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env -> ext

This commit is contained in:
debris 2016-01-07 19:20:23 +01:00
parent 146999cfbf
commit ec720aefa9
5 changed files with 132 additions and 148 deletions
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160
rust-evmjit/src/lib.rs
View File

@ -7,11 +7,32 @@
//! use evmjit::*;
//!
//! fn main() {
//! let mut context = ContextHandle::new(RuntimeDataHandle::new(), EnvHandle::empty());
//! let mut context = ContextHandle::new(RuntimeDataHandle::new(), ExtHandle::empty());
//! assert_eq!(context.exec(), ReturnCode::Stop);
//! }
//!
//! ```
//!
//!
//! To verify that c abi is "imported" correctly, run:
//!
//! ```bash
//! nm your_executable -g | grep ext
//! ```
//!
//! It should give the following output:
//!
//! ```bash
//! 00000001000779e0 T _ext_balance
//! 0000000100077a10 T _ext_blockhash
//! 0000000100077a90 T _ext_call
//! 0000000100077a40 T _ext_create
//! 0000000100077b50 T _ext_extcode
//! 0000000100077b80 T _ext_log
//! 0000000100077b20 T _ext_sha3
//! 0000000100077980 T _ext_sload
//! 00000001000779b0 T _ext_sstore
//! ```
extern crate tiny_keccak;
@ -74,15 +95,14 @@ pub struct ContextHandle {
impl ContextHandle {
/// Creates new context handle.
/// This function is unsafe cause env lifetime is not considered
pub unsafe fn new(data_handle: RuntimeDataHandle, env: &mut EnvHandle) -> Self {
import_evmjit_abi();
/// This function is unsafe cause ext lifetime is not considered
pub unsafe fn new(data_handle: RuntimeDataHandle, ext: &mut ExtHandle) -> Self {
let mut handle = ContextHandle {
context: std::mem::uninitialized(),
data_handle: data_handle,
};
handle.context = evmjit_create_context(handle.data_handle.mut_runtime_data(), env);
handle.context = evmjit_create_context(handle.data_handle.mut_runtime_data(), ext);
handle
}
@ -98,8 +118,8 @@ impl Drop for ContextHandle {
}
}
/// Component oriented wrapper around jit env c interface.
pub trait Env {
/// Component oriented wrapper around jit ext c interface.
pub trait Ext {
fn sload(&self, index: *const JitI256, out_value: *mut JitI256);
fn sstore(&mut self, index: *const JitI256, value: *const JitI256);
fn balance(&self, address: *const JitH256, out_value: *mut JitI256);
@ -134,39 +154,39 @@ pub trait Env {
fn extcode(&self, address: *const JitH256, size: *mut u64) -> *const u8;
}
/// C abi compatible wrapper for jit env implementers.
pub struct EnvHandle {
env_impl: Option<Box<Env>>
/// C abi compatible wrapper for jit ext implementers.
pub struct ExtHandle {
ext_impl: Option<Box<Ext>>
}
impl EnvHandle {
/// Creates new environment wrapper for given implementation
pub fn new<T>(env_impl: T) -> Self where T: Env + 'static {
EnvHandle { env_impl: Some(Box::new(env_impl)) }
impl ExtHandle {
/// Creates new extironment wrapper for given implementation
pub fn new<T>(ext_impl: T) -> Self where T: Ext + 'static {
ExtHandle { ext_impl: Some(Box::new(ext_impl)) }
}
/// Creates empty environment.
/// Creates empty extironment.
/// It can be used to for any operations.
pub fn empty() -> Self {
EnvHandle { env_impl: None }
ExtHandle { ext_impl: None }
}
}
impl Deref for EnvHandle {
type Target = Box<Env>;
impl Deref for ExtHandle {
type Target = Box<Ext>;
fn deref(&self) -> &Self::Target {
match self.env_impl {
Some(ref env) => env,
match self.ext_impl {
Some(ref ext) => ext,
None => { panic!("Handle is empty!"); }
}
}
}
impl DerefMut for EnvHandle {
impl DerefMut for ExtHandle {
fn deref_mut(&mut self) -> &mut Self::Target {
match self.env_impl {
Some(ref mut env) => env,
match self.ext_impl {
Some(ref mut ext) => ext,
None => { panic!("Handle is empty!"); }
}
}
@ -256,79 +276,43 @@ pub mod ffi {
pub code_hash: JitI256
}
/// Dumb function to "import" c abi in libraries
/// which inherit from this library.
