// Copyright 2015-2017 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 .
//! Standardized JSON VM output.
use std::collections::HashMap;
use std::io;
use ethereum_types::{H256, U256};
use bytes::ToPretty;
use ethcore::trace;
use display;
use info as vm;
pub trait Writer: io::Write + Send + Sized {
fn clone(&self) -> Self;
}
impl Writer for io::Stdout {
fn clone(&self) -> Self {
io::stdout()
}
}
/// JSON formatting informant.
pub struct Informant {
code: Vec,
instruction: u8,
depth: usize,
stack: Vec,
storage: HashMap,
sink: T,
}
impl Default for Informant {
fn default() -> Self {
Self::new(io::stdout())
}
}
impl Informant {
pub fn new(sink: T) -> Self {
Informant {
code: Default::default(),
instruction: Default::default(),
depth: Default::default(),
stack: Default::default(),
storage: Default::default(),
sink,
}
}
}
impl Informant {
fn stack(&self) -> String {
let items = self.stack.iter().map(|i| format!("\"0x{:x}\"", i)).collect::>();
format!("[{}]", items.join(","))
}
fn storage(&self) -> String {
let vals = self.storage.iter()
.map(|(k, v)| format!("\"0x{:?}\": \"0x{:?}\"", k, v))
.collect::>();
format!("{{{}}}", vals.join(","))
}
}
impl vm::Informant for Informant {
fn before_test(&mut self, name: &str, action: &str) {
writeln!(
&mut self.sink,
"{{\"test\":\"{name}\",\"action\":\"{action}\"}}",
name = name,
action = action,
).expect("The sink must be writeable.");
}
fn set_gas(&mut self, _gas: U256) {}
fn finish(result: vm::RunResult) {
match result {
Ok(success) => {
println!("{{\"stateRoot\":\"{:?}\"}}", success.state_root);
println!(
"{{\"output\":\"0x{output}\",\"gasUsed\":\"{gas:x}\",\"time\":{time}}}",
output = success.output.to_hex(),
gas = success.gas_used,
time = display::as_micros(&success.time),
);
},
Err(failure) => {
println!(
"{{\"error\":\"{error}\",\"gasUsed\":\"{gas:x}\",\"time\":{time}}}",
error = failure.error,
gas = failure.gas_used,
time = display::as_micros(&failure.time),
)
},
}
}
}
impl trace::VMTracer for Informant {
type Output = ();
fn trace_next_instruction(&mut self, pc: usize, instruction: u8, current_gas: U256) -> bool {
let info = ::evm::INSTRUCTIONS[instruction as usize];
self.instruction = instruction;
let storage = self.storage();
let stack = self.stack();
writeln!(
&mut self.sink,
"{{\"pc\":{pc},\"op\":{op},\"opName\":\"{name}\",\"gas\":\"0x{gas:x}\",\"stack\":{stack},\"storage\":{storage},\"depth\":{depth}}}",
pc = pc,
op = instruction,
name = info.name,
gas = current_gas,
stack = stack,
storage = storage,
depth = self.depth,
).expect("The sink must be writeable.");
true
}
fn trace_prepare_execute(&mut self, _pc: usize, _instruction: u8, _gas_cost: U256) {
}
fn trace_executed(&mut self, _gas_used: U256, stack_push: &[U256], _mem_diff: Option<(usize, &[u8])>, store_diff: Option<(U256, U256)>) {
let info = ::evm::INSTRUCTIONS[self.instruction as usize];
let len = self.stack.len();
self.stack.truncate(if len > info.args { len - info.args } else { 0 });
self.stack.extend_from_slice(stack_push);
if let Some((pos, val)) = store_diff {
self.storage.insert(pos.into(), val.into());
}
}
fn prepare_subtrace(&self, code: &[u8]) -> Self where Self: Sized {
let mut vm = Informant::new(self.sink.clone());
vm.depth = self.depth + 1;
vm.code = code.to_vec();
vm
}
fn done_subtrace(&mut self, _sub: Self) {}
fn drain(self) -> Option { None }
}
#[cfg(test)]
mod tests {
use std::sync::{Arc, Mutex};
use super::*;
use info::tests::run_test;
#[derive(Debug, Clone, Default)]
struct TestWriter(pub Arc>>);
impl Writer for TestWriter {
fn clone(&self) -> Self { Clone::clone(self) }
}
impl io::Write for TestWriter {
fn write(&mut self, buf: &[u8]) -> io::Result {
self.0.lock().unwrap().write(buf)
}
fn flush(&mut self) -> io::Result<()> {
