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serenity/Userland/Libraries/LibJS/JIT/Compiler.cpp
Andreas Kling 5b198ccf32 LibJS+LibJIT: Don't turn patchable movs into xors with self 
If a mov instruction is meant to be patchable, we don't want to rewrite
it as a xor, since that removes the slot where we'd patch in the right
value later.

Also, make sure to set both size bits in the REX prefix for xoring a
register with itself.
2023-10-27 19:07:22 +02:00

990 lines
38 KiB
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/*
* Copyright (c) 2023, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/OwnPtr.h>
#include <LibJS/Bytecode/CommonImplementations.h>
#include <LibJS/Bytecode/Instruction.h>
#include <LibJS/Bytecode/Interpreter.h>
#include <LibJS/JIT/Compiler.h>
#include <LibJS/Runtime/Array.h>
#include <LibJS/Runtime/VM.h>
#include <LibJS/Runtime/ValueInlines.h>
#include <sys/mman.h>
#include <unistd.h>
#define TRY_OR_SET_EXCEPTION(expression) \
({ \
/* Ignore -Wshadow to allow nesting the macro. */ \
AK_IGNORE_DIAGNOSTIC("-Wshadow", \
auto&& _temporary_result = (expression)); \
static_assert(!::AK::Detail::IsLvalueReference<decltype(_temporary_result.release_value())>, \
"Do not return a reference from a fallible expression"); \
if (_temporary_result.is_error()) [[unlikely]] { \
vm.bytecode_interpreter().reg(Bytecode::Register::exception()) = _temporary_result.release_error().value().value(); \
return {}; \
} \
_temporary_result.release_value(); \
})
namespace JS::JIT {
void Compiler::store_vm_register(Bytecode::Register dst, Assembler::Reg src)
{
m_assembler.mov(
Assembler::Operand::Mem64BaseAndOffset(REGISTER_ARRAY_BASE, dst.index() * sizeof(Value)),
Assembler::Operand::Register(src));
}
void Compiler::load_vm_register(Assembler::Reg dst, Bytecode::Register src)
{
m_assembler.mov(
Assembler::Operand::Register(dst),
Assembler::Operand::Mem64BaseAndOffset(REGISTER_ARRAY_BASE, src.index() * sizeof(Value)));
}
void Compiler::store_vm_local(size_t dst, Assembler::Reg src)
{
m_assembler.mov(
Assembler::Operand::Mem64BaseAndOffset(LOCALS_ARRAY_BASE, dst * sizeof(Value)),
Assembler::Operand::Register(src));
}
void Compiler::load_vm_local(Assembler::Reg dst, size_t src)
{
m_assembler.mov(
Assembler::Operand::Register(dst),
Assembler::Operand::Mem64BaseAndOffset(LOCALS_ARRAY_BASE, src * sizeof(Value)));
}
void Compiler::compile_load_immediate(Bytecode::Op::LoadImmediate const& op)
{
m_assembler.mov(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Imm64(op.value().encoded()));
store_vm_register(Bytecode::Register::accumulator(), GPR0);
}
void Compiler::compile_load(Bytecode::Op::Load const& op)
{
load_vm_register(GPR0, op.src());
store_vm_register(Bytecode::Register::accumulator(), GPR0);
}
void Compiler::compile_store(Bytecode::Op::Store const& op)
{
load_vm_register(GPR0, Bytecode::Register::accumulator());
store_vm_register(op.dst(), GPR0);
}
void Compiler::compile_get_local(Bytecode::Op::GetLocal const& op)
{
load_vm_local(GPR0, op.index());
store_vm_register(Bytecode::Register::accumulator(), GPR0);
}
void Compiler::compile_set_local(Bytecode::Op::SetLocal const& op)
{
load_vm_register(GPR0, Bytecode::Register::accumulator());
store_vm_local(op.index(), GPR0);
}
void Compiler::compile_jump(Bytecode::Op::Jump const& op)
{
m_assembler.jump(label_for(op.true_target()->block()));
}
static bool cxx_to_boolean(VM&, Value value)
{
return value.to_boolean();
}
void Compiler::compile_to_boolean(Assembler::Reg dst, Assembler::Reg src)
{
// dst = src;
m_assembler.mov(
Assembler::Operand::Register(dst),
Assembler::Operand::Register(src));
// dst >>= 48;
m_assembler.shift_right(
Assembler::Operand::Register(dst),
Assembler::Operand::Imm8(48));
// if (dst != BOOLEAN_TAG) goto slow_case;
auto slow_case = m_assembler.make_label();
m_assembler.jump_if_not_equal(
Assembler::Operand::Register(dst),
Assembler::Operand::Imm32(BOOLEAN_TAG),
slow_case);
// Fast path for JS::Value booleans.