///
/// It needs to be compiled as a part of main executable.
///
/// To verify that c abi is "imported" correctly, run:
///
/// ```bash
/// nm your_executable -g | grep env
/// ```
///
/// It should give the following output:
///
/// ```bash
/// 00000001000779e0 T _env_balance
/// 0000000100077a10 T _env_blockhash
/// 0000000100077a90 T _env_call
/// 0000000100077a40 T _env_create
/// 0000000100077b50 T _env_extcode
/// 0000000100077b80 T _env_log
/// 0000000100077b20 T _env_sha3
/// 0000000100077980 T _env_sload
/// 00000001000779b0 T _env_sstore
/// ```
pub fn import_evmjit_abi() {
let _env_sload = env_sload;
let _env_sstore = env_sstore;
let _env_balance = env_balance;
let _env_blockhash = env_blockhash;
let _env_create = env_create;
let _env_call = env_call;
let _env_sha3 = env_sha3;
let _env_extcode = env_extcode;
let _env_log = env_log;
#[no_mangle]
pub unsafe extern "C" fn env_sload(ext: *const ExtHandle, index: *const JitI256, out_value: *mut JitI256) {
let ext = &*ext;
ext.sload(index, out_value);
}
#[no_mangle]
pub unsafe extern "C" fn env_sload(env: *const EnvHandle, index: *const JitI256, out_value: *mut JitI256) {
let env = &*env;
env.sload(index, out_value);
pub unsafe extern "C" fn env_sstore(ext: *mut ExtHandle, index: *mut JitI256, value: *mut JitI256) {
let ext = &mut *ext;
ext.sstore(index, value);
}
#[no_mangle]
pub unsafe extern "C" fn env_sstore(env: *mut EnvHandle, index: *mut JitI256, value: *mut JitI256) {
let env = &mut *env;
env.sstore(index, value);
pub unsafe extern "C" fn env_balance(ext: *const ExtHandle, address: *const JitH256, out_value: *mut JitI256) {
let ext = &*ext;
ext.balance(address, out_value);
}
#[no_mangle]
pub unsafe extern "C" fn env_balance(env: *const EnvHandle, address: *const JitH256, out_value: *mut JitI256) {
let env = &*env;
env.balance(address, out_value);
pub unsafe extern "C" fn env_blockhash(ext: *const ExtHandle, number: *const JitI256, out_hash: *mut JitH256) {
let ext = &*ext;
ext.blockhash(number, out_hash);
}
#[no_mangle]
pub unsafe extern "C" fn env_blockhash(env: *const EnvHandle, number: *const JitI256, out_hash: *mut JitH256) {
let env = &*env;
env.blockhash(number, out_hash);
}
#[no_mangle]
pub unsafe extern "C" fn env_create(env: *mut EnvHandle,
pub unsafe extern "C" fn env_create(ext: *mut ExtHandle,
io_gas: *mut u64,
endowment: *const JitI256,
init_beg: *const u8,
init_size: u64,
address: *mut JitH256) {
let env = &mut *env;
env.create(io_gas, endowment, init_beg, init_size, address);
let ext = &mut *ext;
ext.create(io_gas, endowment, init_beg, init_size, address);
}
#[no_mangle]
pub unsafe extern "C" fn env_call(env: *mut EnvHandle,
pub unsafe extern "C" fn env_call(ext: *mut ExtHandle,
io_gas: *mut u64,
call_gas: u64,
receive_address: *const JitH256,
@ -338,8 +322,8 @@ pub mod ffi {
