Handling all possible overflows
This commit is contained in:
Tomusdrw
parent
1414fe28b9
commit
4df5f0ca31
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@ -27,6 +27,14 @@ fn color(instruction: Instruction, name: &'static str) -> String {
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format!("\x1B[1;{}m{}\x1B[0m", colors[c], name)
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}
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macro_rules! overflowing {
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($x: expr) => {{
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let (v, overflow) = $x;
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if overflow { return Err(evm::Error::OutOfGas); }
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v
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}}
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}
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type CodePosition = usize;
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type Gas = U256;
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type ProgramCounter = usize;
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@ -385,14 +393,10 @@ impl Interpreter {
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InstructionCost::GasMem(default_gas, self.mem_needed(stack.peek(0), stack.peek(1)))
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},
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instructions::SHA3 => {
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match add_u256_usize(stack.peek(1), 31) {
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(_w, true) => InstructionCost::GasMem(U256::zero(), RequiredMem::OutOfMemory),
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(w, false) => {
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let words = w >> 5;
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let gas = U256::from(schedule.sha3_gas) + (U256::from(schedule.sha3_word_gas) * words);
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InstructionCost::GasMem(gas, self.mem_needed(stack.peek(0), stack.peek(1)))
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}
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}
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let w = overflowing!(add_u256_usize(stack.peek(1), 31));
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let words = w >> 5;
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let gas = U256::from(schedule.sha3_gas) + (U256::from(schedule.sha3_word_gas) * words);
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InstructionCost::GasMem(gas, self.mem_needed(stack.peek(0), stack.peek(1)))
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},
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instructions::CALLDATACOPY => {
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InstructionCost::GasMemCopy(default_gas, self.mem_needed(stack.peek(0), stack.peek(2)), stack.peek(2).clone())
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@ -409,46 +413,37 @@ impl Interpreter {
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instructions::LOG0...instructions::LOG4 => {
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let no_of_topics = instructions::get_log_topics(instruction);
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let log_gas = schedule.log_gas + schedule.log_topic_gas * no_of_topics;
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// TODO [todr] potential overflow of datagass
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let data_gas = stack.peek(1).clone() * U256::from(schedule.log_data_gas);
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let gas = try!(self.gas_add(data_gas, U256::from(log_gas)));
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let data_gas = overflowing!(stack.peek(1).overflowing_mul(U256::from(schedule.log_data_gas)));
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let gas = overflowing!(data_gas.overflowing_add(U256::from(log_gas)));
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InstructionCost::GasMem(gas, self.mem_needed(stack.peek(0), stack.peek(1)))
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},
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instructions::CALL | instructions::CALLCODE => {
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match add_u256_usize(stack.peek(0), schedule.call_gas) {
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(_gas, true) => InstructionCost::GasMem(U256::zero(), RequiredMem::OutOfMemory),
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(mut gas, false) => {
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let mem = self.mem_max(
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self.mem_needed(stack.peek(5), stack.peek(6)),
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self.mem_needed(stack.peek(3), stack.peek(4))
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);
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let address = u256_to_address(stack.peek(1));
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let mut gas = overflowing!(add_u256_usize(stack.peek(0), schedule.call_gas));
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let mem = self.mem_max(
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self.mem_needed(stack.peek(5), stack.peek(6)),
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self.mem_needed(stack.peek(3), stack.peek(4))
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);
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let address = u256_to_address(stack.peek(1));
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// TODO [todr] Potential overflows
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if instruction == instructions::CALL && !ext.exists(&address) {
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gas = gas + U256::from(schedule.call_new_account_gas);
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};
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if instruction == instructions::CALL && !ext.exists(&address) {
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gas = overflowing!(gas.overflowing_add(U256::from(schedule.call_new_account_gas)));
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};
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if stack.peek(2).clone() > U256::zero() {
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gas = gas + U256::from(schedule.call_value_transfer_gas)
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};
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if stack.peek(2).clone() > U256::zero() {
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gas = overflowing!(gas.overflowing_add(U256::from(schedule.call_value_transfer_gas)));
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};
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InstructionCost::GasMem(gas,mem)
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}
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}
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InstructionCost::GasMem(gas,mem)
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},
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instructions::DELEGATECALL => {
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match add_u256_usize(stack.peek(0), schedule.call_gas) {
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(_gas, true) => InstructionCost::GasMem(U256::zero(), RequiredMem::OutOfMemory),