// dst = src;
m_assembler.mov(
Assembler::Operand::Register(dst),
Assembler::Operand::Register(src));
// dst &= 1;
m_assembler.bitwise_and(
Assembler::Operand::Register(dst),
Assembler::Operand::Imm32(1));
// goto end;
auto end = m_assembler.jump();
// slow_case: // call C++ helper
slow_case.link(m_assembler);
m_assembler.mov(
Assembler::Operand::Register(ARG1),
Assembler::Operand::Register(src));
m_assembler.native_call((void*)cxx_to_boolean);
m_assembler.mov(
Assembler::Operand::Register(dst),
Assembler::Operand::Register(RET));
// end:
end.link(m_assembler);
}
void Compiler::compile_jump_conditional(Bytecode::Op::JumpConditional const& op)
{
load_vm_register(GPR1, Bytecode::Register::accumulator());
compile_to_boolean(GPR0, GPR1);
m_assembler.jump_if_zero(
Assembler::Operand::Register(GPR0),
label_for(op.false_target()->block()));
m_assembler.jump(label_for(op.true_target()->block()));
}
[[maybe_unused]] static Value cxx_increment(VM& vm, Value value)
{
dbgln("cxx_increment {}", value);
auto old_value = TRY_OR_SET_EXCEPTION(value.to_numeric(vm));
if (old_value.is_number())
return Value(old_value.as_double() + 1);
return BigInt::create(vm, old_value.as_bigint().big_integer().plus(Crypto::SignedBigInteger { 1 }));
}
template<typename Codegen>
void Compiler::branch_if_int32(Assembler::Reg reg, Codegen codegen)
{
// GPR0 = reg >> 48;
m_assembler.mov(Assembler::Operand::Register(GPR0), Assembler::Operand::Register(reg));
m_assembler.shift_right(Assembler::Operand::Register(GPR0), Assembler::Operand::Imm8(48));
auto not_int32_case = m_assembler.make_label();
m_assembler.jump_if_not_equal(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Imm32(INT32_TAG),
not_int32_case);
codegen();
not_int32_case.link(m_assembler);
}
template<typename Codegen>
void Compiler::branch_if_both_int32(Assembler::Reg lhs, Assembler::Reg rhs, Codegen codegen)
{
// GPR0 = lhs >> 48;
m_assembler.mov(Assembler::Operand::Register(GPR0), Assembler::Operand::Register(lhs));
m_assembler.shift_right(Assembler::Operand::Register(GPR0), Assembler::Operand::Imm8(48));
// GPR1 = rhs >> 48;
m_assembler.mov(Assembler::Operand::Register(GPR1), Assembler::Operand::Register(rhs));
m_assembler.shift_right(Assembler::Operand::Register(GPR1), Assembler::Operand::Imm8(48));
auto not_int32_case = m_assembler.make_label();
m_assembler.jump_if_not_equal(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Imm32(INT32_TAG),
not_int32_case);
m_assembler.jump_if_not_equal(
Assembler::Operand::Register(GPR1),
Assembler::Operand::Imm32(INT32_TAG),
not_int32_case);
codegen();
not_int32_case.link(m_assembler);
}
void Compiler::compile_increment(Bytecode::Op::Increment const&)
{
load_vm_register(ARG1, Bytecode::Register::accumulator());
auto end = m_assembler.make_label();
auto slow_case = m_assembler.make_label();
branch_if_int32(ARG1, [&] {
// GPR0 = ARG1 & 0xffffffff;
m_assembler.mov(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Register(ARG1));
m_assembler.mov(
Assembler::Operand::Register(GPR1),
Assembler::Operand::Imm64(0xffffffff));
m_assembler.bitwise_and(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Register(GPR1));
// if (GPR0 == 0x7fffffff) goto slow_case;
m_assembler.jump_if_equal(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Imm32(0x7fffffff),