out_beg: *mut u8,
out_size: u64,
code_address: *const JitH256) -> bool {
let env = &mut *env;
env.call(io_gas, call_gas, receive_address, value, in_beg, in_size, out_beg, out_size, code_address)
let ext = &mut *ext;
ext.call(io_gas, call_gas, receive_address, value, in_beg, in_size, out_beg, out_size, code_address)
}
#[no_mangle]
@ -354,21 +338,21 @@ pub mod ffi {
}
#[no_mangle]
pub unsafe extern "C" fn env_extcode(env: *const EnvHandle, address: *const JitH256, size: *mut u64) -> *const u8 {
let env = &*env;
env.extcode(address, size)
pub unsafe extern "C" fn env_extcode(ext: *const ExtHandle, address: *const JitH256, size: *mut u64) -> *const u8 {
let ext = &*ext;
ext.extcode(address, size)
}
#[no_mangle]
pub unsafe extern "C" fn env_log(env: *mut EnvHandle,
pub unsafe extern "C" fn env_log(ext: *mut ExtHandle,
beg: *const u8,
size: u64,
topic1: *const JitH256,
topic2: *const JitH256,
topic3: *const JitH256,
topic4: *const JitH256) {
let env = &mut *env;
env.log(beg, size, topic1, topic2, topic3, topic4);
let ext = &mut *ext;
ext.log(beg, size, topic1, topic2, topic3, topic4);
}
@ -381,10 +365,10 @@ pub mod ffi {
}
#[link(name="evmjit")]
// EnvHandle does not have to by a C type
// ExtHandle does not have to by a C type
#[allow(improper_ctypes)]
extern "C" {
pub fn evmjit_create_context(data: *mut JitRuntimeData, env: *mut EnvHandle) -> *mut JitContext;
pub fn evmjit_create_context(data: *mut JitRuntimeData, ext: *mut ExtHandle) -> *mut JitContext;
}
}
@ -392,7 +376,7 @@ pub mod ffi {
fn ffi_test() {
unsafe {
let data = evmjit_create_runtime_data();
let context = evmjit_create_context(data, &mut EnvHandle::empty());
let context = evmjit_create_context(data, &mut ExtHandle::empty());
let code = evmjit_exec(context);
assert_eq!(code, JitReturnCode::Stop);
@ -405,7 +389,7 @@ fn ffi_test() {
#[test]
fn handle_test() {
unsafe {
let mut context = ContextHandle::new(RuntimeDataHandle::new(), &mut EnvHandle::empty());
let mut context = ContextHandle::new(RuntimeDataHandle::new(), &mut ExtHandle::empty());
assert_eq!(context.exec(), ReturnCode::Stop);
}
}

4
src/evm/evm.rs
View File

@ -1,6 +1,6 @@
//! Evm interface.
use evm::{RuntimeData, Env};
use evm::{RuntimeData, Ext};
#[derive(Debug, Eq, PartialEq)]
pub enum ReturnCode {
@ -12,5 +12,5 @@ pub enum ReturnCode {
}
pub trait Evm {
fn exec(&self, data: RuntimeData, env: &mut Env) -> ReturnCode;
fn exec(&self, data: RuntimeData, ext: &mut Ext) -> ReturnCode;
}

8
src/evm/env.rs → src/evm/ext.rs
View File

@ -44,17 +44,17 @@ impl SubState {
/// let mut env = Env::new(EnvInfo::new(), State::new_temp(), address);
/// }
/// ```
pub struct Env {
pub struct Ext {
info: EnvInfo,
state: State,
address: Address,
substate: SubState
}
impl Env {
impl Ext {
/// Creates new evm environment object with backing state.
