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[package] |
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name = "evm-study" |
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version = "0.1.0" |
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edition = "2018" |
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# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html |
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[dependencies] |
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num-bigint = "0.4" |
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num = "0.4.0" |
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hex = "0.4.3" |
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#![allow(dead_code)]
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// use num::pow::pow;
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use num_bigint::BigUint;
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use std::collections::HashMap;
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// Non-opcode gas prices
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const GDEFAULT: usize = 1;
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const GMEMORY: usize = 3;
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const GQUADRATICMEMDENOM: usize = 512; // 1 gas per 512 quadwords
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const GSTORAGEREFUND: usize = 15000;
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const GSTORAGEKILL: usize = 5000;
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const GSTORAGEMOD: usize = 5000;
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const GSTORAGEADD: usize = 20000;
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const GEXPONENTBYTE: usize = 10; // cost of EXP exponent per byte
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const GCOPY: usize = 3; // cost to copy one 32 byte word
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const GCONTRACTBYTE: usize = 200; // one byte of code in contract creation
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const GCALLVALUETRANSFER: usize = 9000; // non-zero-valued call
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const GLOGBYTE: usize = 8; // cost of a byte of logdata
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const GTXCOST: usize = 21000; // TX BASE GAS COST
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const GTXDATAZERO: usize = 4; // TX DATA ZERO BYTE GAS COST
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const GTXDATANONZERO: usize = 68; // TX DATA NON ZERO BYTE GAS COST
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const GSHA3WORD: usize = 6; // Cost of SHA3 per word
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const GSHA256BASE: usize = 60; // Base c of SHA256
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const GSHA256WORD: usize = 12; // Cost of SHA256 per word
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const GRIPEMD160BASE: usize = 600; // Base cost of RIPEMD160
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const GRIPEMD160WORD: usize = 120; // Cost of RIPEMD160 per word
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const GIDENTITYBASE: usize = 15; // Base cost of indentity
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const GIDENTITYWORD: usize = 3; // Cost of identity per word
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const GECRECOVER: usize = 3000; // Cost of ecrecover op
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const GSTIPEND: usize = 2300;
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const GCALLNEWACCOUNT: usize = 25000;
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const GSUICIDEREFUND: usize = 24000;
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pub struct Stack {
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pc: usize,
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calldata_i: usize,
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stack: Vec<[u8; 32]>,
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mem: Vec<u8>,
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gas: u64,
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opcodes: HashMap<u8, Opcode>,
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}
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impl Stack {
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pub fn new() -> Stack {
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let mut s = Stack {
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pc: 0,
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calldata_i: 0,
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stack: Vec::new(),
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mem: Vec::new(),
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gas: 10000000000,
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opcodes: HashMap::new(),
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};
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s.opcodes = new_opcodes();
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s
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}
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fn push(&mut self, b: [u8; 32]) {
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self.stack.push(b);
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}
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fn pop(&mut self) -> [u8; 32] {
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match self.stack.pop() {
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Some(x) => return x,
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None => panic!("err"),
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}
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}
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}
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fn u256_to_u64(a: [u8; 32]) -> u64 {
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let mut b8: [u8; 8] = [0; 8];
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b8.copy_from_slice(&a[32 - 8..32]);
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let pos = u64::from_be_bytes(b8);
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pos
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}
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fn str_to_u256(s: &str) -> [u8; 32] {
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let bi = s.parse::<BigUint>().unwrap().to_bytes_be();
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let mut r: [u8; 32] = [0; 32];
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r[32 - bi.len()..].copy_from_slice(&bi[..]);
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r
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}
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struct Opcode {
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name: String,
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ins: u32,
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outs: u32,
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gas: u64,
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}
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fn new_opcode(name: &str, ins: u32, outs: u32, gas: u64) -> Opcode {
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Opcode {
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name: name.to_string(),
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ins,
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outs,
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gas,
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}
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}
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fn new_opcodes() -> HashMap<u8, Opcode> {
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let mut opcodes: HashMap<u8, Opcode> = HashMap::new();
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// arithmetic
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opcodes.insert(0x00, new_opcode("STOP", 0, 0, 0));
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opcodes.insert(0x01, new_opcode("ADD", 2, 1, 3));
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opcodes.insert(0x02, new_opcode("MUL", 2, 1, 5));
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opcodes.insert(0x03, new_opcode("SUB", 2, 1, 3));
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opcodes.insert(0x04, new_opcode("DIV", 2, 1, 5));
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opcodes.insert(0x05, new_opcode("SDIV", 2, 1, 5));
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opcodes.insert(0x06, new_opcode("MOD", 2, 1, 5));
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opcodes.insert(0x07, new_opcode("SMOD", 2, 1, 5));
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opcodes.insert(0x08, new_opcode("ADDMOD", 3, 1, 8));