slow_case);
// ARG1 += 1;
m_assembler.add(
Assembler::Operand::Register(ARG1),
Assembler::Operand::Imm32(1));
// accumulator = ARG1;
store_vm_register(Bytecode::Register::accumulator(), ARG1);
m_assembler.jump(end);
});
slow_case.link(m_assembler);
m_assembler.native_call((void*)cxx_increment);
store_vm_register(Bytecode::Register::accumulator(), RET);
check_exception();
end.link(m_assembler);
}
static Value cxx_decrement(VM& vm, Value value)
{
auto old_value = TRY_OR_SET_EXCEPTION(value.to_numeric(vm));
if (old_value.is_number())
return Value(old_value.as_double() - 1);
return BigInt::create(vm, old_value.as_bigint().big_integer().minus(Crypto::SignedBigInteger { 1 }));
}
void Compiler::compile_decrement(Bytecode::Op::Decrement const&)
{
load_vm_register(ARG1, Bytecode::Register::accumulator());
m_assembler.native_call((void*)cxx_decrement);
store_vm_register(Bytecode::Register::accumulator(), RET);
check_exception();
}
void Compiler::check_exception()
{
// if (exception.is_empty()) goto no_exception;
load_vm_register(GPR0, Bytecode::Register::exception());
m_assembler.mov(Assembler::Operand::Register(GPR1), Assembler::Operand::Imm64(Value().encoded()));
auto no_exception = m_assembler.make_label();
m_assembler.jump_if_equal(Assembler::Operand::Register(GPR0), Assembler::Operand::Register(GPR1), no_exception);
// We have an exception!
// if (!unwind_context.valid) return;
auto handle_exception = m_assembler.make_label();
m_assembler.mov(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Mem64BaseAndOffset(UNWIND_CONTEXT_BASE, 0));
m_assembler.jump_if_not_equal(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Imm32(0),
handle_exception);
m_assembler.exit();
// handle_exception:
handle_exception.link(m_assembler);
// if (unwind_context.handler) {
// accumulator = exception;
// exception = Value();
// goto handler;
// }
auto no_handler = m_assembler.make_label();
m_assembler.mov(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Mem64BaseAndOffset(UNWIND_CONTEXT_BASE, 8));
m_assembler.jump_if_equal(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Imm32(0),
no_handler);
load_vm_register(GPR1, Bytecode::Register::exception());
store_vm_register(Bytecode::Register::accumulator(), GPR1);
m_assembler.mov(
Assembler::Operand::Register(GPR1),
Assembler::Operand::Imm64(Value().encoded()));
store_vm_register(Bytecode::Register::exception(), GPR1);
m_assembler.jump(Assembler::Operand::Register(GPR0));
// no_handler:
no_handler.link(m_assembler);
// if (unwind_context.finalizer) goto finalizer;
auto no_finalizer = m_assembler.make_label();
m_assembler.mov(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Mem64BaseAndOffset(UNWIND_CONTEXT_BASE, 16));
m_assembler.jump_if_equal(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Imm32(0),
no_finalizer);
m_assembler.jump(Assembler::Operand::Register(GPR0));
// no_finalizer:
// NOTE: No catch and no finally!? Crash.
no_finalizer.link(m_assembler);
m_assembler.verify_not_reached();
// no_exception:
no_exception.link(m_assembler);
}
void Compiler::push_unwind_context(bool valid, Optional<Bytecode::Label> const& handler, Optional<Bytecode::Label> const& finalizer)
{
// Put this on the stack, and then point UNWIND_CONTEXT_BASE at it.
