openethereum/ethcore/wasm/src/runtime.rs

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// 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 <http://www.gnu.org/licenses/>.
//! Wasm evm program runtime intstance
use std::sync::Arc;
use byteorder::{LittleEndian, ByteOrder};
use vm;
use panic_payload;
use parity_wasm::interpreter;
use wasm_utils::rules;
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use bigint::prelude::U256;
use bigint::hash::H256;
use util::Address;
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use vm::CallType;
use super::ptr::{WasmPtr, Error as PtrError};
/// User trap in native code
#[derive(Debug, Clone, PartialEq)]
pub enum UserTrap {
/// Storage read error
StorageReadError,
/// Storage update error
StorageUpdateError,
/// Memory access violation
MemoryAccessViolation,
/// Native code resulted in suicide
Suicide,
/// Suicide was requested but coudn't complete
SuicideAbort,
/// Invalid gas state inside interpreter
InvalidGasState,
/// Query of the balance resulted in an error
BalanceQueryError,
/// Failed allocation
AllocationFailed,
/// Gas limit reached
GasLimit,
/// Unknown runtime function
Unknown,
/// Passed string had invalid utf-8 encoding
BadUtf8,
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/// Log event error
Log,
/// Other error in native code
Other,
/// Panic with message
Panic(String),
}
impl ::std::fmt::Display for UserTrap {
fn fmt(&self, f: &mut ::std::fmt::Formatter) -> Result<(), ::std::fmt::Error> {
match *self {
UserTrap::StorageReadError => write!(f, "Storage read error"),
UserTrap::StorageUpdateError => write!(f, "Storage update error"),
UserTrap::MemoryAccessViolation => write!(f, "Memory access violation"),
UserTrap::SuicideAbort => write!(f, "Attempt to suicide resulted in an error"),
UserTrap::InvalidGasState => write!(f, "Invalid gas state"),
UserTrap::BalanceQueryError => write!(f, "Balance query resulted in an error"),
UserTrap::Suicide => write!(f, "Suicide result"),
UserTrap::Unknown => write!(f, "Unknown runtime function invoked"),
UserTrap::AllocationFailed => write!(f, "Memory allocation failed (OOM)"),
UserTrap::BadUtf8 => write!(f, "String encoding is bad utf-8 sequence"),
UserTrap::GasLimit => write!(f, "Invocation resulted in gas limit violated"),
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UserTrap::Log => write!(f, "Error occured while logging an event"),
UserTrap::Other => write!(f, "Other unspecified error"),
UserTrap::Panic(ref msg) => write!(f, "Panic: {}", msg),
}
}
}
impl interpreter::UserError for UserTrap { }
pub type InterpreterError = interpreter::Error<UserTrap>;
pub type InterpreterMemoryInstance = interpreter::MemoryInstance<UserTrap>;
pub type InterpreterProgramInstance = interpreter::ProgramInstance<UserTrap>;
pub type InterpreterCallerContext<'a> = interpreter::CallerContext<'a, UserTrap>;
impl From<PtrError> for UserTrap {
fn from(err: PtrError) -> Self {
match err {
PtrError::AccessViolation => UserTrap::MemoryAccessViolation,
}
}
}
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pub struct RuntimeContext {
pub address: Address,
pub sender: Address,
pub origin: Address,
pub value: U256,
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}
/// Runtime enviroment data for wasm contract execution
pub struct Runtime<'a, 'b> {
gas_counter: u64,
gas_limit: u64,
dynamic_top: u32,
ext: &'a mut vm::Ext,
memory: Arc<InterpreterMemoryInstance>,
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context: RuntimeContext,
instance: &'b InterpreterProgramInstance,
gas_rules: rules::Set,
}
impl<'a, 'b> Runtime<'a, 'b> {
/// New runtime for wasm contract with specified params
pub fn with_params<'c, 'd>(
ext: &'c mut vm::Ext,
memory: Arc<InterpreterMemoryInstance>,
stack_space: u32,
gas_limit: u64,
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context: RuntimeContext,
program_instance: &'d InterpreterProgramInstance,
) -> Runtime<'c, 'd> {
let rules = {
let schedule = ext.schedule();
rules::Set::new({
let mut vals = ::std::collections::HashMap::with_capacity(4);
vals.insert(rules::InstructionType::Load, schedule.wasm.mem as u32);
vals.insert(rules::InstructionType::Store, schedule.wasm.mem as u32);
vals.insert(rules::InstructionType::Div, schedule.wasm.div as u32);