self.0.lock().unwrap().flush()
}
}
fn informant() -> (Informant, Arc>>) {
let writer = TestWriter::default();
let res = writer.0.clone();
(Informant::new(writer), res)
}
#[test]
fn should_trace_failure() {
let (inf, res) = informant();
run_test(
inf,
move |_, expected| {
let bytes = res.lock().unwrap();
assert_eq!(expected, &String::from_utf8_lossy(&**bytes))
},
"60F8d6",
0xffff,
r#"{"pc":0,"op":96,"opName":"PUSH1","gas":"0xffff","stack":[],"storage":{},"depth":1}
{"pc":2,"op":214,"opName":"","gas":"0xfffc","stack":["0xf8"],"storage":{},"depth":1}
"#,
);
let (inf, res) = informant();
run_test(
inf,
move |_, expected| {
let bytes = res.lock().unwrap();
assert_eq!(expected, &String::from_utf8_lossy(&**bytes))
},
"F8d6",
0xffff,
r#"{"pc":0,"op":248,"opName":"","gas":"0xffff","stack":[],"storage":{},"depth":1}
"#,
);
}
#[test]
fn should_trace_create_correctly() {
let (informant, res) = informant();
run_test(
informant,
move |_, expected| {
let bytes = res.lock().unwrap();
assert_eq!(expected, &String::from_utf8_lossy(&**bytes))
},
"32343434345830f138343438323439f0",
0xffff,
r#"{"pc":0,"op":50,"opName":"ORIGIN","gas":"0xffff","stack":[],"storage":{},"depth":1}
{"pc":1,"op":52,"opName":"CALLVALUE","gas":"0xfffd","stack":["0x0"],"storage":{},"depth":1}
{"pc":2,"op":52,"opName":"CALLVALUE","gas":"0xfffb","stack":["0x0","0x0"],"storage":{},"depth":1}
{"pc":3,"op":52,"opName":"CALLVALUE","gas":"0xfff9","stack":["0x0","0x0","0x0"],"storage":{},"depth":1}
{"pc":4,"op":52,"opName":"CALLVALUE","gas":"0xfff7","stack":["0x0","0x0","0x0","0x0"],"storage":{},"depth":1}
{"pc":5,"op":88,"opName":"PC","gas":"0xfff5","stack":["0x0","0x0","0x0","0x0","0x0"],"storage":{},"depth":1}
{"pc":6,"op":48,"opName":"ADDRESS","gas":"0xfff3","stack":["0x0","0x0","0x0","0x0","0x0","0x5"],"storage":{},"depth":1}
{"pc":7,"op":241,"opName":"CALL","gas":"0xfff1","stack":["0x0","0x0","0x0","0x0","0x0","0x5","0x0"],"storage":{},"depth":1}
{"pc":8,"op":56,"opName":"CODESIZE","gas":"0x9e21","stack":["0x1"],"storage":{},"depth":1}
{"pc":9,"op":52,"opName":"CALLVALUE","gas":"0x9e1f","stack":["0x1","0x10"],"storage":{},"depth":1}
{"pc":10,"op":52,"opName":"CALLVALUE","gas":"0x9e1d","stack":["0x1","0x10","0x0"],"storage":{},"depth":1}
{"pc":11,"op":56,"opName":"CODESIZE","gas":"0x9e1b","stack":["0x1","0x10","0x0","0x0"],"storage":{},"depth":1}
{"pc":12,"op":50,"opName":"ORIGIN","gas":"0x9e19","stack":["0x1","0x10","0x0","0x0","0x10"],"storage":{},"depth":1}
{"pc":13,"op":52,"opName":"CALLVALUE","gas":"0x9e17","stack":["0x1","0x10","0x0","0x0","0x10","0x0"],"storage":{},"depth":1}
{"pc":14,"op":57,"opName":"CODECOPY","gas":"0x9e15","stack":["0x1","0x10","0x0","0x0","0x10","0x0","0x0"],"storage":{},"depth":1}
{"pc":15,"op":240,"opName":"CREATE","gas":"0x9e0c","stack":["0x1","0x10","0x0","0x0"],"storage":{},"depth":1}
{"pc":0,"op":50,"opName":"ORIGIN","gas":"0x210c","stack":[],"storage":{},"depth":2}
{"pc":1,"op":52,"opName":"CALLVALUE","gas":"0x210a","stack":["0x0"],"storage":{},"depth":2}
{"pc":2,"op":52,"opName":"CALLVALUE","gas":"0x2108","stack":["0x0","0x0"],"storage":{},"depth":2}
{"pc":3,"op":52,"opName":"CALLVALUE","gas":"0x2106","stack":["0x0","0x0","0x0"],"storage":{},"depth":2}
{"pc":4,"op":52,"opName":"CALLVALUE","gas":"0x2104","stack":["0x0","0x0","0x0","0x0"],"storage":{},"depth":2}
{"pc":5,"op":88,"opName":"PC","gas":"0x2102","stack":["0x0","0x0","0x0","0x0","0x0"],"storage":{},"depth":2}
{"pc":6,"op":48,"opName":"ADDRESS","gas":"0x2100","stack":["0x0","0x0","0x0","0x0","0x0","0x5"],"storage":{},"depth":2}
{"pc":7,"op":241,"opName":"CALL","gas":"0x20fe","stack":["0x0","0x0","0x0","0x0","0x0","0x5","0xbd770416a3345f91e4b34576cb804a576fa48eb1"],"storage":{},"depth":2}
"#,
)
}
}