len ( ) % 192 ! = 0 {
return Err ( " Invalid input length, must be multiple of 192 (3 * (32*2)) " . into ( ) ) ;
}
if let Err ( err ) = self . execute_with_error ( input , output ) {
trace! ( target : " builtin " , " Pairing error: {:?} " , err ) ;
return Err ( err ) ;
}
Ok ( ( ) )
}
2017-09-15 21:07:54 +02:00
}
2019-11-11 21:57:38 +01:00
impl Bn128Pairing {
2020-08-05 06:08:03 +02:00
fn execute_with_error ( & self , input : & [ u8 ] , output : & mut BytesRef ) -> Result < ( ) , & 'static str > {
use bn ::{ pairing , AffineG1 , AffineG2 , Fq , Fq2 , Group , Gt , G1 , G2 } ;
let ret_val = if input . is_empty ( ) {
U256 ::one ( )
} else {
// (a, b_a, b_b - each 64-byte affine coordinates)
let elements = input . len ( ) / 192 ;
let mut vals = Vec ::new ( ) ;
for idx in 0 .. elements {
let a_x = Fq ::from_slice ( & input [ idx * 192 .. idx * 192 + 32 ] )
. map_err ( | _ | " Invalid a argument x coordinate " ) ? ;
let a_y = Fq ::from_slice ( & input [ idx * 192 + 32 .. idx * 192 + 64 ] )
. map_err ( | _ | " Invalid a argument y coordinate " ) ? ;
let b_a_y = Fq ::from_slice ( & input [ idx * 192 + 64 .. idx * 192 + 96 ] )
. map_err ( | _ | " Invalid b argument imaginary coeff x coordinate " ) ? ;
let b_a_x = Fq ::from_slice ( & input [ idx * 192 + 96 .. idx * 192 + 128 ] )
. map_err ( | _ | " Invalid b argument imaginary coeff y coordinate " ) ? ;
let b_b_y = Fq ::from_slice ( & input [ idx * 192 + 128 .. idx * 192 + 160 ] )
. map_err ( | _ | " Invalid b argument real coeff x coordinate " ) ? ;
let b_b_x = Fq ::from_slice ( & input [ idx * 192 + 160 .. idx * 192 + 192 ] )
. map_err ( | _ | " Invalid b argument real coeff y coordinate " ) ? ;
let b_a = Fq2 ::new ( b_a_x , b_a_y ) ;
let b_b = Fq2 ::new ( b_b_x , b_b_y ) ;
let b = if b_a . is_zero ( ) & & b_b . is_zero ( ) {
G2 ::zero ( )
} else {
G2 ::from (
AffineG2 ::new ( b_a , b_b ) . map_err ( | _ | " Invalid b argument - not on curve " ) ? ,
)
} ;
let a = if a_x . is_zero ( ) & & a_y . is_zero ( ) {
G1 ::zero ( )
} else {
G1 ::from (
AffineG1 ::new ( a_x , a_y ) . map_err ( | _ | " Invalid a argument - not on curve " ) ? ,
)
} ;
vals . push ( ( a , b ) ) ;
}
let mul = vals
. into_iter ( )
. fold ( Gt ::one ( ) , | s , ( a , b ) | s * pairing ( a , b ) ) ;
if mul = = Gt ::one ( ) {
U256 ::one ( )
} else {
U256 ::zero ( )
}
} ;
let mut buf = [ 0 u8 ; 32 ] ;
ret_val . to_big_endian ( & mut buf ) ;
output . write ( 0 , & buf ) ;
Ok ( ( ) )
}
2017-03-27 17:39:21 +02:00
}
2016-08-30 11:10:59 +02:00
#[ cfg(test) ]
mod tests {
2020-08-05 06:08:03 +02:00
use super ::{
2020-09-03 01:26:06 +02:00
modexp as me , BTreeMap , Bls12ConstOperations , Bls12PairingPrice , Bls12PairingPricer ,
2020-11-12 14:31:24 +01:00
Builtin , EthereumBuiltin , FromStr , Implementation , Linear , Modexp2565Pricer , ModexpPricer ,
Pricer , Pricing ,
2020-08-05 06:08:03 +02:00
} ;
use ethereum_types ::U256 ;
use ethjson ::spec ::builtin ::{
AltBn128Pairing as JsonAltBn128PairingPricing , Builtin as JsonBuiltin ,
Linear as JsonLinearPricing , Pricing as JsonPricing , PricingAt ,
} ;
use hex_literal ::hex ;
use macros ::map ;
2020-09-03 01:26:06 +02:00
use maplit ::btreemap ;
2020-08-05 06:08:03 +02:00
use num ::{ BigUint , One , Zero } ;
use parity_bytes ::BytesRef ;
2020-11-12 14:31:24 +01:00
use rustc_hex ::FromHex ;
2020-08-05 06:08:03 +02:00
use std ::convert ::TryFrom ;
#[ test ]
fn blake2f_cost ( ) {
let f = Builtin {
pricer : map ! [ 0 = > Pricing ::Blake2F ( 123 ) ] ,
native : EthereumBuiltin ::from_str ( " blake2_f " ) . unwrap ( ) ,
} ;
// 5 rounds
let input = hex! ( " 0000000548c9bdf267e6096a3ba7ca8485ae67bb2bf894fe72f36e3cf1361d5f3af54fa5d182e6ad7f520e511f6c3e2b8c68059b6bbd41fbabd9831f79217e1319cde05b61626300000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000300000000000000000000000000000001 " ) ;
let mut output = [ 0 u8 ; 64 ] ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. unwrap ( ) ;
assert_eq! ( f . cost ( & input [ .. ] , 0 ) , U256 ::from ( 123 * 5 ) ) ;
}
#[ test ]
fn blake2f_cost_on_invalid_length ( ) {
let f = Builtin {
pricer : map ! [ 0 = > Pricing ::Blake2F ( 123 ) ] ,
native : EthereumBuiltin ::from_str ( " blake2_f " ) . expect ( " known builtin " ) ,
} ;
// invalid input (too short)
let input = hex! ( " 00 " ) ;
assert_eq! ( f . cost ( & input [ .. ] , 0 ) , U256 ::from ( 0 ) ) ;
}
#[ test ]
fn blake2_f_is_err_on_invalid_length ( ) {
let blake2 = EthereumBuiltin ::from_str ( " blake2_f " ) . unwrap ( ) ;
// Test vector 1 and expected output from https://github.com/ethereum/EIPs/blob/master/EIPS/eip-152.md#test-vector-1
let input = hex! ( " 00000c48c9bdf267e6096a3ba7ca8485ae67bb2bf894fe72f36e3cf1361d5f3af54fa5d182e6ad7f520e511f6c3e2b8c68059b6bbd41fbabd9831f79217e1319cde05b61626300000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000300000000000000000000000000000001 " ) ;
let mut out = [ 0 u8 ; 64 ] ;
let result = blake2 . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut out [ .. ] ) ) ;
assert! ( result . is_err ( ) ) ;
assert_eq! (
result . unwrap_err ( ) ,
" input length for Blake2 F precompile should be exactly 213 bytes "
) ;
}
#[ test ]
fn blake2_f_is_err_on_invalid_length_2 ( ) {
let blake2 = EthereumBuiltin ::from_str ( " blake2_f " ) . unwrap ( ) ;
// Test vector 2 and expected output from https://github.com/ethereum/EIPs/blob/master/EIPS/eip-152.md#test-vector-2
let input = hex! ( " 000000000c48c9bdf267e6096a3ba7ca8485ae67bb2bf894fe72f36e3cf1361d5f3af54fa5d182e6ad7f520e511f6c3e2b8c68059b6bbd41fbabd9831f79217e1319cde05b61626300000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000300000000000000000000000000000001 " ) ;
let mut out = [ 0 u8 ; 64 ] ;
let result = blake2 . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut out [ .. ] ) ) ;
assert! ( result . is_err ( ) ) ;
assert_eq! (
result . unwrap_err ( ) ,
" input length for Blake2 F precompile should be exactly 213 bytes "
) ;
}
#[ test ]
fn blake2_f_is_err_on_bad_finalization_flag ( ) {
let blake2 = EthereumBuiltin ::from_str ( " blake2_f " ) . unwrap ( ) ;
// Test vector 3 and expected output from https://github.com/ethereum/EIPs/blob/master/EIPS/eip-152.md#test-vector-3
let input = hex! ( " 0000000c48c9bdf267e6096a3ba7ca8485ae67bb2bf894fe72f36e3cf1361d5f3af54fa5d182e6ad7f520e511f6c3e2b8c68059b6bbd41fbabd9831f79217e1319cde05b61626300000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000300000000000000000000000000000002 " ) ;
let mut out = [ 0 u8 ; 64 ] ;
let result = blake2 . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut out [ .. ] ) ) ;
assert! ( result . is_err ( ) ) ;
assert_eq! ( result . unwrap_err ( ) , " incorrect final block indicator flag " ) ;
}
#[ test ]
fn blake2_f_zero_rounds_is_ok_test_vector_4 ( ) {
let blake2 = EthereumBuiltin ::from_str ( " blake2_f " ) . unwrap ( ) ;
// Test vector 4 and expected output from https://github.com/ethereum/EIPs/blob/master/EIPS/eip-152.md#test-vector-4
let input = hex! ( " 0000000048c9bdf267e6096a3ba7ca8485ae67bb2bf894fe72f36e3cf1361d5f3af54fa5d182e6ad7f520e511f6c3e2b8c68059b6bbd41fbabd9831f79217e1319cde05b61626300000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000300000000000000000000000000000001 " ) ;
let expected = hex! ( " 08c9bcf367e6096a3ba7ca8485ae67bb2bf894fe72f36e3cf1361d5f3af54fa5d282e6ad7f520e511f6c3e2b8c68059b9442be0454267ce079217e1319cde05b " ) ;
let mut output = [ 0 u8 ; 64 ] ;
blake2
. execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. unwrap ( ) ;
assert_eq! ( & output [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn blake2_f_test_vector_5 ( ) {
let blake2 = EthereumBuiltin ::from_str ( " blake2_f " ) . unwrap ( ) ;
// Test vector 5 and expected output from https://github.com/ethereum/EIPs/blob/master/EIPS/eip-152.md#test-vector-5
let input = hex! ( " 0000000c48c9bdf267e6096a3ba7ca8485ae67bb2bf894fe72f36e3cf1361d5f3af54fa5d182e6ad7f520e511f6c3e2b8c68059b6bbd41fbabd9831f79217e1319cde05b61626300000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000300000000000000000000000000000001 " ) ;
let expected = hex! ( " ba80a53f981c4d0d6a2797b69f12f6e94c212f14685ac4b74b12bb6fdbffa2d17d87c5392aab792dc252d5de4533cc9518d38aa8dbf1925ab92386edd4009923 " ) ;
let mut out = [ 0 u8 ; 64 ] ;
blake2
. execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut out [ .. ] ) )
. unwrap ( ) ;
assert_eq! ( & out [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn blake2_f_test_vector_6 ( ) {
let blake2 = EthereumBuiltin ::from_str ( " blake2_f " ) . unwrap ( ) ;
// Test vector 6 and expected output from https://github.com/ethereum/EIPs/blob/master/EIPS/eip-152.md#test-vector-6
let input = hex! ( " 0000000c48c9bdf267e6096a3ba7ca8485ae67bb2bf894fe72f36e3cf1361d5f3af54fa5d182e6ad7f520e511f6c3e2b8c68059b6bbd41fbabd9831f79217e1319cde05b61626300000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000300000000000000000000000000000000 " ) ;
let expected = hex! ( " 75ab69d3190a562c51aef8d88f1c2775876944407270c42c9844252c26d2875298743e7f6d5ea2f2d3e8d226039cd31b4e426ac4f2d3d666a610c2116fde4735 " ) ;
let mut out = [ 0 u8 ; 64 ] ;
blake2
. execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut out [ .. ] ) )
. unwrap ( ) ;
assert_eq! ( & out [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn blake2_f_test_vector_7 ( ) {
let blake2 = EthereumBuiltin ::from_str ( " blake2_f " ) . unwrap ( ) ;
// Test vector 7 and expected output from https://github.com/ethereum/EIPs/blob/master/EIPS/eip-152.md#test-vector-7
let input = hex! ( " 0000000148c9bdf267e6096a3ba7ca8485ae67bb2bf894fe72f36e3cf1361d5f3af54fa5d182e6ad7f520e511f6c3e2b8c68059b6bbd41fbabd9831f79217e1319cde05b61626300000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000300000000000000000000000000000001 " ) ;
let expected = hex! ( " b63a380cb2897d521994a85234ee2c181b5f844d2c624c002677e9703449d2fba551b3a8333bcdf5f2f7e08993d53923de3d64fcc68c034e717b9293fed7a421 " ) ;
let mut out = [ 0 u8 ; 64 ] ;
blake2
. execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut out [ .. ] ) )
. unwrap ( ) ;
assert_eq! ( & out [ .. ] , & expected [ .. ] ) ;
}
#[ ignore ]
#[ test ]
fn blake2_f_test_vector_8 ( ) {
let blake2 = EthereumBuiltin ::from_str ( " blake2_f " ) . unwrap ( ) ;
// Test vector 8 and expected output from https://github.com/ethereum/EIPs/blob/master/EIPS/eip-152.md#test-vector-8
// Note this test is slow, 4294967295/0xffffffff rounds take a while.