// struct {
// u64 valid;
// u64 handler;
// u64 finalizer;
// };
// push finalizer (patched later)
m_assembler.mov(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Imm64(0),
Assembler::Patchable::Yes);
if (finalizer.has_value())
block_data_for(finalizer.value().block()).absolute_references_to_here.append(m_assembler.m_output.size() - 8);
m_assembler.push(Assembler::Operand::Register(GPR0));
// push handler (patched later)
m_assembler.mov(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Imm64(0),
Assembler::Patchable::Yes);
if (handler.has_value())
block_data_for(handler.value().block()).absolute_references_to_here.append(m_assembler.m_output.size() - 8);
m_assembler.push(Assembler::Operand::Register(GPR0));
// push valid
m_assembler.push(Assembler::Operand::Imm32(valid));
// UNWIND_CONTEXT_BASE = STACK_POINTER
m_assembler.mov(
Assembler::Operand::Register(UNWIND_CONTEXT_BASE),
Assembler::Operand::Register(STACK_POINTER));
// align stack pointer
m_assembler.sub(Assembler::Operand::Register(STACK_POINTER), Assembler::Operand::Imm8(8));
}
void Compiler::pop_unwind_context()
{
m_assembler.add(Assembler::Operand::Register(STACK_POINTER), Assembler::Operand::Imm8(32));
m_assembler.add(Assembler::Operand::Register(UNWIND_CONTEXT_BASE), Assembler::Operand::Imm8(32));
}
void Compiler::compile_enter_unwind_context(Bytecode::Op::EnterUnwindContext const& op)
{
push_unwind_context(true, op.handler_target(), op.finalizer_target());
m_assembler.jump(label_for(op.entry_point().block()));
}
void Compiler::compile_leave_unwind_context(Bytecode::Op::LeaveUnwindContext const&)
{
pop_unwind_context();
}
void Compiler::compile_throw(Bytecode::Op::Throw const&)
{
load_vm_register(GPR0, Bytecode::Register::accumulator());
store_vm_register(Bytecode::Register::exception(), GPR0);
check_exception();
}
static ThrowCompletionOr<Value> abstract_inequals(VM& vm, Value src1, Value src2)
{
return Value(!TRY(is_loosely_equal(vm, src1, src2)));
}
static ThrowCompletionOr<Value> abstract_equals(VM& vm, Value src1, Value src2)
{
return Value(TRY(is_loosely_equal(vm, src1, src2)));
}
static ThrowCompletionOr<Value> typed_inequals(VM&, Value src1, Value src2)
{
return Value(!is_strictly_equal(src1, src2));
}
static ThrowCompletionOr<Value> typed_equals(VM&, Value src1, Value src2)
{
return Value(is_strictly_equal(src1, src2));
}
#define DO_COMPILE_COMMON_BINARY_OP(TitleCaseName, snake_case_name) \
static Value cxx_##snake_case_name(VM& vm, Value lhs, Value rhs) \
{ \
return TRY_OR_SET_EXCEPTION(snake_case_name(vm, lhs, rhs)); \
} \
\
void Compiler::compile_##snake_case_name(Bytecode::Op::TitleCaseName const& op) \
{ \
load_vm_register(ARG1, op.lhs()); \
load_vm_register(ARG2, Bytecode::Register::accumulator()); \
m_assembler.native_call((void*)cxx_##snake_case_name); \
store_vm_register(Bytecode::Register::accumulator(), RET); \
check_exception(); \
}
JS_ENUMERATE_COMMON_BINARY_OPS_WITHOUT_FAST_PATH(DO_COMPILE_COMMON_BINARY_OP)
#undef DO_COMPILE_COMMON_BINARY_OP
static Value cxx_less_than(VM& vm, Value lhs, Value rhs)
{
return TRY_OR_SET_EXCEPTION(less_than(vm, lhs, rhs));
}
void Compiler::compile_less_than(Bytecode::Op::LessThan const& op)
{
load_vm_register(ARG1, op.lhs());
load_vm_register(ARG2, Bytecode::Register::accumulator());
auto end = m_assembler.make_label();
branch_if_both_int32(ARG1, ARG2, [&] {