pub fn new(info: EnvInfo, state: State, address: Address) -> Env {
Env {
pub fn new(info: EnvInfo, state: State, address: Address) -> Ext {
Ext {
info: info,
state: state,
address: address,

104
src/evm/jit.rs
View File

@ -119,37 +119,37 @@ impl IntoJit<evmjit::RuntimeDataHandle> for evm::RuntimeData {
}
}
struct EnvAdapter<'a> {
env: &'a mut evm::Env
struct ExtAdapter<'a> {
ext: &'a mut evm::Ext
}
impl<'a> EnvAdapter<'a> {
fn new(env: &'a mut evm::Env) -> Self {
EnvAdapter {
env: env
impl<'a> ExtAdapter<'a> {
fn new(ext: &'a mut evm::Ext) -> Self {
ExtAdapter {
ext: ext
}
}
}
impl<'a> evmjit::Env for EnvAdapter<'a> {
impl<'a> evmjit::Ext for ExtAdapter<'a> {
fn sload(&self, index: *const evmjit::I256, out_value: *mut evmjit::I256) {
unsafe {
let i = H256::from_jit(&*index);
let o = self.env.sload(&i);
let o = self.ext.sload(&i);
*out_value = o.into_jit();
}
}
fn sstore(&mut self, index: *const evmjit::I256, value: *const evmjit::I256) {
unsafe {
self.env.sstore(H256::from_jit(&*index), H256::from_jit(&*value));
self.ext.sstore(H256::from_jit(&*index), H256::from_jit(&*value));
}
}
fn balance(&self, address: *const evmjit::H256, out_value: *mut evmjit::I256) {
unsafe {
let a = Address::from_jit(&*address);
let o = self.env.balance(&a);
let o = self.ext.balance(&a);
*out_value = o.into_jit();
}
}
@ -157,7 +157,7 @@ impl<'a> evmjit::Env for EnvAdapter<'a> {
fn blockhash(&self, number: *const evmjit::I256, out_hash: *mut evmjit::H256) {
unsafe {
let n = U256::from_jit(&*number);
let o = self.env.blockhash(&n);
let o = self.ext.blockhash(&n);
*out_hash = o.into_jit();
}
}
@ -169,7 +169,7 @@ impl<'a> evmjit::Env for EnvAdapter<'a> {
init_size: u64,
address: *mut evmjit::H256) {
unsafe {
let (addr, gas) = self.env.create(*io_gas, &U256::from_jit(&*endowment), slice::from_raw_parts(init_beg, init_size as usize));
let (addr, gas) = self.ext.create(*io_gas, &U256::from_jit(&*endowment), slice::from_raw_parts(init_beg, init_size as usize));
*io_gas = gas;
*address = addr.into_jit();
}
@ -186,7 +186,7 @@ impl<'a> evmjit::Env for EnvAdapter<'a> {
out_size: u64,
code_address: *const evmjit::H256) -> bool {
unsafe {
let opt = self.env.call(*io_gas,
let opt = self.ext.call(*io_gas,
call_gas,
&Address::from_jit(&*receive_address),
&U256::from_jit(&*value),
@ -232,13 +232,13 @@ impl<'a> evmjit::Env for EnvAdapter<'a> {
}
let bytes_ref: &[u8] = slice::from_raw_parts(beg, size as usize);
self.env.log(topics, bytes_ref.to_vec());
self.ext.log(topics, bytes_ref.to_vec());
}
}
fn extcode(&self, address: *const evmjit::H256, size: *mut u64) -> *const u8 {
unsafe {
let code = self.env.extcode(&Address::from_jit(&*address));
let code = self.ext.extcode(&Address::from_jit(&*address));
*size = code.len() as u64;
let ptr = code.as_ptr();
mem::forget(code);
@ -262,11 +262,11 @@ impl From<evmjit::ReturnCode> for evm::ReturnCode {
pub struct JitEvm;
impl evm::Evm for JitEvm {
fn exec(&self, data: evm::RuntimeData, env: &mut evm::Env) -> evm::ReturnCode {
fn exec(&self, data: evm::RuntimeData, ext: &mut evm::Ext) -> evm::ReturnCode {
// Dirty hack. This is unsafe, but we interact with ffi, so it's justified.