let input = hex! ( " ffffffff48c9bdf267e6096a3ba7ca8485ae67bb2bf894fe72f36e3cf1361d5f3af54fa5d182e6ad7f520e511f6c3e2b8c68059b6bbd41fbabd9831f79217e1319cde05b61626300000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000300000000000000000000000000000001 " ) ;
let expected = hex! ( " fc59093aafa9ab43daae0e914c57635c5402d8e3d2130eb9b3cc181de7f0ecf9b22bf99a7815ce16419e200e01846e6b5df8cc7703041bbceb571de6631d2615 " ) ;
let mut out = [ 0 u8 ; 64 ] ;
blake2
. execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut out [ .. ] ) )
. unwrap ( ) ;
assert_eq! ( & out [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn modexp_func ( ) {
// n^0 % m == 1
let mut base = BigUint ::parse_bytes ( b " 12345 " , 10 ) . unwrap ( ) ;
let mut exp = BigUint ::zero ( ) ;
let mut modulus = BigUint ::parse_bytes ( b " 789 " , 10 ) . unwrap ( ) ;
assert_eq! ( me ( base , exp . to_bytes_be ( ) , modulus ) , BigUint ::one ( ) ) ;
// 0^n % m == 0
base = BigUint ::zero ( ) ;
exp = BigUint ::parse_bytes ( b " 12345 " , 10 ) . unwrap ( ) ;
modulus = BigUint ::parse_bytes ( b " 789 " , 10 ) . unwrap ( ) ;
assert_eq! ( me ( base , exp . to_bytes_be ( ) , modulus ) , BigUint ::zero ( ) ) ;
// n^m % 1 == 0
base = BigUint ::parse_bytes ( b " 12345 " , 10 ) . unwrap ( ) ;
exp = BigUint ::parse_bytes ( b " 789 " , 10 ) . unwrap ( ) ;
modulus = BigUint ::one ( ) ;
assert_eq! ( me ( base , exp . to_bytes_be ( ) , modulus ) , BigUint ::zero ( ) ) ;
// if n % d == 0, then n^m % d == 0
base = BigUint ::parse_bytes ( b " 12345 " , 10 ) . unwrap ( ) ;
exp = BigUint ::parse_bytes ( b " 789 " , 10 ) . unwrap ( ) ;
modulus = BigUint ::parse_bytes ( b " 15 " , 10 ) . unwrap ( ) ;
assert_eq! ( me ( base , exp . to_bytes_be ( ) , modulus ) , BigUint ::zero ( ) ) ;
// others
base = BigUint ::parse_bytes ( b " 12345 " , 10 ) . unwrap ( ) ;
exp = BigUint ::parse_bytes ( b " 789 " , 10 ) . unwrap ( ) ;
modulus = BigUint ::parse_bytes ( b " 97 " , 10 ) . unwrap ( ) ;
assert_eq! (
me ( base , exp . to_bytes_be ( ) , modulus ) ,
BigUint ::parse_bytes ( b " 55 " , 10 ) . unwrap ( )
) ;
}
#[ test ]
fn identity ( ) {
let f = EthereumBuiltin ::from_str ( " identity " ) . unwrap ( ) ;
let i = [ 0 u8 , 1 , 2 , 3 ] ;
let mut o2 = [ 255 u8 ; 2 ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o2 [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( i [ 0 .. 2 ] , o2 ) ;
let mut o4 = [ 255 u8 ; 4 ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o4 [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( i , o4 ) ;
let mut o8 = [ 255 u8 ; 8 ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o8 [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( i , o8 [ .. 4 ] ) ;
assert_eq! ( [ 255 u8 ; 4 ] , o8 [ 4 .. ] ) ;
}
#[ test ]
fn sha256 ( ) {
let f = EthereumBuiltin ::from_str ( " sha256 " ) . unwrap ( ) ;
let i = [ 0 u8 ; 0 ] ;
let mut o = [ 255 u8 ; 32 ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! (
& o [ .. ] ,
hex! ( " e3b0c44298fc1c149afbf4c8996fb92427ae41e4649b934ca495991b7852b855 " )
) ;
let mut o8 = [ 255 u8 ; 8 ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o8 [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( & o8 [ .. ] , hex! ( " e3b0c44298fc1c14 " ) ) ;
let mut o34 = [ 255 u8 ; 34 ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o34 [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! (
& o34 [ .. ] ,
& hex! ( " e3b0c44298fc1c149afbf4c8996fb92427ae41e4649b934ca495991b7852b855ffff " ) [ .. ]
) ;
let mut ov = vec! [ ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Flexible ( & mut ov ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! (
& ov [ .. ] ,
& hex! ( " e3b0c44298fc1c149afbf4c8996fb92427ae41e4649b934ca495991b7852b855 " ) [ .. ]
) ;
}
#[ test ]
fn ripemd160 ( ) {
let f = EthereumBuiltin ::from_str ( " ripemd160 " ) . unwrap ( ) ;
let i = [ 0 u8 ; 0 ] ;
let mut o = [ 255 u8 ; 32 ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! (
& o [ .. ] ,
& hex! ( " 0000000000000000000000009c1185a5c5e9fc54612808977ee8f548b2258d31 " ) [ .. ]
) ;
let mut o8 = [ 255 u8 ; 8 ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o8 [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( & o8 [ .. ] , & hex! ( " 0000000000000000 " ) [ .. ] ) ;
let mut o34 = [ 255 u8 ; 34 ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o34 [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! (
& o34 [ .. ] ,
& hex! ( " 0000000000000000000000009c1185a5c5e9fc54612808977ee8f548b2258d31ffff " ) [ .. ]
) ;
}
#[ test ]
fn ecrecover ( ) {
let f = EthereumBuiltin ::from_str ( " ecrecover " ) . unwrap ( ) ;
let i = hex! ( " 47173285a8d7341e5e972fc677286384f802f8ef42a5ec5f03bbfa254cb01fad000000000000000000000000000000000000000000000000000000000000001b650acf9d3f5f0a2c799776a1254355d5f4061762a237396a99a0e0e3fc2bcd6729514a0dacb2e623ac4abd157cb18163ff942280db4d5caad66ddf941ba12e03 " ) ;
let mut o = [ 255 u8 ; 32 ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! (
& o [ .. ] ,
& hex! ( " 000000000000000000000000c08b5542d177ac6686946920409741463a15dddb " ) [ .. ]
) ;
let mut o8 = [ 255 u8 ; 8 ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o8 [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( & o8 [ .. ] , & hex! ( " 0000000000000000 " ) [ .. ] ) ;
let mut o34 = [ 255 u8 ; 34 ] ;
f . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o34 [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! (
& o34 [ .. ] ,
& hex! ( " 000000000000000000000000c08b5542d177ac6686946920409741463a15dddbffff " ) [ .. ]
) ;
let i_bad = hex! ( " 47173285a8d7341e5e972fc677286384f802f8ef42a5ec5f03bbfa254cb01fad000000000000000000000000000000000000000000000000000000000000001a650acf9d3f5f0a2c799776a1254355d5f4061762a237396a99a0e0e3fc2bcd6729514a0dacb2e623ac4abd157cb18163ff942280db4d5caad66ddf941ba12e03 " ) ;
let mut o = [ 255 u8 ; 32 ] ;
f . execute ( & i_bad [ .. ] , & mut BytesRef ::Fixed ( & mut o [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! (
& o [ .. ] ,
& hex! ( " ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ) [ .. ]
) ;
let i_bad = hex! ( " 47173285a8d7341e5e972fc677286384f802f8ef42a5ec5f03bbfa254cb01fad000000000000000000000000000000000000000000000000000000000000001b000000000000000000000000000000000000000000000000000000000000001b0000000000000000000000000000000000000000000000000000000000000000 " ) ;
let mut o = [ 255 u8 ; 32 ] ;
f . execute ( & i_bad [ .. ] , & mut BytesRef ::Fixed ( & mut o [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! (
& o [ .. ] ,
& hex! ( " ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ) [ .. ]
) ;
let i_bad = hex! ( " 47173285a8d7341e5e972fc677286384f802f8ef42a5ec5f03bbfa254cb01fad000000000000000000000000000000000000000000000000000000000000001b0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001b " ) ;
let mut o = [ 255 u8 ; 32 ] ;
f . execute ( & i_bad [ .. ] , & mut BytesRef ::Fixed ( & mut o [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! (
& o [ .. ] ,
& hex! ( " ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ) [ .. ]
) ;
let i_bad = hex! ( " 47173285a8d7341e5e972fc677286384f802f8ef42a5ec5f03bbfa254cb01fad000000000000000000000000000000000000000000000000000000000000001bffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff000000000000000000000000000000000000000000000000000000000000001b " ) ;
let mut o = [ 255 u8 ; 32 ] ;
f . execute ( & i_bad [ .. ] , & mut BytesRef ::Fixed ( & mut o [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! (
& o [ .. ] ,
& hex! ( " ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ) [ .. ]
) ;
let i_bad = hex! ( " 47173285a8d7341e5e972fc677286384f802f8ef42a5ec5f03bbfa254cb01fad000000000000000000000000000000000000000000000000000000000000001b000000000000000000000000000000000000000000000000000000000000001bffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ) ;
let mut o = [ 255 u8 ; 32 ] ;
f . execute ( & i_bad [ .. ] , & mut BytesRef ::Fixed ( & mut o [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! (
& o [ .. ] ,
& hex! ( " ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ) [ .. ]
) ;
// TODO: Should this (corrupted version of the above) fail rather than returning some address?
