public override string ToString()
{
return($"({GetType().Name} (pc {pc}) {function} (parameters {WebAssemblyHelper.ToString(parameters)}) (locals {WebAssemblyHelper.ToString(locals)}))");
}
public override string ToString()
{
return($"({GetType().Name} (is_in_module {is_in_module}) (is_export {is_export}) (module {module}) (name {name}) (return {return_type?.ToString() ?? "void"}) (parameters {WebAssemblyHelper.ToString(parameters)}) (locals {WebAssemblyHelper.ToString(locals)}))");
}
// TODO: Can now transform Execute from a recursive function into an iterative function
// Each time a new "frame" is added, we just update activation_object and func
// ctx records the current pc so when we go back
// Simply need to inline the Invoke method into Execute
private void Execute()
{
try
{
ActivationObject activation_object = ctx.GetCurrentFunction();
FunctionInstance func = activation_object.function;
byte[] code = func.code;
logger.Info($"Entering Execute with function {func.module}.{func.name}.");
logger.ConditionalTrace($"Function returns: {func.return_type}.");
logger.ConditionalTrace("Function parameters: {0}.", WebAssemblyHelper.ToString(func.parameters, ", "));
logger.ConditionalTrace("Function arguments: {0}.", WebAssemblyHelper.ToString(activation_object.parameters, ", "));
logger.ConditionalTrace("Function locals: {0}.", WebAssemblyHelper.ToString(func.locals, ", "));
//WebAssemblyHelper.ReinterpretHelper reinterpret_helper = new WebAssemblyHelper.ReinterpretHelper();
bool continue_executing = true;
// https://webassembly.github.io/spec/core/exec/instructions.html
while (continue_executing)
{
logger.ConditionalTrace($"PC = {activation_object.pc}.");
logger.Debug($"Executing: {(WebAssemblyOpcode)code[activation_object.pc]}.");
switch ((WebAssemblyOpcode)code[activation_object.pc])
{
case WebAssemblyOpcode.UNREACHABLE:
{
Trap("Unreachable reached!");
break;
}
case WebAssemblyOpcode.NOP:
{
break;
}
case WebAssemblyOpcode.END:
{
continue_executing = false;
break;
}
case WebAssemblyOpcode.LOOP:
{
// ignore result for now
activation_object.pc++;
var result = (WebAssemblyType)code[activation_object.pc];
Enter(new LabelObject(0, activation_object.pc - 2));
break;
}
case WebAssemblyOpcode.BR:
{
uint l = LEB128.ReadUInt32(code, ref activation_object.pc);
Exit(l);
break;
}
case WebAssemblyOpcode.BR_IF:
{
ValueObject c = GetValueOfTypeOrFail(WebAssemblyType.i32);
if (c.AsI32() != 0)
{
goto case WebAssemblyOpcode.BR;
}
break;
}
case WebAssemblyOpcode.LOCAL_GET:
{
uint local = LEB128.ReadUInt32(code, ref activation_object.pc);
if (local > func.locals.Length)
{
Trap("Function corrupt.");
}
ctx.Push(activation_object.locals[local]);
break;
}
case WebAssemblyOpcode.LOCAL_SET:
{
uint local = LEB128.ReadUInt32(code, ref activation_object.pc);
if (local > func.locals.Length)
{
Trap("Function corrupt.");
}
ValueObject val = GetValueOrFail();
activation_object.locals[local] = val;
break;
}
case WebAssemblyOpcode.LOCAL_TEE:
{
ValueObject val = GetValueOrFail();
ctx.Push(val);
ctx.Push(val);
goto case WebAssemblyOpcode.LOCAL_SET;
}
case WebAssemblyOpcode.I32_CONST:
{
ctx.Push(new ValueObject(LEB128.ReadUInt32(code, ref activation_object.pc)));
break;
}
case WebAssemblyOpcode.I64_CONST:
{
ctx.Push(new ValueObject(LEB128.ReadUInt64(code, ref activation_object.pc)));
break;
}
case WebAssemblyOpcode.F32_CONST:
{
ctx.Push(new ValueObject(BitConverter.ToSingle(code, (int)activation_object.pc + 1)));
activation_object.pc += 4;
break;
}
case WebAssemblyOpcode.F64_CONST:
{
ctx.Push(new ValueObject(BitConverter.ToDouble(code, (int)activation_object.pc + 1)));
activation_object.pc += 7;
break;
}
case WebAssemblyOpcode.I32_LOAD:
{
var(memory, location) = LoadOrFail(code, 32, ref activation_object.pc);
ctx.Push(new ValueObject(BitConverter.ToUInt32(memory, location)));
break;
}
case WebAssemblyOpcode.I64_LOAD:
{
var(memory, location) = LoadOrFail(code, 64, ref activation_object.pc);
ctx.Push(new ValueObject(BitConverter.ToUInt64(memory, location)));
break;
}
case WebAssemblyOpcode.F32_LOAD:
{
var(memory, location) = LoadOrFail(code, 32, ref activation_object.pc);
ctx.Push(new ValueObject(BitConverter.ToSingle(memory, location)));
break;
}
case WebAssemblyOpcode.F64_LOAD:
{
var(memory, location) = LoadOrFail(code, 64, ref activation_object.pc);
ctx.Push(new ValueObject(BitConverter.ToDouble(memory, location)));
break;
}
case WebAssemblyOpcode.I32_LOAD8_S:
{
var(memory, location) = LoadOrFail(code, 8, ref activation_object.pc);
ctx.Push(new ValueObject((uint)(sbyte)memory[location]));
break;
}
case WebAssemblyOpcode.I32_LOAD8_U:
{
var(memory, location) = LoadOrFail(code, 8, ref activation_object.pc);
ctx.Push(new ValueObject((uint)memory[location]));
break;
}
case WebAssemblyOpcode.I32_LOAD16_S:
{
var(memory, location) = LoadOrFail(code, 16, ref activation_object.pc);
ctx.Push(new ValueObject((uint)BitConverter.ToInt16(memory, (int)activation_object.pc)));
break;
}
case WebAssemblyOpcode.I32_LOAD16_U:
{
var(memory, location) = LoadOrFail(code, 16, ref activation_object.pc);
ctx.Push(new ValueObject(BitConverter.ToUInt16(memory, (int)activation_object.pc)));
break;
}
case WebAssemblyOpcode.I64_LOAD8_S:
{
var(memory, location) = LoadOrFail(code, 8, ref activation_object.pc);
ctx.Push(new ValueObject((ulong)(sbyte)memory[location]));
break;
}
case WebAssemblyOpcode.I64_LOAD8_U:
{
var(memory, location) = LoadOrFail(code, 8, ref activation_object.pc);
ctx.Push(new ValueObject((ulong)memory[location]));
break;
}
case WebAssemblyOpcode.I64_LOAD16_S:
{
var(memory, location) = LoadOrFail(code, 16, ref activation_object.pc);
ctx.Push(new ValueObject((ulong)BitConverter.ToInt16(memory, (int)activation_object.pc)));
break;
}
case WebAssemblyOpcode.I64_LOAD16_U:
{
var(memory, location) = LoadOrFail(code, 16, ref activation_object.pc);
ctx.Push(new ValueObject((ulong)BitConverter.ToUInt16(memory, (int)activation_object.pc)));
break;
}
case WebAssemblyOpcode.I64_LOAD32_S:
{
var(memory, location) = LoadOrFail(code, 32, ref activation_object.pc);
ctx.Push(new ValueObject((ulong)BitConverter.ToInt32(memory, (int)activation_object.pc)));
break;
}
case WebAssemblyOpcode.I64_LOAD32_U:
{
var(memory, location) = LoadOrFail(code, 32, ref activation_object.pc);