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opcodes.insert(0x09, new_opcode("MULMOD", 3, 1, 8));
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opcodes.insert(0x0a, new_opcode("EXP", 2, 1, 10));
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opcodes.insert(0x0b, new_opcode("SIGNEXTEND", 2, 1, 5));
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// boolean
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opcodes.insert(0x10, new_opcode("LT", 2, 1, 3));
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opcodes.insert(0x11, new_opcode("GT", 2, 1, 3));
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opcodes.insert(0x12, new_opcode("SLT", 2, 1, 3));
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opcodes.insert(0x13, new_opcode("SGT", 2, 1, 3));
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opcodes.insert(0x14, new_opcode("EQ", 2, 1, 3));
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opcodes.insert(0x15, new_opcode("ISZERO", 1, 1, 3));
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opcodes.insert(0x16, new_opcode("AND", 2, 1, 3));
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opcodes.insert(0x17, new_opcode("OR", 2, 1, 3));
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opcodes.insert(0x18, new_opcode("XOR", 2, 1, 3));
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opcodes.insert(0x19, new_opcode("NOT", 1, 1, 3));
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opcodes.insert(0x1a, new_opcode("BYTE", 2, 1, 3));
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// crypto
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opcodes.insert(0x20, new_opcode("SHA3", 2, 1, 30));
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// contract context
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opcodes.insert(0x30, new_opcode("ADDRESS", 0, 1, 2));
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opcodes.insert(0x31, new_opcode("BALANCE", 1, 1, 20));
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opcodes.insert(0x32, new_opcode("ORIGIN", 0, 1, 2));
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opcodes.insert(0x33, new_opcode("CALLER", 0, 1, 2));
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opcodes.insert(0x34, new_opcode("CALLVALUE", 0, 1, 2));
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opcodes.insert(0x35, new_opcode("CALLDATALOAD", 1, 1, 3));
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opcodes.insert(0x36, new_opcode("CALLDATASIZE", 0, 1, 2));
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opcodes.insert(0x37, new_opcode("CALLDATACOPY", 3, 0, 3));
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opcodes.insert(0x38, new_opcode("CODESIZE", 0, 1, 2));
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opcodes.insert(0x39, new_opcode("CODECOPY", 3, 0, 3));
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opcodes.insert(0x3a, new_opcode("GASPRICE", 0, 1, 2));
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opcodes.insert(0x3b, new_opcode("EXTCODESIZE", 1, 1, 20));
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opcodes.insert(0x3c, new_opcode("EXTCODECOPY", 4, 0, 20));
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// blockchain context
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opcodes.insert(0x40, new_opcode("BLOCKHASH", 1, 1, 20));
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opcodes.insert(0x41, new_opcode("COINBASE", 0, 1, 2));
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opcodes.insert(0x42, new_opcode("TIMESTAMP", 0, 1, 2));
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opcodes.insert(0x43, new_opcode("NUMBER", 0, 1, 2));
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opcodes.insert(0x44, new_opcode("DIFFICULTY", 0, 1, 2));
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opcodes.insert(0x45, new_opcode("GASLIMIT", 0, 1, 2));
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// storage and execution
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opcodes.insert(0x50, new_opcode("POP", 1, 0, 2));
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opcodes.insert(0x51, new_opcode("MLOAD", 1, 1, 3));
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opcodes.insert(0x52, new_opcode("MSTORE", 2, 0, 3));
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opcodes.insert(0x53, new_opcode("MSTORE8", 2, 0, 3));
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opcodes.insert(0x54, new_opcode("SLOAD", 1, 1, 50));
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opcodes.insert(0x55, new_opcode("SSTORE", 2, 0, 0));
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opcodes.insert(0x56, new_opcode("JUMP", 1, 0, 8));
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opcodes.insert(0x57, new_opcode("JUMPI", 2, 0, 10));
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opcodes.insert(0x58, new_opcode("PC", 0, 1, 2));
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opcodes.insert(0x59, new_opcode("MSIZE", 0, 1, 2));
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opcodes.insert(0x5a, new_opcode("GAS", 0, 1, 2));
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opcodes.insert(0x5b, new_opcode("JUMPDEST", 0, 0, 1));
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// logging
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opcodes.insert(0xa0, new_opcode("LOG0", 2, 0, 375));
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opcodes.insert(0xa1, new_opcode("LOG1", 3, 0, 750));
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opcodes.insert(0xa2, new_opcode("LOG2", 4, 0, 1125));
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opcodes.insert(0xa3, new_opcode("LOG3", 5, 0, 1500));
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opcodes.insert(0xa4, new_opcode("LOG4", 6, 0, 1875));
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// closures
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opcodes.insert(0xf0, new_opcode("CREATE", 3, 1, 32000));
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opcodes.insert(0xf1, new_opcode("CALL", 7, 1, 40));
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opcodes.insert(0xf2, new_opcode("CALLCODE", 7, 1, 40));
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opcodes.insert(0xf3, new_opcode("RETURN", 2, 0, 0));
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opcodes.insert(0xf4, new_opcode("DELEGATECALL", 6, 0, 40));
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opcodes.insert(0xff, new_opcode("SUICIDE", 1, 0, 0));
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for i in 1..33 {
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let name = format!("PUSH{}", i);
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opcodes.insert(0x5f + i, new_opcode(&name, 0, 1, 3));
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}
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for i in 1..17 {
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let name = format!("DUP{}", i);
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opcodes.insert(0x7f + i, new_opcode(&name, i as u32, i as u32 + 1, 3));
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let name = format!("SWAP{}", i);
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opcodes.insert(0x8f + i, new_opcode(&name, i as u32 + 1, i as u32 + 1, 3));
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}
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opcodes
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}
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#[cfg(test)]
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||||
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mod tests {
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|
use super::*;
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#[test]
|
||||
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fn stack_simple_push_pop() {
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let mut s = Stack::new();
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s.push(str_to_u256("1"));
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s.push(str_to_u256("2"));
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s.push(str_to_u256("3"));
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assert_eq!(s.pop(), str_to_u256("3"));
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assert_eq!(s.pop(), str_to_u256("2"));
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assert_eq!(s.pop(), str_to_u256("1"));
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// assert_eq!(s.pop(), str_to_u256("1"));
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// assert_eq!(s.pop(), error); // TODO expect error as stack is empty
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}
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}
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