/* let i_bad = FromHex::from_hex("48173285a8d7341e5e972fc677286384f802f8ef42a5ec5f03bbfa254cb01fad000000000000000000000000000000000000000000000000000000000000001b650acf9d3f5f0a2c799776a1254355d5f4061762a237396a99a0e0e3fc2bcd6729514a0dacb2e623ac4abd157cb18163ff942280db4d5caad66ddf941ba12e03").unwrap();
let mut o = [ 255 u8 ; 32 ] ;
f . execute ( & i_bad [ .. ] , & mut BytesRef ::Fixed ( & mut o [ .. ] ) ) ;
assert_eq! ( & o [ .. ] , & ( FromHex ::from_hex ( " ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ) . unwrap ( ) ) [ .. ] ) ; * /
}
#[ test ]
fn modexp ( ) {
let f = Builtin {
pricer : map ! [ 0 = > Pricing ::Modexp ( ModexpPricer { divisor : 20 } ) ] ,
native : EthereumBuiltin ::from_str ( " modexp " ) . unwrap ( ) ,
} ;
2021-11-30 08:33:40 +01:00
// test for potential base len overflow
{
let input = hex! (
"
00000000000000000000000000000000 ffffffffffffffffffffffffffffffff
0000000000000000000000000000000000000000000000000000000000000001
0000000000000000000000000000000000000000000000000000000000000001
ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
03
ff "
) ;
let expected_cost = U256 ::max_value ( ) ;
assert_eq! ( f . cost ( & input [ .. ] , 0 ) , expected_cost ) ;
}
// another test for potential base len overflow
{
let input = hex! (
"
00000000000000000000000000000000 ffffffffffffffffffffffffffffffff
0000000000000000000000000000000000000000000000000000000000000020
0000000000000000000000000000000000000000000000000000000000000020 "
) ;
let expected_cost = U256 ::max_value ( ) ;
assert_eq! ( f . cost ( & input [ .. ] , 0 ) , expected_cost ) ;
}
2020-08-05 06:08:03 +02:00
// test for potential gas cost multiplication overflow
{
let input = hex! ( " 0000000000000000000000000000000000000000000000000000000000000001000000000000000000000000000000000000000000000000000000003b27bafd00000000000000000000000000000000000000000000000000000000503c8ac3 " ) ;
let expected_cost = U256 ::max_value ( ) ;
assert_eq! ( f . cost ( & input [ .. ] , 0 ) , expected_cost ) ;
}
// test for potential exp len overflow
{
let input = hex! (
"
2019-09-12 18:43:53 +02:00
00000000000000000000000000000000000000000000000000000000000000 ff
2 a1e530000000000000000000000000000000000000000000000000000000000
2017-10-11 16:41:28 +02:00
0000000000000000000000000000000000000000000000000000000000000000 "
2020-08-05 06:08:03 +02:00
) ;
let mut output = vec! [ 0 u8 ; 32 ] ;
let expected = hex! ( " 0000000000000000000000000000000000000000000000000000000000000000 " ) ;
let expected_cost = U256 ::max_value ( ) ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should fail " ) ;
assert_eq! ( output , expected ) ;
assert_eq! ( f . cost ( & input [ .. ] , 0 ) , expected_cost ) ;
}
// fermat's little theorem example.
{
let input = hex! (
"
2019-09-12 18:43:53 +02:00
0000000000000000000000000000000000000000000000000000000000000001
0000000000000000000000000000000000000000000000000000000000000020
0000000000000000000000000000000000000000000000000000000000000020
03
fffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2e
2017-03-21 17:36:38 +01:00
fffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2f "
2020-08-05 06:08:03 +02:00
) ;
let mut output = vec! [ 0 u8 ; 32 ] ;
let expected = hex! ( " 0000000000000000000000000000000000000000000000000000000000000001 " ) ;
let expected_cost = 13056 ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( output , expected ) ;
assert_eq! ( f . cost ( & input [ .. ] , 0 ) , expected_cost . into ( ) ) ;
}
// second example from EIP: zero base.
{
let input = hex! (
"
2019-09-12 18:43:53 +02:00
0000000000000000000000000000000000000000000000000000000000000000
0000000000000000000000000000000000000000000000000000000000000020
0000000000000000000000000000000000000000000000000000000000000020
fffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2e
2017-09-15 21:07:54 +02:00
fffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2f "
2020-08-05 06:08:03 +02:00
) ;
let mut output = vec! [ 0 u8 ; 32 ] ;
let expected = hex! ( " 0000000000000000000000000000000000000000000000000000000000000000 " ) ;
let expected_cost = 13056 ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( output , expected ) ;
assert_eq! ( f . cost ( & input [ .. ] , 0 ) , expected_cost . into ( ) ) ;
}
// another example from EIP: zero-padding
{
let input = hex! (
"
2019-09-12 18:43:53 +02:00
0000000000000000000000000000000000000000000000000000000000000001
0000000000000000000000000000000000000000000000000000000000000002
0000000000000000000000000000000000000000000000000000000000000020
03
ffff
2017-03-21 17:36:38 +01:00
80 "
2020-08-05 06:08:03 +02:00
) ;
let mut output = vec! [ 0 u8 ; 32 ] ;
let expected = hex! ( " 3b01b01ac41f2d6e917c6d6a221ce793802469026d9ab7578fa2e79e4da6aaab " ) ;
let expected_cost = 768 ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( output , expected ) ;
assert_eq! ( f . cost ( & input [ .. ] , 0 ) , expected_cost . into ( ) ) ;
}
// zero-length modulus.
{
let input = hex! (
"
2019-09-12 18:43:53 +02:00
0000000000000000000000000000000000000000000000000000000000000001
0000000000000000000000000000000000000000000000000000000000000002
0000000000000000000000000000000000000000000000000000000000000000
03
2017-03-21 17:36:38 +01:00
ffff "
2020-08-05 06:08:03 +02:00
) ;
let mut output = vec! [ ] ;
let expected_cost = 0 ;
f . execute ( & input [ .. ] , & mut BytesRef ::Flexible ( & mut output ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( output . len ( ) , 0 ) ; // shouldn't have written any output.
assert_eq! ( f . cost ( & input [ .. ] , 0 ) , expected_cost . into ( ) ) ;
}
}
2021-11-30 08:33:40 +01:00
#[ test ]
fn modexp2565 ( ) {
let pricer = Modexp2565Pricer { } ;
// test for potential base len overflow
{
let input = hex! (
"
00000000000000000000000000000000 ffffffffffffffffffffffffffffffff
0000000000000000000000000000000000000000000000000000000000000001
0000000000000000000000000000000000000000000000000000000000000001
ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
03
ff "
) ;
let expected_cost = U256 ::max_value ( ) ;
assert_eq! ( pricer . cost ( & input [ .. ] ) , expected_cost ) ;
}
// another test for potential base len overflow
{
let input = hex! (
"
00000000000000000000000000000000 ffffffffffffffffffffffffffffffff
0000000000000000000000000000000000000000000000000000000000000020
0000000000000000000000000000000000000000000000000000000000000020 "
) ;
let expected_cost = U256 ::max_value ( ) ;
assert_eq! ( pricer . cost ( & input [ .. ] ) , expected_cost ) ;
}
}
2020-08-05 06:08:03 +02:00
#[ test ]
fn bn128_add ( ) {
let f = Builtin {
pricer : map ! [ 0 = > Pricing ::Linear ( Linear { base : 0 , word : 0 } ) ] ,
native : EthereumBuiltin ::from_str ( " alt_bn128_add " ) . unwrap ( ) ,
} ;
// zero-points additions
{
let input = hex! (
"
2019-09-12 18:43:53 +02:00
0000000000000000000000000000000000000000000000000000000000000000
0000000000000000000000000000000000000000000000000000000000000000
0000000000000000000000000000000000000000000000000000000000000000
2017-03-22 13:41:32 +01:00
0000000000000000000000000000000000000000000000000000000000000000 "
2020-08-05 06:08:03 +02:00
) ;
2017-03-22 13:41:32 +01:00
2020-08-05 06:08:03 +02:00
let mut output = vec! [ 0 u8 ; 64 ] ;
let expected = hex! (
"
2019-09-12 18:43:53 +02:00
0000000000000000000000000000000000000000000000000000000000000000
2017-03-22 13:41:32 +01:00
0000000000000000000000000000000000000000000000000000000000000000 "
2020-08-05 06:08:03 +02:00
) ;
2017-03-22 13:41:32 +01:00
2020-08-05 06:08:03 +02:00
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( output , & expected [ .. ] ) ;
}
2017-03-22 13:41:32 +01:00
2020-08-05 06:08:03 +02:00
// no input, should not fail
{
let mut empty = [ 0 u8 ; 0 ] ;
let input = BytesRef ::Fixed ( & mut empty ) ;
2017-03-22 14:31:43 +01:00
2020-08-05 06:08:03 +02:00
let mut output = vec! [ 0 u8 ; 64 ] ;
let expected = hex! (
"
2019-09-12 18:43:53 +02:00
0000000000000000000000000000000000000000000000000000000000000000
2017-03-22 14:31:43 +01:00
0000000000000000000000000000000000000000000000000000000000000000 "
2020-08-05 06:08:03 +02:00
) ;
2017-03-22 14:31:43 +01:00
2020-08-05 06:08:03 +02:00
