// Copyright 2015-2018 Parity Technologies (UK) Ltd. // This file is part of Parity. // Parity is free software: you can redistribute it and/or modify // 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. // Parity is distributed in the hope that it will be useful, // 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 // along with Parity. If not, see . pub use self::inner::*; #[macro_use] #[cfg(not(feature = "evm-debug"))] mod inner { macro_rules! evm_debug { ($x: expr) => {} } pub struct EvmInformant; impl EvmInformant { pub fn new(_depth: usize) -> Self { EvmInformant {} } pub fn done(&mut self) {} } } #[macro_use] #[cfg(feature = "evm-debug")] mod inner { use std::iter; use std::collections::HashMap; use std::time::{Instant, Duration}; use bigint::prelude::U256; use interpreter::stack::Stack; use instructions::{Instruction, InstructionInfo, INSTRUCTIONS}; use CostType; macro_rules! evm_debug { ($x: expr) => { $x } } fn print(data: String) { if cfg!(feature = "evm-debug-tests") { println!("{}", data); } else { debug!(target: "evm", "{}", data); } } pub struct EvmInformant { spacing: String, last_instruction: Instant, stats: HashMap, } impl EvmInformant { fn color(instruction: Instruction, name: &str) -> String { let c = instruction as usize % 6; let colors = [31, 34, 33, 32, 35, 36]; format!("\x1B[1;{}m{}\x1B[0m", colors[c], name) } fn as_micro(duration: &Duration) -> u64 { let mut sec = duration.as_secs(); let subsec = duration.subsec_nanos() as u64; sec = sec.saturating_mul(1_000_000u64); sec += subsec / 1_000; sec } pub fn new(depth: usize) -> Self { EvmInformant { spacing: iter::repeat(".").take(depth).collect(), last_instruction: Instant::now(), stats: HashMap::new(), } } pub fn before_instruction(&mut self, pc: usize, instruction: Instruction, info: &InstructionInfo, current_gas: &Cost, stack: &Stack) { let time = self.last_instruction.elapsed(); self.last_instruction = Instant::now(); print(format!("{}[0x{:<3x}][{:>19}(0x{:<2x}) Gas Left: {:6?} (Previous took: {:10}μs)", &self.spacing, pc, Self::color(instruction, info.name), instruction, current_gas, Self::as_micro(&time), )); if info.args > 0 { for (idx, item) in stack.peek_top(info.args).iter().enumerate() { print(format!("{} |{:2}: {:?}", self.spacing, idx, item)); } } } pub fn after_instruction(&mut self, instruction: Instruction) { let stats = self.stats.entry(instruction).or_insert_with(|| Stats::default()); let took = self.last_instruction.elapsed(); stats.note(took); } pub fn done(&mut self) { // Print out stats let infos = &*INSTRUCTIONS; let mut stats: Vec<(_,_)> = self.stats.drain().collect(); stats.sort_by(|ref a, ref b| b.1.avg().cmp(&a.1.avg())); print(format!("\n{}-------OPCODE STATS:", self.spacing)); for (instruction, stats) in stats.into_iter() { let info = infos[instruction as usize]; print(format!("{}-------{:>19}(0x{:<2x}) count: {:4}, avg: {:10}μs", self.spacing, Self::color(instruction, info.name), instruction, stats.count, stats.avg(), )); } } } struct Stats { count: u64, total_duration: Duration, } impl Default for Stats { fn default() -> Self { Stats { count: 0, total_duration: Duration::from_secs(0), } } } impl Stats { fn note(&mut self, took: Duration) { self.count += 1; self.total_duration += took; } fn avg(&self) -> u64 { EvmInformant::as_micro(&self.total_duration) / self.count } } }