vals.insert(rules::InstructionType::Mul, schedule.wasm.mul as u32);
vals
})
};
Runtime {
gas_counter: 0,
gas_limit: gas_limit,
dynamic_top: stack_space,
memory: memory,
ext: ext,
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context: context,
instance: program_instance,
gas_rules: rules,
}
}
/// Write to the storage from wasm memory
pub fn storage_write(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let mut context = context;
let val = self.pop_h256(&mut context)?;
let key = self.pop_h256(&mut context)?;
trace!(target: "wasm", "storage_write: value {} at @{}", &val, &key);
self.charge(|schedule| schedule.sstore_set_gas as u64)?;
self.ext.set_storage(key, val).map_err(|_| UserTrap::StorageUpdateError)?;
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Ok(None)
}
/// Read from the storage to wasm memory
pub fn storage_read(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let mut context = context;
let val_ptr = context.value_stack.pop_as::<i32>()?;
let key = self.pop_h256(&mut context)?;
let val = self.ext.storage_at(&key).map_err(|_| UserTrap::StorageReadError)?;
self.charge(|schedule| schedule.sload_gas as u64)?;
self.memory.set(val_ptr as u32, &*val)?;
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Ok(None)
}
/// Fetches balance for address
pub fn balance(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let mut context = context;
let return_ptr = context.value_stack.pop_as::<i32>()? as u32;
let address = self.pop_address(&mut context)?;
self.charge(|schedule| schedule.balance_gas as u64)?;
let balance = self.ext.balance(&address).map_err(|_| UserTrap::BalanceQueryError)?;
let value: H256 = balance.into();
self.memory.set(return_ptr, &*value)?;
Ok(None)
}
/// Pass suicide to state runtime
pub fn suicide(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let mut context = context;
let refund_address = self.pop_address(&mut context)?;
if self.ext.exists(&refund_address).map_err(|_| UserTrap::SuicideAbort)? {
trace!(target: "wasm", "Suicide: refund to existing address {}", refund_address);
self.charge(|schedule| schedule.suicide_gas as u64)?;
} else {
trace!(target: "wasm", "Suicide: refund to new address {}", refund_address);
self.charge(|schedule| schedule.suicide_to_new_account_cost as u64)?;
}
self.ext.suicide(&refund_address).map_err(|_| UserTrap::SuicideAbort)?;
// We send trap to interpreter so it should abort further execution
Err(UserTrap::Suicide.into())
}
/// Charge gas according to closure
pub fn charge<F>(&mut self, f: F) -> Result<(), InterpreterError>
where F: FnOnce(&vm::Schedule) -> u64
{
let amount = f(self.ext.schedule());
if !self.charge_gas(amount as u64) {
Err(UserTrap::GasLimit.into())
} else {
Ok(())
}
}
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pub fn overflow_charge<F>(&mut self, f: F) -> Result<(), InterpreterError>
where F: FnOnce(&vm::Schedule) -> Option<u64>
{
let amount = match f(self.ext.schedule()) {
Some(amount) => amount,
None => { return Err(UserTrap::GasLimit.into()); }
};
if !self.charge_gas(amount as u64) {
Err(UserTrap::GasLimit.into())
} else {
Ok(())
}
}
/// Invoke create in the state runtime
pub fn create(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
//
// method signature:
// fn create(endowment: *const u8, code_ptr: *const u8, code_len: u32, result_ptr: *mut u8) -> i32;
//
trace!(target: "wasm", "runtime: create contract");
let mut context = context;
let result_ptr = context.value_stack.pop_as::<i32>()? as u32;
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trace!(target: "wasm", "result_ptr: {:?}", result_ptr);
let code_len = context.value_stack.pop_as::<i32>()? as u32;
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trace!(target: "wasm", " code_len: {:?}", code_len);
let code_ptr = context.value_stack.pop_as::<i32>()? as u32;
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trace!(target: "wasm", " code_ptr: {:?}", code_ptr);
let endowment = self.pop_u256(&mut context)?;
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trace!(target: "wasm", " val: {:?}", endowment);
let code = self.memory.get(code_ptr, code_len as usize)?;
self.charge(|schedule| schedule.create_gas as u64)?;
self.charge(|schedule| schedule.create_data_gas as u64 * code.len() as u64)?;
let gas_left = self.gas_left()
.map_err(|_| UserTrap::InvalidGasState)?