ctx.Push(new ValueObject((ulong)BitConverter.ToUInt32(memory, (int)activation_object.pc)));
break;
}
case WebAssemblyOpcode.I32_STORE:
{
var(value, memory, location) = StoreOrFail(code, 32, WebAssemblyType.i32, ref activation_object.pc);
Array.Copy(BitConverter.GetBytes(value.AsI32()), 0, memory, location, 32 / 8);
break;
}
case WebAssemblyOpcode.I64_STORE:
{
var(value, memory, location) = StoreOrFail(code, 64, WebAssemblyType.i64, ref activation_object.pc);
Array.Copy(BitConverter.GetBytes(value.AsI64()), 0, memory, location, 64 / 8);
break;
}
case WebAssemblyOpcode.F32_STORE:
{
var(value, memory, location) = StoreOrFail(code, 32, WebAssemblyType.f32, ref activation_object.pc);
Array.Copy(BitConverter.GetBytes(value.AsF32()), 0, memory, location, 32 / 8);
break;
}
case WebAssemblyOpcode.F64_STORE:
{
var(value, memory, location) = StoreOrFail(code, 64, WebAssemblyType.f64, ref activation_object.pc);
Array.Copy(BitConverter.GetBytes(value.AsF64()), 0, memory, location, 64 / 8);
break;
}
case WebAssemblyOpcode.I32_STORE8:
{
var(value, memory, location) = StoreOrFail(code, 32, WebAssemblyType.i32, ref activation_object.pc);
memory[location] = (byte)value.AsI32();
break;
}
case WebAssemblyOpcode.I32_STORE16:
{
var(value, memory, location) = StoreOrFail(code, 32, WebAssemblyType.i32, ref activation_object.pc);
Array.Copy(BitConverter.GetBytes((ushort)value.AsI32()), 0, memory, location, 16 / 8);
break;
}
case WebAssemblyOpcode.I64_STORE8:
{
var(value, memory, location) = StoreOrFail(code, 64, WebAssemblyType.i64, ref activation_object.pc);
memory[location] = (byte)value.AsI64();
break;
}
case WebAssemblyOpcode.I64_STORE16:
{
var(value, memory, location) = StoreOrFail(code, 64, WebAssemblyType.i64, ref activation_object.pc);
Array.Copy(BitConverter.GetBytes((ushort)value.AsI64()), 0, memory, location, 16 / 8);
break;
}
case WebAssemblyOpcode.I64_STORE32:
{
var(value, memory, location) = StoreOrFail(code, 64, WebAssemblyType.i64, ref activation_object.pc);
Array.Copy(BitConverter.GetBytes((uint)value.AsI64()), 0, memory, location, 32 / 8);
break;
}
case WebAssemblyOpcode.MEMORY_SIZE:
{
ctx.Push(new ValueObject((uint)ctx.linear_memory[0].pages));
break;
}
case WebAssemblyOpcode.MEMORY_GROW:
{
ValueObject n = GetValueOfTypeOrFail(WebAssemblyType.i32);
if (ctx.linear_memory[0].GrowMemory(n.AsI32()))
{
ctx.Push(n);
}
else
{
ctx.Push(new ValueObject(unchecked ((uint)-1)));
}
break;
}
case WebAssemblyOpcode.CALL:
{
uint new_func = LEB128.ReadUInt32(code, ref activation_object.pc);
ctx.Push(Invoke(new_func));
break;
}
case WebAssemblyOpcode.DROP:
{
GetValueOrFail();
break;
}
case WebAssemblyOpcode.SELECT:
{
ValueObject c = GetValueOfTypeOrFail(WebAssemblyType.i32);
ValueObject val2 = GetValueOrFail();
ValueObject val1 = GetValueOrFail();
ctx.Push(c.AsI32() != 0 ? val1 : val2);
break;
}
default:
{
Trap($"Unknown Opcode {code[activation_object.pc]}.");
break;
}
}
activation_object.pc++;
}
}
catch (WebAssemblyTrap)
{
throw;
}
catch (Exception ex)
{
logger.Debug(ex.StackTrace);
Trap("Unexpected Error: " + ex.Message);
}
}