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( output , & expected [ .. ] ) ;
}
2017-03-22 14:31:43 +01:00
2020-08-05 06:08:03 +02:00
// should fail - point not on curve
{
let input = hex! (
"
2019-09-12 18:43:53 +02:00
1111111111111111111111111111111111111111111111111111111111111111
1111111111111111111111111111111111111111111111111111111111111111
1111111111111111111111111111111111111111111111111111111111111111
2017-03-22 13:41:32 +01:00
1111111111111111111111111111111111111111111111111111111111111111 "
2020-08-05 06:08:03 +02:00
) ;
let mut output = vec! [ 0 u8 ; 64 ] ;
let res = f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) ) ;
assert! ( res . is_err ( ) , " There should be built-in error here " ) ;
}
}
#[ test ]
fn bn128_mul ( ) {
let f = Builtin {
pricer : map ! [ 0 = > Pricing ::Linear ( Linear { base : 0 , word : 0 } ) ] ,
native : EthereumBuiltin ::from_str ( " alt_bn128_mul " ) . unwrap ( ) ,
} ;
// zero-point multiplication
{
let input = hex! (
"
2019-09-12 18:43:53 +02:00
0000000000000000000000000000000000000000000000000000000000000000
0000000000000000000000000000000000000000000000000000000000000000
2017-03-22 14:31:43 +01:00
0200000000000000000000000000000000000000000000000000000000000000 "
2020-08-05 06:08:03 +02:00
) ;
2017-03-22 14:31:43 +01:00
2020-08-05 06:08:03 +02:00
let mut output = vec! [ 0 u8 ; 64 ] ;
let expected = hex! (
"
2019-09-12 18:43:53 +02:00
0000000000000000000000000000000000000000000000000000000000000000
2017-03-22 14:31:43 +01:00
0000000000000000000000000000000000000000000000000000000000000000 "
2020-08-05 06:08:03 +02:00
) ;
2017-03-22 14:31:43 +01:00
2020-08-05 06:08:03 +02:00
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( output , & expected [ .. ] ) ;
}
2017-03-22 14:31:43 +01:00
2020-08-05 06:08:03 +02:00
// should fail - point not on curve
{
let input = hex! (
"
2019-09-12 18:43:53 +02:00
1111111111111111111111111111111111111111111111111111111111111111
1111111111111111111111111111111111111111111111111111111111111111
2017-03-22 14:31:43 +01:00
0 f00000000000000000000000000000000000000000000000000000000000000 "
2020-08-05 06:08:03 +02:00
) ;
let mut output = vec! [ 0 u8 ; 64 ] ;
let res = f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) ) ;
assert! ( res . is_err ( ) , " There should be built-in error here " ) ;
}
}
fn builtin_pairing ( ) -> Builtin {
Builtin {
pricer : map ! [ 0 = > Pricing ::Linear ( Linear { base : 0 , word : 0 } ) ] ,
native : EthereumBuiltin ::from_str ( " alt_bn128_pairing " ) . unwrap ( ) ,
}
}
fn empty_test ( f : Builtin , expected : Vec < u8 > ) {
let mut empty = [ 0 u8 ; 0 ] ;
let input = BytesRef ::Fixed ( & mut empty ) ;
let mut output = vec! [ 0 u8 ; expected . len ( ) ] ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( output , expected ) ;
}
fn error_test ( f : Builtin , input : & [ u8 ] , msg_contains : Option < & str > ) {
let mut output = vec! [ 0 u8 ; 64 ] ;
let res = f . execute ( input , & mut BytesRef ::Fixed ( & mut output [ .. ] ) ) ;
if let Some ( msg ) = msg_contains {
if let Err ( e ) = res {
if ! e . contains ( msg ) {
panic! (
" There should be error containing '{}' here, but got: '{}' " ,
msg , e
) ;
}
}
} else {
assert! ( res . is_err ( ) , " There should be built-in error here " ) ;
}
}
#[ test ]
fn bn128_pairing_empty ( ) {
// should not fail, because empty input is a valid input of 0 elements
empty_test (
builtin_pairing ( ) ,
hex! ( " 0000000000000000000000000000000000000000000000000000000000000001 " ) . to_vec ( ) ,
) ;
}
#[ test ]
fn bn128_pairing_notcurve ( ) {
// should fail - point not on curve
error_test (
builtin_pairing ( ) ,
& hex! (
"
2019-09-12 18:43:53 +02:00
1111111111111111111111111111111111111111111111111111111111111111
1111111111111111111111111111111111111111111111111111111111111111
1111111111111111111111111111111111111111111111111111111111111111
1111111111111111111111111111111111111111111111111111111111111111
1111111111111111111111111111111111111111111111111111111111111111
2017-03-28 00:38:04 +02:00
1111111111111111111111111111111111111111111111111111111111111111 "
2020-08-05 06:08:03 +02:00
) ,
Some ( " not on curve " ) ,
) ;
}
#[ test ]
fn bn128_pairing_fragmented ( ) {
// should fail - input length is invalid
error_test (
builtin_pairing ( ) ,
& hex! (
"
2019-09-12 18:43:53 +02:00
1111111111111111111111111111111111111111111111111111111111111111
1111111111111111111111111111111111111111111111111111111111111111
2017-03-28 00:38:04 +02:00
111111111111111111111111111111 "
2020-08-05 06:08:03 +02:00
) ,
Some ( " Invalid input length " ) ,
) ;
}
#[ test ]
#[ should_panic ]
fn from_unknown_linear ( ) {
let _ = EthereumBuiltin ::from_str ( " foo " ) . unwrap ( ) ;
}
#[ test ]
fn is_active ( ) {
let pricer = Pricing ::Linear ( Linear { base : 10 , word : 20 } ) ;
let b = Builtin {
pricer : map ! [ 100_000 = > pricer ] ,
native : EthereumBuiltin ::from_str ( " identity " ) . unwrap ( ) ,
} ;
assert! ( ! b . is_active ( 99_999 ) ) ;
assert! ( b . is_active ( 100_000 ) ) ;
assert! ( b . is_active ( 100_001 ) ) ;
}
#[ test ]
fn from_named_linear ( ) {
let pricer = Pricing ::Linear ( Linear { base : 10 , word : 20 } ) ;
let b = Builtin {
pricer : map ! [ 0 = > pricer ] ,
native : EthereumBuiltin ::from_str ( " identity " ) . unwrap ( ) ,
} ;
assert_eq! ( b . cost ( & [ 0 ; 0 ] , 0 ) , U256 ::from ( 10 ) ) ;
assert_eq! ( b . cost ( & [ 0 ; 1 ] , 0 ) , U256 ::from ( 30 ) ) ;
assert_eq! ( b . cost ( & [ 0 ; 32 ] , 0 ) , U256 ::from ( 30 ) ) ;
assert_eq! ( b . cost ( & [ 0 ; 33 ] , 0 ) , U256 ::from ( 50 ) ) ;
let i = [ 0 u8 , 1 , 2 , 3 ] ;
let mut o = [ 255 u8 ; 4 ] ;
b . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( i , o ) ;
}
#[ test ]
fn from_json ( ) {
let b = Builtin ::try_from ( ethjson ::spec ::Builtin {
name : " identity " . to_owned ( ) ,
pricing : map ! [
0 = > PricingAt {
info : None ,
price : JsonPricing ::Linear ( JsonLinearPricing { base : 10 , word : 20 } )
}
] ,
} )
. expect ( " known builtin " ) ;
assert_eq! ( b . cost ( & [ 0 ; 0 ] , 0 ) , U256 ::from ( 10 ) ) ;
assert_eq! ( b . cost ( & [ 0 ; 1 ] , 0 ) , U256 ::from ( 30 ) ) ;
assert_eq! ( b . cost ( & [ 0 ; 32 ] , 0 ) , U256 ::from ( 30 ) ) ;
assert_eq! ( b . cost ( & [ 0 ; 33 ] , 0 ) , U256 ::from ( 50 ) ) ;
let i = [ 0 u8 , 1 , 2 , 3 ] ;
let mut o = [ 255 u8 ; 4 ] ;
b . execute ( & i [ .. ] , & mut BytesRef ::Fixed ( & mut o [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( i , o ) ;
}
#[ test ]
fn bn128_pairing_eip1108_transition ( ) {
let b = Builtin ::try_from ( JsonBuiltin {
name : " alt_bn128_pairing " . to_owned ( ) ,
pricing : map ! [
10 = > PricingAt {
info : None ,
price : JsonPricing ::AltBn128Pairing ( JsonAltBn128PairingPricing {
base : 100_000 ,
pair : 80_000 ,
} ) ,
} ,
20 = > PricingAt {
info : None ,
price : JsonPricing ::AltBn128Pairing ( JsonAltBn128PairingPricing {
base : 45_000 ,
pair : 34_000 ,
} ) ,
}
] ,
} )
. unwrap ( ) ;
assert_eq! (
b . cost ( & [ 0 ; 192 * 3 ] , 10 ) ,
U256 ::from ( 340_000 ) ,
" 80 000 * 3 + 100 000 == 340 000 "
) ;
assert_eq! (
b . cost ( & [ 0 ; 192 * 7 ] , 20 ) ,
U256 ::from ( 283_000 ) ,
" 34 000 * 7 + 45 000 == 283 000 "
) ;
}
#[ test ]
fn bn128_add_eip1108_transition ( ) {
let b = Builtin ::try_from ( JsonBuiltin {
name : " alt_bn128_add " . to_owned ( ) ,
pricing : map ! [
10 = > PricingAt {
info : None ,
price : JsonPricing ::Linear ( JsonLinearPricing {
base : 500 ,
word : 0 ,
} ) ,
} ,
20 = > PricingAt {
info : None ,
price : JsonPricing ::Linear ( JsonLinearPricing {
base : 150 ,
word : 0 ,
} ) ,
}
] ,
} )
. unwrap ( ) ;
assert_eq! ( b . cost ( & [ 0 ; 192 ] , 10 ) , U256 ::from ( 500 ) ) ;
assert_eq! (
b . cost ( & [ 0 ; 10 ] , 20 ) ,
U256 ::from ( 150 ) ,
" after istanbul hardfork gas cost for add should be 150 "
) ;
}
#[ test ]
fn bn128_mul_eip1108_transition ( ) {
let b = Builtin ::try_from ( JsonBuiltin {
name : " alt_bn128_mul " . to_owned ( ) ,
pricing : map ! [
10 = > PricingAt {
info : None ,
price : JsonPricing ::Linear ( JsonLinearPricing {
base : 40_000 ,
word : 0 ,
} ) ,
} ,
20 = > PricingAt {
info : None ,
price : JsonPricing ::Linear ( JsonLinearPricing {
base : 6_000 ,
word : 0 ,
} ) ,
}
] ,
} )
. unwrap ( ) ;
assert_eq! ( b . cost ( & [ 0 ; 192 ] , 10 ) , U256 ::from ( 40_000 ) ) ;