let env_adapter: EnvAdapter<'static> = unsafe { ::std::mem::transmute(EnvAdapter::new(env)) };
let mut env_handle = evmjit::EnvHandle::new(env_adapter);
let mut context = unsafe { evmjit::ContextHandle::new(data.into_jit(), &mut env_handle) };
let ext_adapter: ExtAdapter<'static> = unsafe { ::std::mem::transmute(ExtAdapter::new(ext)) };
let mut ext_handle = evmjit::ExtHandle::new(ext_adapter);
let mut context = unsafe { evmjit::ContextHandle::new(data.into_jit(), &mut ext_handle) };
From::from(context.exec())
}
}
@ -314,49 +314,49 @@ mod tests {
}
#[test]
fn test_env_add() {
fn test_ext_add() {
let address = Address::from_str("0f572e5295c57f15886f9b263e2f6d2d6c7b5ec6").unwrap();
let mut data = RuntimeData::new();
data.address = address.clone();
data.gas = 0x174876e800;
data.code = "7fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff7fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff01600055".from_hex().unwrap();
let mut env = Env::new(EnvInfo::new(), State::new_temp(), address.clone());
let mut ext = Ext::new(EnvInfo::new(), State::new_temp(), address.clone());
let evm = JitEvm;
assert_eq!(evm.exec(data, &mut env), ReturnCode::Stop);
let state = env.state();
assert_eq!(evm.exec(data, &mut ext), ReturnCode::Stop);
let state = ext.state();
assert_eq!(state.storage_at(&address, &H256::new()),
H256::from_str("fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffe").unwrap());
}
#[test]
fn test_env_sha3_0() {
fn test_ext_sha3_0() {
let address = Address::from_str("0f572e5295c57f15886f9b263e2f6d2d6c7b5ec6").unwrap();
let mut data = RuntimeData::new();
data.address = address.clone();
data.gas = 0x174876e800;
data.code = "6000600020600055".from_hex().unwrap();
let mut env = Env::new(EnvInfo::new(), State::new_temp(), address.clone());
let mut ext = Ext::new(EnvInfo::new(), State::new_temp(), address.clone());
let evm = JitEvm;
assert_eq!(evm.exec(data, &mut env), ReturnCode::Stop);
let state = env.state();
assert_eq!(evm.exec(data, &mut ext), ReturnCode::Stop);
let state = ext.state();
assert_eq!(state.storage_at(&address, &H256::new()),
H256::from_str("c5d2460186f7233c927e7db2dcc703c0e500b653ca82273b7bfad8045d85a470").unwrap());
}
#[test]
fn test_env_sha3_1() {
fn test_ext_sha3_1() {
let address = Address::from_str("0f572e5295c57f15886f9b263e2f6d2d6c7b5ec6").unwrap();
let mut data = RuntimeData::new();
data.address = address.clone();
data.gas = 0x174876e800;
data.code = "6005600420600055".from_hex().unwrap();
let mut env = Env::new(EnvInfo::new(), State::new_temp(), address.clone());
let mut ext = Ext::new(EnvInfo::new(), State::new_temp(), address.clone());
let evm = JitEvm;
assert_eq!(evm.exec(data, &mut env), ReturnCode::Stop);
let state = env.state();
assert_eq!(evm.exec(data, &mut ext), ReturnCode::Stop);
let state = ext.state();
assert_eq!(state.storage_at(&address, &H256::new()),
H256::from_str("c41589e7559804ea4a2080dad19d876a024ccb05117835447d72ce08c1d020ec").unwrap());
}
@ -370,10 +370,10 @@ mod tests {
data.gas = 0x174876e800;
data.code = "32600055".from_hex().unwrap();
let mut env = Env::new(EnvInfo::new(), State::new_temp(), address.clone());
let mut ext = Ext::new(EnvInfo::new(), State::new_temp(), address.clone());
let evm = JitEvm;
assert_eq!(evm.exec(data, &mut env), ReturnCode::Stop);
let state = env.state();
assert_eq!(evm.exec(data, &mut ext), ReturnCode::Stop);
let state = ext.state();
assert_eq!(Address::from(state.storage_at(&address, &H256::new())), address.clone());
}
@ -386,10 +386,10 @@ mod tests {
data.gas = 0x174876e800;