.into();
match self.ext.create(&gas_left, &endowment, &code, vm::CreateContractAddress::FromSenderAndCodeHash) {
vm::ContractCreateResult::Created(address, gas_left) => {
self.memory.set(result_ptr, &*address)?;
self.gas_counter = self.gas_limit - gas_left.low_u64();
trace!(target: "wasm", "runtime: create contract success (@{:?})", address);
Ok(Some(0i32.into()))
},
vm::ContractCreateResult::Failed => {
trace!(target: "wasm", "runtime: create contract fail");
Ok(Some((-1i32).into()))
},
vm::ContractCreateResult::Reverted(gas_left, _) => {
trace!(target: "wasm", "runtime: create contract reverted");
self.gas_counter = self.gas_limit - gas_left.low_u64();
Ok(Some((-1i32).into()))
},
}
}
pub fn call(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
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{
//
// method signature:
// fn (
// address: *const u8,
// val_ptr: *const u8,
// input_ptr: *const u8,
// input_len: u32,
// result_ptr: *mut u8,
// result_len: u32,
// ) -> i32
self.do_call(true, CallType::Call, context)
}
fn call_code(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
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{
//
// signature (same as static call):
// fn (
// address: *const u8,
// input_ptr: *const u8,
// input_len: u32,
// result_ptr: *mut u8,
// result_len: u32,
// ) -> i32
self.do_call(false, CallType::CallCode, context)
}
fn do_call(
&mut self,
use_val: bool,
call_type: CallType,
context: InterpreterCallerContext,
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)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
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{
trace!(target: "wasm", "runtime: call code");
let mut context = context;
let result_alloc_len = context.value_stack.pop_as::<i32>()? as u32;
trace!(target: "wasm", " result_len: {:?}", result_alloc_len);
let result_ptr = context.value_stack.pop_as::<i32>()? as u32;
trace!(target: "wasm", " result_ptr: {:?}", result_ptr);
let input_len = context.value_stack.pop_as::<i32>()? as u32;
trace!(target: "wasm", " input_len: {:?}", input_len);
let input_ptr = context.value_stack.pop_as::<i32>()? as u32;
trace!(target: "wasm", " input_ptr: {:?}", input_ptr);
let val = if use_val { Some(self.pop_u256(&mut context)?) }
else { None };
trace!(target: "wasm", " val: {:?}", val);
let address = self.pop_address(&mut context)?;
trace!(target: "wasm", " address: {:?}", address);
if let Some(ref val) = val {
let address_balance = self.ext.balance(&self.context.address)
.map_err(|_| UserTrap::BalanceQueryError)?;
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if &address_balance < val {
trace!(target: "wasm", "runtime: call failed due to balance check");
return Ok(Some((-1i32).into()));
}
}
self.charge(|schedule| schedule.call_gas as u64)?;
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let mut result = Vec::with_capacity(result_alloc_len as usize);
result.resize(result_alloc_len as usize, 0);
let gas = self.gas_left()
.map_err(|_| UserTrap::InvalidGasState)?
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.into();
// todo: optimize to use memory views once it's in
let payload = self.memory.get(input_ptr, input_len as usize)?;
let call_result = self.ext.call(
&gas,
&self.context.sender,
&self.context.address,
val,
&payload,
&address,
&mut result[..],
call_type,
);
match call_result {
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vm::MessageCallResult::Success(gas_left, _) => {
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self.gas_counter = self.gas_limit - gas_left.low_u64();
self.memory.set(result_ptr, &result)?;
Ok(Some(0i32.into()))
},
vm::MessageCallResult::Reverted(gas_left, _) => {
self.gas_counter = self.gas_limit - gas_left.low_u64();
self.memory.set(result_ptr, &result)?;
Ok(Some((-1i32).into()))
},
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vm::MessageCallResult::Failed => {
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Ok(Some((-1i32).into()))
}
}
}
pub fn static_call(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
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{
// signature (same as code call):
// fn (
// address: *const u8,
// input_ptr: *const u8,
// input_len: u32,
// result_ptr: *mut u8,
// result_len: u32,
// ) -> i32
self.do_call(false, CallType::StaticCall, context)
}
/// Allocate memory using the wasm stack params
pub fn malloc(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let amount = context.value_stack.pop_as::<i32>()? as u32;
self.charge(|schedule| schedule.wasm.alloc as u64 * amount as u64)?;
let previous_top = self.dynamic_top;
self.dynamic_top = previous_top + amount;
Ok(Some((previous_top as i32).into()))
}
/// Allocate memory in wasm memory instance
pub fn alloc(&mut self, amount: u32) -> Result<u32, UserTrap> {
let previous_top = self.dynamic_top;
self.dynamic_top = previous_top + amount;
Ok(previous_top.into())
}
/// Report gas cost with the params passed in wasm stack
fn gas(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let amount = context.value_stack.pop_as::<i32>()? as u64;
if self.charge_gas(amount) {
Ok(None)
} else {
Err(UserTrap::GasLimit.into())
}
}
fn charge_gas(&mut self, amount: u64) -> bool {
let prev = self.gas_counter;
if prev + amount > self.gas_limit {
// exceeds gas
false
} else {
self.gas_counter = prev + amount;
true
}
}
fn h256_at(&self, ptr: WasmPtr) -> Result<H256, InterpreterError> {
Ok(H256::from_slice(&ptr.slice(32, &*self.memory)
.map_err(|_| UserTrap::MemoryAccessViolation)?