assert_eq! (
b . cost ( & [ 0 ; 10 ] , 20 ) ,
U256 ::from ( 6_000 ) ,
" after istanbul hardfork gas cost for mul should be 6 000 "
) ;
}
#[ test ]
fn multimap_use_most_recent_on_activate ( ) {
let b = Builtin ::try_from ( JsonBuiltin {
name : " alt_bn128_mul " . to_owned ( ) ,
pricing : map ! [
10 = > PricingAt {
info : None ,
price : JsonPricing ::Linear ( JsonLinearPricing {
base : 40_000 ,
word : 0 ,
} ) ,
} ,
20 = > PricingAt {
info : None ,
price : JsonPricing ::Linear ( JsonLinearPricing {
base : 6_000 ,
word : 0 ,
} )
} ,
100 = > PricingAt {
info : None ,
price : JsonPricing ::Linear ( JsonLinearPricing {
base : 1_337 ,
word : 0 ,
} )
}
] ,
} )
. unwrap ( ) ;
assert_eq! (
b . cost ( & [ 0 ; 2 ] , 0 ) ,
U256 ::zero ( ) ,
" not activated yet; should be zero "
) ;
assert_eq! ( b . cost ( & [ 0 ; 3 ] , 10 ) , U256 ::from ( 40_000 ) , " use price #1 " ) ;
assert_eq! ( b . cost ( & [ 0 ; 4 ] , 20 ) , U256 ::from ( 6_000 ) , " use price #2 " ) ;
assert_eq! ( b . cost ( & [ 0 ; 1 ] , 99 ) , U256 ::from ( 6_000 ) , " use price #2 " ) ;
assert_eq! ( b . cost ( & [ 0 ; 1 ] , 100 ) , U256 ::from ( 1_337 ) , " use price #3 " ) ;
assert_eq! (
b . cost ( & [ 0 ; 1 ] , u64 ::max_value ( ) ) ,
U256 ::from ( 1_337 ) ,
" use price #3 indefinitely "
) ;
}
#[ test ]
fn multimap_use_last_with_same_activate_at ( ) {
let b = Builtin ::try_from ( JsonBuiltin {
name : " alt_bn128_mul " . to_owned ( ) ,
pricing : map ! [
1 = > PricingAt {
info : None ,
price : JsonPricing ::Linear ( JsonLinearPricing {
base : 40_000 ,
word : 0 ,
} ) ,
} ,
1 = > PricingAt {
info : None ,
price : JsonPricing ::Linear ( JsonLinearPricing {
base : 6_000 ,
word : 0 ,
} ) ,
} ,
1 = > PricingAt {
info : None ,
price : JsonPricing ::Linear ( JsonLinearPricing {
base : 1_337 ,
word : 0 ,
} ) ,
}
] ,
} )
. unwrap ( ) ;
assert_eq! ( b . cost ( & [ 0 ; 1 ] , 0 ) , U256 ::from ( 0 ) , " not activated yet " ) ;
assert_eq! ( b . cost ( & [ 0 ; 1 ] , 1 ) , U256 ::from ( 1_337 ) ) ;
}
2020-09-03 01:26:06 +02:00
#[ test ]
fn bls12_381_g1_add ( ) {
let f = Builtin {
pricer : btreemap ! [ 0 = > Pricing ::Bls12ConstOperations ( Bls12ConstOperations { price : 1 } ) ] ,
native : EthereumBuiltin ::from_str ( " bls12_381_g1_add " ) . unwrap ( ) ,
} ;
let input = hex! ( "
00000000000000000000000000000000117 dbe419018f67844f6a5e1b78a1e597283ad7b8ee7ac5e58846f5a5fd68d0da99ce235a91db3ec1cf340fe6b7afcdb
0000000000000000000000000000000013316 f23de032d25e912ae8dc9b54c8dba1be7cecdbb9d2228d7e8f652011d46be79089dd0a6080a73c82256ce5e4ed2
000000000000000000000000000000000441e7 f7f96198e4c23bd5eb16f1a7f045dbc8c53219ab2bcea91d3a027e2dfe659feac64905f8b9add7e4bfc91bec2b
0000000000000000000000000000000005 fc51bb1b40c87cd4292d4b66f8ca5ce4ef9abd2b69d4464b4879064203bda7c9fc3f896a3844ebc713f7bb20951d95
" );
let expected = hex! ( "
0000000000000000000000000000000016 b8ab56b45a9294466809b8e858c1ad15ad0d52cfcb62f8f5753dc94cee1de6efaaebce10701e3ec2ecaa9551024ea
600000000000000000000000000000000124571 eec37c0b1361023188d66ec17c1ec230d31b515e0e81e599ec19e40c8a7c8cdea9735bc3d8b4e37ca7e5dd71f6
" );
let mut output = [ 0 u8 ; 128 ] ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( & output [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn bls12_381_g1_mul ( ) {
let f = Builtin {
pricer : btreemap ! [ 0 = > Pricing ::Bls12ConstOperations ( Bls12ConstOperations { price : 1 } ) ] ,
native : EthereumBuiltin ::from_str ( " bls12_381_g1_mul " ) . unwrap ( ) ,
} ;
let input = hex! ( "
000000000000000000000000000000000 b3a1dfe2d1b62538ed49648cb2a8a1d66bdc4f7a492eee59942ab810a306876a7d49e5ac4c6bb1613866c158ded993e
000000000000000000000000000000001300956110 f47ca8e2aacb30c948dfd046bf33f69bf54007d76373c5a66019454da45e3cf14ce2b9d53a50c9b4366aa3
ac23d04ee3acc757aae6795532ce4c9f34534e506a4d843a26b052a040c79659
" );
let expected = hex! ( "
000000000000000000000000000000001227 b7021e9d3dc8bcbf5b346fc503f7f8576965769c5e22bb70056eef03c84b8c80290ae9ce20345770290c55549bce
00000000000000000000000000000000188 ddbbfb4ad2d34a8d3dc0ec92b70b63caa73ad7dea0cc9740bac2309b4bb11107912bd086379746e9a9bcd26d4db58
" );
let mut output = [ 0 u8 ; 128 ] ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( & output [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn bls12_381_g1_multiexp ( ) {
let f = Builtin {
pricer : btreemap ! [ 0 = > Pricing ::Bls12ConstOperations ( Bls12ConstOperations { price : 1 } ) ] ,
native : EthereumBuiltin ::from_str ( " bls12_381_g1_multiexp " ) . unwrap ( ) ,
} ;
let input = hex! ( "
0000000000000000000000000000000012196 c5a43d69224d8713389285f26b98f86ee910ab3dd668e413738282003cc5b7357af9a7af54bb713d62255e80f56
0000000000000000000000000000000006 ba8102bfbeea4416b710c73e8cce3032c31c6269c44906f8ac4f7874ce99fb17559992486528963884ce429a992fee
b3c940fe79b6966489b527955de7599194a9ac69a6ff58b8d99e7b1084f0464e
00000000000000000000000000000000117 dbe419018f67844f6a5e1b78a1e597283ad7b8ee7ac5e58846f5a5fd68d0da99ce235a91db3ec1cf340fe6b7afcdb
0000000000000000000000000000000013316 f23de032d25e912ae8dc9b54c8dba1be7cecdbb9d2228d7e8f652011d46be79089dd0a6080a73c82256ce5e4ed2
4 d0e25bf3f6fc9f4da25d21fdc71773f1947b7a8a775b8177f7eca990b05b71d
0000000000000000000000000000000008 ab7b556c672db7883ec47efa6d98bb08cec7902ebb421aac1c31506b177ac444ffa2d9b400a6f1cbdc6240c607ee11
0000000000000000000000000000000016 b7fa9adf4addc2192271ce7ad3c8d8f902d061c43b7d2e8e26922009b777855bffabe7ed1a09155819eabfa87f276f
973 f40c12c92b703d7b7848ef8b4466d40823aad3943a312b57432b91ff68be1
0000000000000000000000000000000015 ff9a232d9b5a8020a85d5fe08a1dcfb73ece434258fe0e2fddf10ddef0906c42dcb5f5d62fc97f934ba900f17beb33
0000000000000000000000000000000009 cfe4ee2241d9413c616462d7bac035a6766aeaab69c81e094d75b840df45d7e0dfac0265608b93efefb9a8728b98e4
4 c51f97bcdda93904ae26991b471e9ea942e2b5b8ed26055da11c58bc7b5002a
0000000000000000000000000000000017 a17b82e3bfadf3250210d8ef572c02c3610d65ab4d7366e0b748768a28ee6a1b51f77ed686a64f087f36f641e7dca9
00000000000000000000000000000000077 ea73d233ccea51dc4d5acecf6d9332bf17ae51598f4b394a5f62fb387e9c9aa1d6823b64a074f5873422ca57545d3
8964 d5867927bc3e35a0b4c457482373969bff5edff8a781d65573e07fd87b89
000000000000000000000000000000000 c1243478f4fbdc21ea9b241655947a28accd058d0cdb4f9f0576d32f09dddaf0850464550ff07cab5927b3e4c863ce9
0000000000000000000000000000000015 fb54db10ffac0b6cd374eb7168a8cb3df0a7d5f872d8e98c1f623deb66df5dd08ff4c3658f2905ec8bd02598bd4f90
787 c38b944eadbd03fd3187f450571740f6cd00e5b2e560165846eb800e5c944
000000000000000000000000000000000328 f09584b6d6c98a709fc22e184123994613aca95a28ac53df8523b92273eb6f4e2d9b2a7dcebb474604d54a210719
000000000000000000000000000000001220 ebde579911fe2e707446aaad8d3789fae96ae2e23670a4fd856ed82daaab704779eb4224027c1ed9460f39951a1b
aaee7ae2a237e8e53560c79e7baa9adf9c00a0ea4d6f514e7a6832eb15cef1e1
0000000000000000000000000000000002 ebfa98aa92c32a29ebe17fcb1819ba82e686abd9371fcee8ea793b4c72b6464085044f818f1f5902396df0122830cb
00000000000000000000000000000000001184715 b8432ed190b459113977289a890f68f6085ea111466af15103c9c02467da33e01d6bff87fd57db6ccba442a
dac6ed3ef45c1d7d3028f0f89e5458797996d3294b95bebe049b76c7d0db317c
0000000000000000000000000000000009 d6424e002439998e91cd509f85751ad25e574830c564e7568347d19e3f38add0cab067c0b4b0801785a78bcbeaf246
000000000000000000000000000000000 ef6d7db03ee654503b46ff0dbc3297536a422e963bda9871a8da8f4eeb98dedebd6071c4880b4636198f4c2375dc795
bb30985756c3ca075114c92f231575d6befafe4084517f1166a47376867bd108
0000000000000000000000000000000002 d1cdb93191d1f9f0308c2c55d0208a071f5520faca7c52ab0311dbc9ba563bd33b5dd6baa77bf45ac2c3269e945f48
00000000000000000000000000000000072 a52106e6d7b92c594c4dacd20ef5fab7141e45c231457cd7e71463b2254ee6e72689e516fa6a8f29f2a173ce0a190
fb730105809f64ea522983d6bbb62f7e2e8cbf702685e9be10e2ef71f8187672
0000000000000000000000000000000000641642 f6801d39a09a536f506056f72a619c50d043673d6d39aa4af11d8e3ded38b9c3bbc970dbc1bd55d68f94b50d
0000000000000000000000000000000009 ab050de356a24aea90007c6b319614ba2f2ed67223b972767117769e3c8e31ee4056494628fb2892d3d37afb6ac943
b6a9408625b0ca8fcbfb21d34eec2d8e24e9a30d2d3b32d7a37d110b13afbfea
000000000000000000000000000000000 fd4893addbd58fb1bf30b8e62bef068da386edbab9541d198e8719b2de5beb9223d87387af82e8b55bd521ff3e47e2d