data.code = "33600055".from_hex().unwrap();
let mut env = Env::new(EnvInfo::new(), State::new_temp(), address.clone());
let mut ext = Ext::new(EnvInfo::new(), State::new_temp(), address.clone());
let evm = JitEvm;
assert_eq!(evm.exec(data, &mut env), ReturnCode::Stop);
let state = env.state();
assert_eq!(evm.exec(data, &mut ext), ReturnCode::Stop);
let state = ext.state();
assert_eq!(Address::from(state.storage_at(&address, &H256::new())), address.clone());
}
@ -420,10 +420,10 @@ mod tests {
let mut state = State::new_temp();
state.set_code(&address, address_code);
state.set_code(&caller, caller_code);
let mut env = Env::new(EnvInfo::new(), state, caller.clone());
let mut ext = Ext::new(EnvInfo::new(), state, caller.clone());
let evm = JitEvm;
assert_eq!(evm.exec(data, &mut env), ReturnCode::Stop);
let state = env.state();
assert_eq!(evm.exec(data, &mut ext), ReturnCode::Stop);
let state = ext.state();
assert_eq!(state.storage_at(&caller, &H256::new()),
H256::from_str("6005600055000000000000000000000000000000000000000000000000000000").unwrap());
}
@ -439,10 +439,10 @@ mod tests {
let mut state = State::new_temp();
state.add_balance(&address, &U256::from(0x10));
let mut env = Env::new(EnvInfo::new(), state, address.clone());
let mut ext = Ext::new(EnvInfo::new(), state, address.clone());
let evm = JitEvm;
assert_eq!(evm.exec(data, &mut env), ReturnCode::Stop);
let state = env.state();
assert_eq!(evm.exec(data, &mut ext), ReturnCode::Stop);
let state = ext.state();
assert_eq!(state.storage_at(&address, &H256::new()), H256::from(&U256::from(0x10)));
}
@ -455,10 +455,10 @@ mod tests {
data.gas = 0x174876e800;
data.code = "60006000a0".from_hex().unwrap();
let mut env = Env::new(EnvInfo::new(), State::new_temp(), address.clone());
let mut ext = Ext::new(EnvInfo::new(), State::new_temp(), address.clone());
let evm = JitEvm;
assert_eq!(evm.exec(data, &mut env), ReturnCode::Stop);
let logs = env.logs();
assert_eq!(evm.exec(data, &mut ext), ReturnCode::Stop);
let logs = ext.logs();
assert_eq!(logs.len(), 1);
let log = &logs[0];
assert_eq!(log.address(), &address);
@ -483,10 +483,10 @@ mod tests {
data.gas = 0x174876e800;
data.code = "60ff6000533360206000a1".from_hex().unwrap();
let mut env = Env::new(EnvInfo::new(), State::new_temp(), address.clone());
let mut ext = Ext::new(EnvInfo::new(), State::new_temp(), address.clone());
let evm = JitEvm;
assert_eq!(evm.exec(data, &mut env), ReturnCode::Stop);
let logs = env.logs();
assert_eq!(evm.exec(data, &mut ext), ReturnCode::Stop);
let logs = ext.logs();
assert_eq!(logs.len(), 1);
let log = &logs[0];
assert_eq!(log.address(), &address);
@ -509,10 +509,10 @@ mod tests {
let mut info = EnvInfo::new();
info.number = U256::one();
info.last_hashes.push(H256::from(address.clone()));
let mut env = Env::new(info, State::new_temp(), address.clone());
let mut ext = Ext::new(info, State::new_temp(), address.clone());
let evm = JitEvm;
assert_eq!(evm.exec(data, &mut env), ReturnCode::Stop);
let state = env.state();
assert_eq!(evm.exec(data, &mut ext), ReturnCode::Stop);
let state = ext.state();
assert_eq!(state.storage_at(&address, &H256::new()), H256::from(address.clone()));
}
}

4
src/evm/mod.rs
View File

@ -1,6 +1,6 @@
//! Ethereum virtual machine.
pub mod env;
pub mod ext;
pub mod runtime_data;
pub mod evm;
pub mod vmfactory;
@ -10,6 +10,6 @@ pub mod executive;
mod jit;
pub use self::evm::{Evm, ReturnCode};
pub use self::env::Env;
pub use self::ext::Ext;
pub use self::runtime_data::RuntimeData;
pub use self::logentry::LogEntry;