))
}
fn pop_h256(&self, context: &mut InterpreterCallerContext) -> Result<H256, InterpreterError> {
let ptr = WasmPtr::from_i32(context.value_stack.pop_as::<i32>()?)
.map_err(|_| UserTrap::MemoryAccessViolation)?;
self.h256_at(ptr)
}
fn pop_u256(&self, context: &mut InterpreterCallerContext) -> Result<U256, InterpreterError> {
let ptr = WasmPtr::from_i32(context.value_stack.pop_as::<i32>()?)
.map_err(|_| UserTrap::MemoryAccessViolation)?;
self.h256_at(ptr).map(Into::into)
}
fn address_at(&self, ptr: WasmPtr) -> Result<Address, InterpreterError> {
Ok(Address::from_slice(&ptr.slice(20, &*self.memory)
.map_err(|_| UserTrap::MemoryAccessViolation)?
))
}
fn pop_address(&self, context: &mut InterpreterCallerContext) -> Result<Address, InterpreterError> {
let ptr = WasmPtr::from_i32(context.value_stack.pop_as::<i32>()?)
.map_err(|_| UserTrap::MemoryAccessViolation)?;
self.address_at(ptr)
}
fn unknown_trap(&mut self, _context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, UserTrap>
{
Err(UserTrap::Unknown)
}
fn user_noop(&mut self,
_context: InterpreterCallerContext
) -> Result<Option<interpreter::RuntimeValue>, InterpreterError> {
Ok(None)
}
/// Write call descriptor to wasm memory
pub fn write_descriptor(&mut self, input: &[u8]) -> Result<WasmPtr, InterpreterError> {
let d_ptr = self.alloc(16)?;
let args_len = input.len() as u32;
let args_ptr = self.alloc(args_len)?;
// write call descriptor
// call descriptor is [args_ptr, args_len, return_ptr, return_len]
// all are 4 byte length, last 2 are zeroed
let mut d_buf = [0u8; 16];
LittleEndian::write_u32(&mut d_buf[0..4], args_ptr);
LittleEndian::write_u32(&mut d_buf[4..8], args_len);
self.memory.set(d_ptr, &d_buf)?;
// write call args to memory
self.memory.set(args_ptr, input)?;
Ok(d_ptr.into())
}
fn debug_log(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let msg_len = context.value_stack.pop_as::<i32>()? as u32;
let msg_ptr = context.value_stack.pop_as::<i32>()? as u32;
let msg = String::from_utf8(self.memory.get(msg_ptr, msg_len as usize)?)