000000000000000000000000000000000 f3a923b76473d5b5a53501790cb02597bb778bdacb3805a9002b152d22241ad131d0f0d6a260739cbab2c2fe602870e
3 b77283d0a7bb9e17a27e66851792fdd605cc0a339028b8985390fd024374c76
0000000000000000000000000000000002 cb4b24c8aa799fd7cb1e4ab1aab1372113200343d8526ea7bc64dfaf926baf5d90756a40e35617854a2079cd07fba4
0000000000000000000000000000000003327 ca22bd64ebd673cc6d5b02b2a8804d5353c9d251637c4273ad08d581cc0d58da9bea27c37a0b3f4961dbafd276b
dd994eae929aee7428fdda2e44f8cb12b10b91c83b22abc8bbb561310b62257c
00000000000000000000000000000000024 ad70f2b2105ca37112858e84c6f5e3ffd4a8b064522faae1ecba38fabd52a6274cb46b00075deb87472f11f2e67d9
0000000000000000000000000000000010 a502c8b2a68aa30d2cb719273550b9a3c283c35b2e18a01b0b765344ffaaa5cb30a1e3e6ecd3a53ab67658a5787681
7010 b134989c8368c7f831f9dd9f9a890e2c1435681107414f2e8637153bbf6a
0000000000000000000000000000000000704 cc57c8e0944326ddc7c747d9e7347a7f6918977132eea269f161461eb64066f773352f293a3ac458dc3ccd5026a
000000000000000000000000000000001099 d3c2bb2d082f2fdcbed013f7ac69e8624f4fcf6dfab3ee9dcf7fbbdb8c49ee79de40e887c0b6828d2496e3a6f768
94 c68bc8d91ac8c489ee87dbfc4b94c93c8bbd5fc04c27db8b02303f3a659054
00000000000000000000000000000000130535 a29392c77f045ac90e47f2e7b3cffff94494fe605aad345b41043f6663ada8e2e7ecd3d06f3b8854ef92212f42
000000000000000000000000000000001699 a3cc1f10cd2ed0dc68eb916b4402e4f12bf4746893bf70e26e209e605ea89e3d53e7ac52bd07713d3c8fc671931d
b3682accc3939283b870357cf83683350baf73aa0d3d68bda82a0f6ae7e51746
" );
let expected = hex! ( "
000000000000000000000000000000000 b370fc4ca67fb0c3c270b1b4c4816ef953cd9f7cf6ad20e88099c40aace9c4bb3f4cd215e5796f65080c69c9f4d2a0f
0000000000000000000000000000000007203220935 ddc0190e2d7a99ec3f9231da550768373f9a5933dffd366f48146f8ea5fe5dee6539d925288083bb5a8f1
" );
let mut output = [ 0 u8 ; 128 ] ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( & output [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn bls12_381_g2_add ( ) {
let f = Builtin {
pricer : btreemap ! [ 0 = > Pricing ::Bls12ConstOperations ( Bls12ConstOperations { price : 1 } ) ] ,
native : EthereumBuiltin ::from_str ( " bls12_381_g2_add " ) . unwrap ( ) ,
} ;
let input = hex! ( "
00000000000000000000000000000000161 c595d151a765c7dee03c9210414cdffab84b9078b4b98f9df09be5ec299b8f6322c692214f00ede97958f235c352b
00000000000000000000000000000000106883e0937 cb869e579b513bde8f61020fcf26be38f8b98eae3885cedec2e028970415fc653cf10e64727b7f6232e06
000000000000000000000000000000000 f351a82b733af31af453904874b7ca6252957a1ab51ec7f7b6fff85bbf3331f870a7e72a81594a9930859237e7a154d
0000000000000000000000000000000012 fcf20d1750901f2cfed64fd362f010ee64fafe9ddab406cc352b65829b929881a50514d53247d1cca7d6995d0bc9b2
00000000000000000000000000000000148 b7dfc21521d79ff817c7a0305f1048851e283be13c07d5c04d28b571d48172838399ba539529e8d037ffd1f729558
0000000000000000000000000000000003015 abea326c15098f5205a8b2d3cd74d72dac59d60671ca6ef8c9c714ea61ffdacd46d1024b5b4f7e6b3b569fabaf2
0000000000000000000000000000000011 f0c512fe7dc2dd8abdc1d22c2ecd2e7d1b84f8950ab90fc93bf54badf7bb9a9bad8c355d52a5efb110dca891e4cc3d
0000000000000000000000000000000019774010814 d1d94caf3ecda3ef4f5c5986e966eaf187c32a8a5a4a59452af0849690cf71338193f2d8435819160bcfb
" );
let expected = hex! ( "
000000000000000000000000000000000383 ab7a17cc57e239e874af3f1aaabba0e64625b848676712f05f56132dbbd1cadfabeb3fe1f461daba3f1720057ddd
00000000000000000000000000000000096967e9 b3747f1b8e344535eaa0c51e70bc77412bfaa2a7ce76f11f570c9febb8f4227316866a416a50436d098e6f9a
000000000000000000000000000000001079452 b7519a7b090d668d54c266335b1cdd1080ed867dd17a2476b11c2617da829bf740e51cb7dfd60d73ed02c0c67
00000000000000000000000000000000015 fc3a972e05cbd9014882cfe6f2f16d0291c403bf28b05056ac625e4f71dfb1295c85d73145ef554614e6eb2d5bf02
" );
let mut output = [ 0 u8 ; 256 ] ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( & output [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn bls12_381_g2_mul ( ) {
let f = Builtin {
pricer : btreemap ! [ 0 = > Pricing ::Bls12ConstOperations ( Bls12ConstOperations { price : 1 } ) ] ,
native : EthereumBuiltin ::from_str ( " bls12_381_g2_mul " ) . unwrap ( ) ,
} ;
let input = hex! ( "
00000000000000000000000000000000159 da74f15e4c614b418997f81a1b8a3d9eb8dd80d94b5bad664bff271bb0f2d8f3c4ceb947dc6300d5003a2f7d7a829
000000000000000000000000000000000 cdd4d1d4666f385dd54052cf5c1966328403251bebb29f0d553a9a96b5ade350c8493270e9b5282d8a06f9fa8d7b1d9
00000000000000000000000000000000189 f8d3c94fdaa72cc67a7f93d35f91e22206ff9e97eed9601196c28d45b69c802ae92bcbf582754717b0355e08d37c0
00000000000000000000000000000000054 b0a282610f108fc7f6736b8c22c8778d082bf4b0d0abca5a228198eba6a868910dd5c5c440036968e977955054196
b6a9408625b0ca8fcbfb21d34eec2d8e24e9a30d2d3b32d7a37d110b13afbfea
" );
let expected = hex! ( "
000000000000000000000000000000000 b24adeb2ca184c9646cb39f45e0cf8711e10bf308ddae06519562b0af3b43be44c2fcb90622726f7446ed690551d30e
00000000000000000000000000000000069467 c3edc19416067f572c51740ba8e0e7380121ade98e38ce26d907a2bf3a4e82af2bd195b6c3b7c9b29218880531
000000000000000000000000000000000 eb8c90d0727511be53ffcb6f3b144c07983ed4b76d31ab003e45b37c7bc1066910f5e29f5adad5757af979dd0d8351d
0000000000000000000000000000000004760 f8d814189dcd893949797a3c4f56f2b60964bba3a4fc741e7ead05eb886787b2502fc64b20363eeba44e65d0ca0
" );
let mut output = [ 0 u8 ; 256 ] ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( & output [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn bls12_381_g2_multiexp ( ) {
let f = Builtin {
pricer : btreemap ! [ 0 = > Pricing ::Bls12ConstOperations ( Bls12ConstOperations { price : 1 } ) ] ,
native : EthereumBuiltin ::from_str ( " bls12_381_g2_multiexp " ) . unwrap ( ) ,
} ;
let input = hex! ( "
00000000000000000000000000000000039 b10ccd664da6f273ea134bb55ee48f09ba585a7e2bb95b5aec610631ac49810d5d616f67ba0147e6d1be476ea220e
0000000000000000000000000000000000 fbcdff4e48e07d1f73ec42fe7eb026f5c30407cfd2f22bbbfe5b2a09e8a7bb4884178cb6afd1c95f80e646929d3004
0000000000000000000000000000000001 ed3b0e71acb0adbf44643374edbf4405af87cfc0507db7e8978889c6c3afbe9754d1182e98ac3060d64994d31ef576
000000000000000000000000000000001681 a2bf65b83be5a2ca50430949b6e2a099977482e9405b593f34d2ed877a3f0d1bddc37d0cec4d59d7df74b2b8f2df
b3c940fe79b6966489b527955de7599194a9ac69a6ff58b8d99e7b1084f0464e
0000000000000000000000000000000018 c0ada6351b70661f053365deae56910798bd2ace6e2bf6ba4192d1a229967f6af6ca1c9a8a11ebc0a232344ee0f6d6
000000000000000000000000000000000 cc70a587f4652039d8117b6103858adcd9728f6aebe230578389a62da0042b7623b1c0436734f463cfdd187d2090324
0000000000000000000000000000000009 f50bd7beedb23328818f9ffdafdb6da6a4dd80c5a9048ab8b154df3cad938ccede829f1156f769d9e149791e8e0cd9
00000000000000000000000000000000079 ba50d2511631b20b6d6f3841e616e9d11b68ec3368cd60129d9d4787ab56c4e9145a38927e51c9cd6271d493d9388
4 d0e25bf3f6fc9f4da25d21fdc71773f1947b7a8a775b8177f7eca990b05b71d
0000000000000000000000000000000003632695 b09dbf86163909d2bb25995b36ad1d137cf252860fd4bb6c95749e19eb0c1383e9d2f93f2791cb0cf6c8ed9d
000000000000000000000000000000001688 a855609b0bbff4452d146396558ff18777f329fd4f76a96859dabfc6a6f6977c2496280dbe3b1f8923990c1d6407
000000000000000000000000000000000 c8567fee05d05af279adc67179468a29d7520b067dbb348ee315a99504f70a206538b81a457cce855f4851ad48b7e80
000000000000000000000000000000001238 dcdfa80ea46e1500026ea5feadb421de4409f4992ffbf5ae59fa67fd82f38452642a50261b849e74b4a33eed70cc
973 f40c12c92b703d7b7848ef8b4466d40823aad3943a312b57432b91ff68be1
000000000000000000000000000000000149704960 cccf9d5ea414c73871e896b1d4cf0a946b0db72f5f2c5df98d2ec4f3adbbc14c78047961bc9620cb6cfb59
00000000000000000000000000000000140 c5d25e534fb1bfdc19ba4cecaabe619f6e0cd3d60b0f17dafd7bcd27b286d4f4477d00c5e1af22ee1a0c67fbf177c
00000000000000000000000000000000029 a1727041590b8459890de736df15c00d80ab007c3aee692ddcdf75790c9806d198e9f4502bec2f0a623491c3f877d
0000000000000000000000000000000008 a94c98baa9409151030d4fae2bd4a64c6f11ea3c99b9661fdaed226b9a7c2a7d609be34afda5d18b8911b6e015bf49
4 c51f97bcdda93904ae26991b471e9ea942e2b5b8ed26055da11c58bc7b5002a
000000000000000000000000000000001156 d478661337478ab0cbc877a99d9e4d9824a2b3f605d41404d6b557b3ffabbf42635b0bbcb854cf9ed8b8637561a8