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(gas, false) => {
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let mem = self.mem_max(
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self.mem_needed(stack.peek(4), stack.peek(5)),
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self.mem_needed(stack.peek(2), stack.peek(3))
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);
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InstructionCost::GasMem(gas, mem)
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}
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}
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let gas = overflowing!(add_u256_usize(stack.peek(0), schedule.call_gas));
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let mem = self.mem_max(
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self.mem_needed(stack.peek(4), stack.peek(5)),
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self.mem_needed(stack.peek(2), stack.peek(3))
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);
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InstructionCost::GasMem(gas, mem)
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},
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instructions::CREATE => {
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let gas = U256::from(schedule.create_gas);
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@ -471,7 +466,7 @@ impl Interpreter {
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InstructionCost::GasMem(gas, mem_size) => match mem_size {
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RequiredMem::Mem(mem_size) => {
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let (mem_gas, new_mem_size) = self.mem_gas_cost(schedule, mem.size(), &mem_size);
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let gas = try!(self.gas_add(gas, mem_gas));
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let gas = overflowing!(gas.overflowing_add(mem_gas));
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Ok((gas, new_mem_size))
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},
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RequiredMem::OutOfMemory => Err(evm::Error::OutOfGas)
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@ -479,27 +474,17 @@ impl Interpreter {
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InstructionCost::GasMemCopy(gas, mem_size, copy) => match mem_size {
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RequiredMem::Mem(mem_size) => {
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let (mem_gas, new_mem_size) = self.mem_gas_cost(schedule, mem.size(), &mem_size);
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match add_u256_usize(©, 31) {
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(_c, true) => Err(evm::Error::OutOfGas),
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(copy, false) => {
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let copy_gas = U256::from(schedule.copy_gas) * (copy / U256::from(32));
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let gas = try!(self.gas_add(try!(self.gas_add(gas, copy_gas)), mem_gas));
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Ok((gas, new_mem_size))
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}
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}
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let copy = overflowing!(add_u256_usize(©, 31));
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let copy_gas = U256::from(schedule.copy_gas) * (copy / U256::from(32));
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let gas = overflowing!(gas.overflowing_add(copy_gas));
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let gas = overflowing!(gas.overflowing_add(mem_gas));
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Ok((gas, new_mem_size))
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},
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RequiredMem::OutOfMemory => Err(evm::Error::OutOfGas)
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}
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}
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}
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fn gas_add(&self, a: U256, b: U256) -> Result<U256, evm::Error> {
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match a.overflowing_add(b) {
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(_val, true) => Err(evm::Error::OutOfGas),
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(val, false) => Ok(val)
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}
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}
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fn mem_gas_cost(&self, schedule: &evm::Schedule, current_mem_size: usize, mem_size: &U256) -> (U256, usize) {
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let gas_for_mem = |mem_size: U256| {
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let s = mem_size >> 5;
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@ -924,23 +909,21 @@ impl Interpreter {
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instructions::DIV => {
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let a = stack.pop_back();
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let b = stack.pop_back();
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stack.push(match !self.is_zero(&b) {
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true => {
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let (c, _overflow) = a.overflowing_div(b);
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c
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},
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false => U256::zero()
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stack.push(if !self.is_zero(&b) {
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let (c, _overflow) = a.overflowing_div(b);
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c
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} else {
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U256::zero()
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});
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},
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instructions::MOD => {
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let a = stack.pop_back();
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let b = stack.pop_back();
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stack.push(match !self.is_zero(&b) {
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true => {
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let (c, _overflow) = a.overflowing_rem(b);
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c
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},
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false => U256::zero()
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stack.push(if !self.is_zero(&b) {
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let (c, _overflow) = a.overflowing_rem(b);
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c
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} else {
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U256::zero()
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});
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},
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instructions::SDIV => {
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