.map_err(|_| UserTrap::BadUtf8)?;
trace!(target: "wasm", "Contract debug message: {}", msg);
Ok(None)
}
/// Query current gas left for execution
pub fn gas_left(&self) -> Result<u64, UserTrap> {
if self.gas_counter > self.gas_limit { return Err(UserTrap::InvalidGasState); }
Ok(self.gas_limit - self.gas_counter)
}
/// Shared memory reference
pub fn memory(&self) -> &InterpreterMemoryInstance {
&*self.memory
}
fn mem_copy(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
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//
// method signature:
// fn memcpy(dest: *const u8, src: *const u8, len: u32) -> *mut u8;
//
let len = context.value_stack.pop_as::<i32>()? as u32;
let src = context.value_stack.pop_as::<i32>()? as u32;
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let dst = context.value_stack.pop_as::<i32>()? as u32;
self.charge(|schedule| schedule.wasm.mem_copy as u64 * len as u64)?;
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self.memory().copy_nonoverlapping(src as usize, dst as usize, len as usize)?;
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Ok(Some(Into::into(dst as i32)))
}
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fn mem_move(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
//
// method signature:
// fn memmove(dest: *const u8, src: *const u8, len: u32) -> *mut u8;
//
let len = context.value_stack.pop_as::<i32>()? as u32;
let src = context.value_stack.pop_as::<i32>()? as u32;
let dst = context.value_stack.pop_as::<i32>()? as u32;
self.charge(|schedule| schedule.wasm.mem_move as u64 * len as u64)?;
self.memory().copy(src as usize, dst as usize, len as usize)?;
Ok(Some(Into::into(dst as i32)))
}
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fn mem_set(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
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//
// method signature:
// fn memset(dest: *const u8, c: u32, len: u32) -> *mut u8;
//
let len = context.value_stack.pop_as::<i32>()? as u32;
let c = context.value_stack.pop_as::<i32>()? as u32;
let dst = context.value_stack.pop_as::<i32>()? as u32;
self.charge(|schedule| schedule.wasm.mem_set as u64 * len as u64)?;
self.memory().clear(dst as usize, c as u8, len as usize)?;
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Ok(Some(Into::into(dst as i32)))
}
fn bitswap_i64(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let x = context.value_stack.pop_as::<i64>()?;
let result = x.swap_bytes();
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Ok(Some(result.into()))
}
fn user_panic(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
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let payload_len = context.value_stack.pop_as::<i32>()? as u32;
let payload_ptr = context.value_stack.pop_as::<i32>()? as u32;
let raw_payload = self.memory.get(payload_ptr, payload_len as usize)?;
let payload = panic_payload::decode(&raw_payload);
let msg = format!(
"{msg}, {file}:{line}:{col}",
msg = payload
.msg
.as_ref()
.map(String::as_ref)
.unwrap_or("<msg was stripped>"),
file = payload
.file
.as_ref()
.map(String::as_ref)
.unwrap_or("<unknown>"),
line = payload.line.unwrap_or(0),
col = payload.col.unwrap_or(0)
);
trace!(target: "wasm", "Contract custom panic message: {}", msg);
Err(UserTrap::Panic(msg).into())
}
fn block_hash(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let return_ptr = context.value_stack.pop_as::<i32>()? as u32;
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let block_num = context.value_stack.pop_as::<i64>()? as u64;
self.charge(|schedule| schedule.blockhash_gas as u64)?;
trace!("Requesting block hash for block #{}", block_num);
let hash = self.ext.blockhash(&U256::from(block_num));
self.memory.set(return_ptr, &*hash)?;
Ok(None)
}
fn return_address_ptr(&mut self, ptr: u32, val: Address) -> Result<(), InterpreterError>
{
self.charge(|schedule| schedule.wasm.static_address as u64)?;
self.memory.set(ptr, &*val)?;
Ok(())
}
fn return_u256_ptr(&mut self, ptr: u32, val: U256) -> Result<(), InterpreterError> {
let value: H256 = val.into();
self.charge(|schedule| schedule.wasm.static_u256 as u64)?;
self.memory.set(ptr, &*value)?;
Ok(())
}
fn coinbase(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let author = self.ext.env_info().author;
self.return_address_ptr(
context.value_stack.pop_as::<i32>()? as u32,
author,
)?;
Ok(None)
}
fn sender(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let sender = self.context.sender;
self.return_address_ptr(
context.value_stack.pop_as::<i32>()? as u32,
sender,
)?;
Ok(None)
}
fn address(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let addr = self.context.address;
self.return_address_ptr(
context.value_stack.pop_as::<i32>()? as u32,
addr,
)?;
Ok(None)
}
fn origin(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let origin = self.context.origin;
self.return_address_ptr(
context.value_stack.pop_as::<i32>()? as u32,
origin,
)?;
Ok(None)
}