000000000000000000000000000000001147 ed317d5642e699787a7b47e6795c9a8943a34a694007e44f8654ba96390cf19f010dcf695e22c21874022c6ce291
000000000000000000000000000000000 c6dccdf920fd5e7fae284115511952633744c6ad94120d9cae6acda8a7c23c48bd912cba6c38de5159587e1e6cad519
000000000000000000000000000000001944227 d462bc2e5dcc6f6db0f83dad411ba8895262836f975b2b91e06fd0e2138862162acc04e9e65050b34ccbd1a4e
8964 d5867927bc3e35a0b4c457482373969bff5edff8a781d65573e07fd87b89
0000000000000000000000000000000019 c31e3ab8cc9c920aa8f56371f133b6cb8d7b0b74b23c0c7201aca79e5ae69dc01f1f74d2492dcb081895b17d106b4e
000000000000000000000000000000001789 b0d371bd63077ccde3dbbebf3531368feb775bced187fb31cc6821481664600978e323ff21085b8c08e0f21daf72
000000000000000000000000000000000009 eacfe8f4a2a9bae6573424d07f42bd6af8a9d55f71476a7e3c7a4b2b898550c1e72ec13afd4eff22421a03af1d31
000000000000000000000000000000000410 bd4ea74dcfa33f2976aa1b571c67cbb596ab10f76a8aaf4548f1097e55b3373bff02683f806cb84e1e0e877819e2
787 c38b944eadbd03fd3187f450571740f6cd00e5b2e560165846eb800e5c944
00000000000000000000000000000000147 f09986691f2e57073378e8bfd58804241eed7934f6adfe6d0a6bac4da0b738495778a303e52113e1c80e698476d50
000000000000000000000000000000000762348 b84c92a8ca6de319cf1f8f11db296a71b90fe13e1e4bcd25903829c00a5d2ad4b1c8d98c37eaad7e042ab023d
0000000000000000000000000000000011 d1d94530d4a2daf0e902a5c3382cd135938557f94b04bccea5e16ea089c5e020e13524c854a316662bd68784fe31f3
00000000000000000000000000000000070828522 bec75b6a492fd9bca7b54dac6fbbf4f0bc3179d312bb65c647439e3868e4d5b21af5a64c93aeee8a9b7e46e
aaee7ae2a237e8e53560c79e7baa9adf9c00a0ea4d6f514e7a6832eb15cef1e1
000000000000000000000000000000000690 a0869204c8dced5ba0ce13554b2703a3f18afb8fa8fa1c457d79c58fdc25471ae85bafad52e506fc1917fc3becff
0000000000000000000000000000000010 f7dbb16f8571ede1cec79e3f9ea03ae6468d7285984713f19607f5cab902b9a6b7cbcfd900be5c2e407cc093ea0e67
00000000000000000000000000000000151 caf87968433cb1f85fc1854c57049be22c26497a86bfbd66a2b3af121d894dba8004a17c6ff96a5843c2719fa32d1
0000000000000000000000000000000011 f0270f2b039409f70392879bcc2c67c836c100cf9883d3dc48d7adbcd52037d270539e863a951acd47ecaa1ca4db12
dac6ed3ef45c1d7d3028f0f89e5458797996d3294b95bebe049b76c7d0db317c
0000000000000000000000000000000017 fae043c8fd4c520a90d4a6bd95f5b0484acc279b899e7b1d8f7f7831cc6ba37cd5965c4dc674768f5805842d433af3
0000000000000000000000000000000008 ddd7b41b8fa4d29fb931830f29b46f4015ec202d51cb969d7c832aafc0995c875cd45eff4a083e2d5ecb5ad185b64f
0000000000000000000000000000000015 d384ab7e52420b83a69827257cb52b00f0199ed2240a142812b46cf67e92b99942ac59fb9f9efd7dd822f5a36c799f
00000000000000000000000000000000074 b3a16a9cc4be9da0ac8e2e7003d9c1ec89244d2c33441b31af76716cce439f805843a9a44701203231efdca551d5b
bb30985756c3ca075114c92f231575d6befafe4084517f1166a47376867bd108
000000000000000000000000000000000e25365988664 e8b6ade2e5a40da49c11ff1e084cc0f8dca51f0d0578555d39e3617c8cadb2abc2633b28c5895ab0a9e
00000000000000000000000000000000169 f5fd768152169c403475dee475576fd2cc3788179453b0039ff3cb1b7a5a0fff8f82d03f56e65cad579218486c3b6
00000000000000000000000000000000087 ccd7f92032febc1f75c7115111ede4acbb2e429cbccf3959524d0b79c449d431ff65485e1aecb442b53fec80ecb40
00000000000000000000000000000000135 d63f264360003b2eb28f126c6621a40088c6eb15acc4aea89d6068e9d5a47f842aa4b4300f5cda5cc5831edb81596
fb730105809f64ea522983d6bbb62f7e2e8cbf702685e9be10e2ef71f8187672
00000000000000000000000000000000159 da74f15e4c614b418997f81a1b8a3d9eb8dd80d94b5bad664bff271bb0f2d8f3c4ceb947dc6300d5003a2f7d7a829
000000000000000000000000000000000 cdd4d1d4666f385dd54052cf5c1966328403251bebb29f0d553a9a96b5ade350c8493270e9b5282d8a06f9fa8d7b1d9
00000000000000000000000000000000189 f8d3c94fdaa72cc67a7f93d35f91e22206ff9e97eed9601196c28d45b69c802ae92bcbf582754717b0355e08d37c0
00000000000000000000000000000000054 b0a282610f108fc7f6736b8c22c8778d082bf4b0d0abca5a228198eba6a868910dd5c5c440036968e977955054196
b6a9408625b0ca8fcbfb21d34eec2d8e24e9a30d2d3b32d7a37d110b13afbfea
000000000000000000000000000000000 f29b0d2b6e3466668e1328048e8dbc782c1111ab8cbe718c85d58ded992d97ca8ba20b9d048feb6ed0aa1b4139d02d3
000000000000000000000000000000000 d1f0dae940b99fbfc6e4a58480cac8c4e6b2fe33ce6f39c7ac1671046ce94d9e16cba2bb62c6749ef73d45bea21501a
000000000000000000000000000000001902 ccece1c0c763fd06934a76d1f2f056563ae6d8592bafd589cfebd6f057726fd908614ccd6518a21c66ecc2f78b66
0000000000000000000000000000000017 f6b113f8872c3187d20b0c765d73b850b54244a719cf461fb318796c0b8f310b5490959f9d9187f99c8ed3e25e42a9
3 b77283d0a7bb9e17a27e66851792fdd605cc0a339028b8985390fd024374c76
000000000000000000000000000000000576 b8cf1e69efdc277465c344cadf7f8cceffacbeca83821f3ff81717308b97f4ac046f1926e7c2eb42677d7afc257c
000000000000000000000000000000000 cc1524531e96f3c00e4250dd351aedb5a4c3184aff52ec8c13d470068f5967f3674fe173ee239933e67501a9decc668
0000000000000000000000000000000001610 cfcaea414c241b44cf6f3cc319dcb51d6b8de29c8a6869ff7c1ebb7b747d881e922b42e8fab96bde7cf23e8e4cd
0000000000000000000000000000000017 d4444dc8b6893b681cf10dac8169054f9d2f61d3dd5fd785ae7afa49d18ebbde9ce8dde5641adc6b38173173459836
dd994eae929aee7428fdda2e44f8cb12b10b91c83b22abc8bbb561310b62257c
000000000000000000000000000000000 ca8f961f86ee6c46fc88fbbf721ba760186f13cd4cce743f19dc60a89fd985cb3feee34dcc4656735a326f515a729e4
00000000000000000000000000000000174 baf466b809b1155d524050f7ee58c7c5cf728c674e0ce549f5551047a4479ca15bdf69b403b03fa74eb1b26bbff6c
0000000000000000000000000000000000e8 c8b587c171b1b292779abfef57202ed29e7fe94ade9634ec5a2b3b4692a4f3c15468e3f6418b144674be70780d5b
000000000000000000000000000000001865e99 cf97d88bdf56dae32314eb32295c39a1e755cd7d1478bea8520b9ff21c39b683b92ae15568420c390c42b123b
7010 b134989c8368c7f831f9dd9f9a890e2c1435681107414f2e8637153bbf6a
0000000000000000000000000000000017 eccd446f10018219a1bd111b8786cf9febd49f9e7e754e82dd155ead59b819f0f20e42f4635d5044ec5d550d847623
000000000000000000000000000000000403969 d2b8f914ff2ea3bf902782642e2c6157bd2a343acf60ff9125b48b558d990a74c6d4d6398e7a3cc2a16037346
000000000000000000000000000000000 bd45f61f142bd78619fb520715320eb5e6ebafa8b078ce796ba62fe1a549d5fb9df57e92d8d2795988eb6ae18cf9d93
00000000000000000000000000000000097 db1314e064b8e670ec286958f17065bce644cf240ab1b1b220504560d36a0b43fc18453ff3a2bb315e219965f5bd3
94 c68bc8d91ac8c489ee87dbfc4b94c93c8bbd5fc04c27db8b02303f3a659054
00000000000000000000000000000000018244 ab39a716e252cbfb986c7958b371e29ea9190010d1f5e1cfdb6ce4822d4055c37cd411fc9a0c46d728f2c13ecf
0000000000000000000000000000000001985 d3c667c8d68c9adb92bdc7a8af959c17146544997d97116120a0f55366bd7ad7ffa28d93ee51222ff9222779675
000000000000000000000000000000000 c70fd4e3c8f2a451f83fb6c046431b38251b7bae44cf8d36df69a03e2d3ce6137498523fcf0bcf29b5d69e8f265e24d
00000000000000000000000000000000047 b9163a218f7654a72e0d7c651a2cf7fd95e9784a59e0bf119d081de6c0465d374a55fbc1eff9828c9fd29abf4c4bd
b3682accc3939283b870357cf83683350baf73aa0d3d68bda82a0f6ae7e51746
" );
let expected = hex! ( "
00000000000000000000000000000000083 ad744b34f6393bc983222b004657494232c5d9fbc978d76e2377a28a34c4528da5d91cbc0977dc953397a6d21eca2
0000000000000000000000000000000015 aec6526e151cf5b8403353517dfb9a162087a698b71f32b266d3c5c936a83975d5567c25b3a5994042ec1379c8e526
000000000000000000000000000000000e3647185 d1a20efad19f975729908840dc33909a583600f7915025f906aef9c022fd34e618170b11178aaa824ae36b3
00000000000000000000000000000000159576 d1d53f6cd12c39d651697e11798321f17cd287118d7ebeabf68281bc03109ee103ee8ef2ef93c71dd1dcbaf1e0
" );
let mut output = [ 0 u8 ; 256 ] ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( & output [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn bls12_381_pairing ( ) {
let f = Builtin {
pricer : btreemap ! [ 0 = > Pricing ::Bls12Pairing ( Bls12PairingPricer { price : Bls12PairingPrice { base : 1 , pair : 1 } } ) ] ,
native : EthereumBuiltin ::from_str ( " bls12_381_pairing " ) . unwrap ( ) ,
} ;
let input = hex! ( "
000000000000000000000000000000001830 f52d9bff64a623c6f5259e2cd2c2a08ea17a8797aaf83174ea1e8c3bd3955c2af1d39bfa474815bfe60714b7cd80
000000000000000000000000000000000874389 c02d4cf1c61bc54c4c24def11dfbe7880bc998a95e70063009451ee8226fec4b278aade3a7cea55659459f1d5