fn value(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let value = self.context.value;
self.return_u256_ptr(
context.value_stack.pop_as::<i32>()? as u32,
value,
)?;
Ok(None)
}
fn timestamp(&mut self, _context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let timestamp = self.ext.env_info().timestamp as i64;
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Ok(Some(timestamp.into()))
}
fn block_number(&mut self, _context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
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let block_number = self.ext.env_info().number as i64;
Ok(Some(block_number.into()))
}
fn difficulty(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let difficulty = self.ext.env_info().difficulty;
self.return_u256_ptr(
context.value_stack.pop_as::<i32>()? as u32,
difficulty,
)?;
Ok(None)
}
fn ext_gas_limit(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
let gas_limit = self.ext.env_info().gas_limit;
self.return_u256_ptr(
context.value_stack.pop_as::<i32>()? as u32,
gas_limit,
)?;
Ok(None)
}
pub fn execution_params(&mut self) -> interpreter::ExecutionParams<UserTrap> {
use super::env;
let env_instance = self.instance.module("env")
.expect("Env module always exists; qed");
interpreter::ExecutionParams::with_external(
"env".into(),
Arc::new(
interpreter::env_native_module(env_instance, env::native_bindings(self))
.expect("Env module always exists; qed")
)
)
}
pub fn gas_rules(&self) -> &rules::Set {
&self.gas_rules
}
pub fn ext(&mut self) -> &mut vm::Ext {
self.ext
}
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pub fn log(&mut self, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
// signature is:
// pub fn elog(topic_ptr: *const u8, topic_count: u32, data_ptr: *const u8, data_len: u32);
let data_len = context.value_stack.pop_as::<i32>()? as u32;
let data_ptr = context.value_stack.pop_as::<i32>()? as u32;
let topic_count = context.value_stack.pop_as::<i32>()? as u32;
let topic_ptr = context.value_stack.pop_as::<i32>()? as u32;
if topic_count > 4 {
return Err(UserTrap::Log.into());
}
self.overflow_charge(|schedule|
{
let topics_gas = schedule.log_gas as u64 + schedule.log_topic_gas as u64 * topic_count as u64;
(schedule.log_data_gas as u64)
.checked_mul(schedule.log_data_gas as u64)
.and_then(|data_gas| data_gas.checked_add(topics_gas))
}
)?;
let mut topics: Vec<H256> = Vec::with_capacity(topic_count as usize);
topics.resize(topic_count as usize, H256::zero());
for i in 0..topic_count {
let offset = i.checked_mul(32).ok_or(UserTrap::MemoryAccessViolation)?
.checked_add(topic_ptr).ok_or(UserTrap::MemoryAccessViolation)?;
*topics.get_mut(i as usize)
.expect("topics is resized to `topic_count`, i is in 0..topic count iterator, get_mut uses i as an indexer, get_mut cannot fail; qed")
= H256::from(&self.memory.get(offset, 32)?[..]);
}
self.ext.log(topics, &self.memory.get(data_ptr, data_len as usize)?).map_err(|_| UserTrap::Log)?;
Ok(None)
}
}
impl<'a, 'b> interpreter::UserFunctionExecutor<UserTrap> for Runtime<'a, 'b> {
fn execute(&mut self, name: &str, context: InterpreterCallerContext)
-> Result<Option<interpreter::RuntimeValue>, InterpreterError>
{
match name {
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"_ext_malloc" => {
self.malloc(context)
},
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"_ext_free" => {
// Since it is arena allocator, free does nothing
// todo: update if changed
self.user_noop(context)
},
"_storage_read" => {
self.storage_read(context)
},
"_storage_write" => {
self.storage_write(context)
},
"_balance" => {
self.balance(context)
},
"_suicide" => {
self.suicide(context)
},
"_create" => {
self.create(context)
},
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"_ccall" => {
self.call(context)
},
"_dcall" => {
self.call_code(context)
},
"_scall" => {
self.static_call(context)
},
"_debug" => {
self.debug_log(context)
},
"gas" => {
self.gas(context)
},
"_emscripten_memcpy_big" => {
self.mem_copy(context)
},
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"_ext_memcpy" => {
self.mem_copy(context)
},
"_ext_memmove" => {
self.mem_move(context)
},
"_ext_memset" => {
self.mem_set(context)
},
"_llvm_bswap_i64" => {
self.bitswap_i64(context)
},
"_panic" => {
self.user_panic(context)
},
"_blockhash" => {
self.block_hash(context)
},
"_coinbase" => {
self.coinbase(context)
},
"_timestamp" => {
self.timestamp(context)
},
"_blocknumber" => {
self.block_number(context)
},
"_difficulty" => {
self.difficulty(context)
},
"_gaslimit" => {
self.ext_gas_limit(context)
},
"_sender" => {
self.sender(context)
},
"_address" => {
self.address(context)
},
"_origin" => {
self.origin(context)
},
"_value" => {
self.value(context)
},
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"_elog" => {
self.log(context)
},
_ => {
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trace!(target: "wasm", "Trapped due to unhandled function: '{}'", name);
Ok(self.unknown_trap(context)?)
},
}
}
}