00000000000000000000000000000000197737 f831d4dc7e708475f4ca7ca15284db2f3751fcaac0c17f517f1ddab35e1a37907d7b99b39d6c8d9001cd50e79e
000000000000000000000000000000000 af1a3f6396f0c983e7c2d42d489a3ae5a3ff0a553d93154f73ac770cd0af7467aa0cef79f10bbd34621b3ec9583a834
000000000000000000000000000000001918 cb6e448ed69fb906145de3f11455ee0359d030e90d673ce050a360d796de33ccd6a941c49a1414aca1c26f9e699e
0000000000000000000000000000000019 a915154a13249d784093facc44520e7f3a18410ab2a3093e0b12657788e9419eec25729944f7945e732104939e7a9e
000000000000000000000000000000001830 f52d9bff64a623c6f5259e2cd2c2a08ea17a8797aaf83174ea1e8c3bd3955c2af1d39bfa474815bfe60714b7cd80
00000000000000000000000000000000118 cd94e36ab177de95f52f180fdbdc584b8d30436eb882980306fa0625f07a1f7ad3b4c38a921c53d14aa9a6ba5b8d6
00000000000000000000000000000000197737 f831d4dc7e708475f4ca7ca15284db2f3751fcaac0c17f517f1ddab35e1a37907d7b99b39d6c8d9001cd50e79e
000000000000000000000000000000000 af1a3f6396f0c983e7c2d42d489a3ae5a3ff0a553d93154f73ac770cd0af7467aa0cef79f10bbd34621b3ec9583a834
000000000000000000000000000000001918 cb6e448ed69fb906145de3f11455ee0359d030e90d673ce050a360d796de33ccd6a941c49a1414aca1c26f9e699e
0000000000000000000000000000000019 a915154a13249d784093facc44520e7f3a18410ab2a3093e0b12657788e9419eec25729944f7945e732104939e7a9e
" );
let expected = hex! (
"
0000000000000000000000000000000000000000000000000000000000000001
"
) ;
let mut output = [ 0 u8 ; 32 ] ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( & output [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn bls12_381_fp_to_g1 ( ) {
let f = Builtin {
pricer : btreemap ! [ 0 = > Pricing ::Bls12Pairing ( Bls12PairingPricer { price : Bls12PairingPrice { base : 1 , pair : 1 } } ) ] ,
native : EthereumBuiltin ::from_str ( " bls12_381_fp_to_g1 " ) . unwrap ( ) ,
} ;
let input = hex! ( "
0000000000000000000000000000000017 f66b472b36717ee0902d685c808bb5f190bbcb2c51d067f1cbec64669f10199a5868d7181dcec0498fcc71f5acaf79
" );
let expected = hex! ( "
00000000000000000000000000000000188 dc9e5ddf48977f33aeb6e505518269bf67fb624fa86b79741d842e75a6fa1be0911c2caa9e55571b6e55a3c0c0b9e
00000000000000000000000000000000193e8 b7c7e78daf104a59d7b39401a65355fa874bd34e91688580941e99a863367efc68fe871e38e07423090e93919c9
" );
let mut output = [ 0 u8 ; 128 ] ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( & output [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn bls12_381_fp2_to_g2 ( ) {
let f = Builtin {
pricer : btreemap ! [ 0 = > Pricing ::Bls12Pairing ( Bls12PairingPricer { price : Bls12PairingPrice { base : 1 , pair : 1 } } ) ] ,
native : EthereumBuiltin ::from_str ( " bls12_381_fp2_to_g2 " ) . unwrap ( ) ,
} ;
let input = hex! ( "
000000000000000000000000000000000 f470603a402bc134db1b389fd187460f9eb2dd001a2e99f730af386508c62f0e911d831a2562da84bce11d39f2ff13f
000000000000000000000000000000000 d8c45f4ab20642d0cba9764126e0818b7d731a6ba29ed234d9d6309a5e8ddfbd85193f1fa8b7cfeed3d31b23b904ee9
" );
let expected = hex! ( "
0000000000000000000000000000000012e74 d5a0c005a86ca148e9eff8e34a00bfa8b6e6aadf633d65cd09bb29917e0ceb0d5c9d9650c162d7fe4aa27452685
0000000000000000000000000000000005 f09101a2088712619f9c096403b66855a12f9016c55aef6047372fba933f02d9d59db1a86df7be57978021e2457821
00000000000000000000000000000000136975 b37fe400d1d217a2b496c1552b39be4e9e71dd7ad482f5f0836d271d02959fdb698dda3d0530587fb86e0db1dd
0000000000000000000000000000000000 bad0aabd9309e92e2dd752f4dd73be07c0de2c5ddd57916b9ffa065d7440d03d44e7c042075cda694414a9fb639bb7
" );
let mut output = [ 0 u8 ; 256 ] ;
f . execute ( & input [ .. ] , & mut BytesRef ::Fixed ( & mut output [ .. ] ) )
. expect ( " Builtin should not fail " ) ;
assert_eq! ( & output [ .. ] , & expected [ .. ] ) ;
}
#[ test ]
fn bls12_381_g1_multiexp_init_from_spec ( ) {
use ethjson ::spec ::builtin ::{ Bls12G1Multiexp , Pricing } ;
let b = Builtin ::try_from ( JsonBuiltin {
name : " bls12_381_g1_multiexp " . to_owned ( ) ,
pricing : btreemap ! [
10000000 = > PricingAt {
info : None ,
price : Pricing ::Bls12G1Multiexp ( Bls12G1Multiexp {
base : 12000 ,
} ) ,
}
] ,
} )
. unwrap ( ) ;
match b . native {
EthereumBuiltin ::Bls12G1MultiExp ( .. ) = > { }
_ = > {
panic! ( " invalid precompile type " ) ;
}
}
}
#[ test ]
fn bls12_381_g2_multiexp_init_from_spec ( ) {
use ethjson ::spec ::builtin ::{ Bls12G2Multiexp , Pricing } ;
let b = Builtin ::try_from ( JsonBuiltin {
name : " bls12_381_g2_multiexp " . to_owned ( ) ,
pricing : btreemap ! [
10000000 = > PricingAt {
info : None ,
price : Pricing ::Bls12G2Multiexp ( Bls12G2Multiexp {
base : 55000 ,
} ) ,
}
] ,
} )
. unwrap ( ) ;
match b . native {
EthereumBuiltin ::Bls12G2MultiExp ( .. ) = > { }
_ = > {
panic! ( " invalid precompile type " ) ;
}
}
}
2020-11-12 14:31:24 +01:00
#[ test ]
fn modexp_test_pricing ( ) {
let testvectors = vec! [
( " modexp_nagydani_1_square " , 204 , 200 , " 000000000000000000000000000000000000000000000000000000000000004000000000000000000000000000000000000000000000000000000000000000010000000000000000000000000000000000000000000000000000000000000040e09ad9675465c53a109fac66a445c91b292d2bb2c5268addb30cd82f80fcb0033ff97c80a5fc6f39193ae969c6ede6710a6b7ac27078a06d90ef1c72e5c85fb502fc9e1f6beb81516545975218075ec2af118cd8798df6e08a147c60fd6095ac2bb02c2908cf4dd7c81f11c289e4bce98f3553768f392a80ce22bf5c4f4a248c6b " ) ,
( " modexp_nagydani_1_qube " , 204 , 200 , " 000000000000000000000000000000000000000000000000000000000000004000000000000000000000000000000000000000000000000000000000000000010000000000000000000000000000000000000000000000000000000000000040e09ad9675465c53a109fac66a445c91b292d2bb2c5268addb30cd82f80fcb0033ff97c80a5fc6f39193ae969c6ede6710a6b7ac27078a06d90ef1c72e5c85fb503fc9e1f6beb81516545975218075ec2af118cd8798df6e08a147c60fd6095ac2bb02c2908cf4dd7c81f11c289e4bce98f3553768f392a80ce22bf5c4f4a248c6b " ) ,
( " modexp_nagydani_1_pow0x10001 " , 3276 , 341 , " 000000000000000000000000000000000000000000000000000000000000004000000000000000000000000000000000000000000000000000000000000000030000000000000000000000000000000000000000000000000000000000000040e09ad9675465c53a109fac66a445c91b292d2bb2c5268addb30cd82f80fcb0033ff97c80a5fc6f39193ae969c6ede6710a6b7ac27078a06d90ef1c72e5c85fb5010001fc9e1f6beb81516545975218075ec2af118cd8798df6e08a147c60fd6095ac2bb02c2908cf4dd7c81f11c289e4bce98f3553768f392a80ce22bf5c4f4a248c6b " ) ,
( " modexp_nagydani_2_square " , 665 , 200 , " 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 " ) ,
( " modexp_nagydani_2_qube " , 665 , 200 , " 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 " ) ,
( " modexp_nagydani_2_pow0x10001 " , 10649 , 1365 , " 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 " ) ,
( " modexp_nagydani_3_square " , 1894 , 341 , " 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 " ) ,
( " modexp_nagydani_3_qube " , 1894 , 341 , " 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 " ) ,
( " modexp_nagydani_3_pow0x10001 " , 30310 , 5461 , " 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 " ) ,
( " modexp_nagydani_4_square " , 5580 , 1365 , " 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 " ) ,
( " modexp_nagydani_4_qube " , 5580 , 1365 , " 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 " ) ,
( " modexp_nagydani_4_pow0x10001 " , 89292 , 21845 , " 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 " ) ,
( " modexp_nagydani_5_square " , 17868 , 5461 , " 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
( " modexp_nagydani_5_qube " , 17868 , 5461 , " 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
( " modexp_nagydani_5_pow0x10001 " , 285900 , 87381 , " 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
] ;
let eip198pricer = ModexpPricer { divisor : 20 } ;
let eip2565pricer = Modexp2565Pricer { } ;
for ( name , eip198gas , eip2565gas , input ) in testvectors {
let input = input . from_hex ( ) . unwrap ( ) ;
assert_eq! (
eip198pricer . cost ( & input ) . as_u64 ( ) ,
U256 ::from ( eip198gas ) . low_u64 ( ) ,
" eip198 gas estimates not equal for {} " ,
name
) ;
assert_eq! (
eip2565pricer . cost ( & input ) . as_u64 ( ) ,
U256 ::from ( eip2565gas ) . low_u64 ( ) ,
" eip2565 gas estimates not equal for {} " ,
name
) ;
}
}
2017-06-17 21:18:52 +02:00
}