// if (ARG1 < ARG2) return true;
// else return false;
auto true_case = m_assembler.make_label();
m_assembler.sign_extend_32_to_64_bits(ARG1);
m_assembler.sign_extend_32_to_64_bits(ARG2);
m_assembler.jump_if_less_than(
Assembler::Operand::Register(ARG1),
Assembler::Operand::Register(ARG2),
true_case);
m_assembler.mov(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Imm64(Value(false).encoded()));
store_vm_register(Bytecode::Register::accumulator(), GPR0);
m_assembler.jump(end);
true_case.link(m_assembler);
m_assembler.mov(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Imm64(Value(true).encoded()));
store_vm_register(Bytecode::Register::accumulator(), GPR0);
m_assembler.jump(end);
});
m_assembler.native_call((void*)cxx_less_than);
store_vm_register(Bytecode::Register::accumulator(), RET);
check_exception();
end.link(m_assembler);
}
static ThrowCompletionOr<Value> not_(VM&, Value value)
{
return Value(!value.to_boolean());
}
static ThrowCompletionOr<Value> typeof_(VM& vm, Value value)
{
return PrimitiveString::create(vm, value.typeof());
}
#define DO_COMPILE_COMMON_UNARY_OP(TitleCaseName, snake_case_name) \
static Value cxx_##snake_case_name(VM& vm, Value value) \
{ \
return TRY_OR_SET_EXCEPTION(snake_case_name(vm, value)); \
} \
\
void Compiler::compile_##snake_case_name(Bytecode::Op::TitleCaseName const&) \
{ \
load_vm_register(ARG1, Bytecode::Register::accumulator()); \
m_assembler.native_call((void*)cxx_##snake_case_name); \
store_vm_register(Bytecode::Register::accumulator(), RET); \
check_exception(); \
}
JS_ENUMERATE_COMMON_UNARY_OPS(DO_COMPILE_COMMON_UNARY_OP)
#undef DO_COMPILE_COMMON_UNARY_OP
void Compiler::compile_return(Bytecode::Op::Return const&)
{
load_vm_register(GPR0, Bytecode::Register::accumulator());
store_vm_register(Bytecode::Register::return_value(), GPR0);
m_assembler.exit();
}
static Value cxx_new_string(VM& vm, DeprecatedString const& string)
{
return PrimitiveString::create(vm, string);
}
void Compiler::compile_new_string(Bytecode::Op::NewString const& op)
{
auto const& string = m_bytecode_executable.string_table->get(op.index());
m_assembler.mov(
Assembler::Operand::Register(ARG1),
Assembler::Operand::Imm64(bit_cast<u64>(&string)));
m_assembler.native_call((void*)cxx_new_string);
store_vm_register(Bytecode::Register::accumulator(), RET);
}
static Value cxx_new_object(VM& vm)
{
auto& realm = *vm.current_realm();
return Object::create(realm, realm.intrinsics().object_prototype());
}
void Compiler::compile_new_object(Bytecode::Op::NewObject const&)
{
m_assembler.native_call((void*)cxx_new_object);
store_vm_register(Bytecode::Register::accumulator(), RET);
}
static Value cxx_new_array(VM& vm, size_t element_count, u32 first_register_index)
{
auto& realm = *vm.current_realm();
auto array = MUST(Array::create(realm, 0));
for (size_t i = 0; i < element_count; ++i) {
auto& value = vm.bytecode_interpreter().reg(Bytecode::Register(first_register_index + i));
array->indexed_properties().put(i, value, default_attributes);
}
return array;
}
void Compiler::compile_new_array(Bytecode::Op::NewArray const& op)
{
m_assembler.mov(
Assembler::Operand::Register(ARG1),
Assembler::Operand::Imm64(op.element_count()));
m_assembler.mov(
Assembler::Operand::Register(ARG2),
Assembler::Operand::Imm64(op.element_count() ? op.start().index() : 0));
m_assembler.native_call((void*)cxx_new_array);
store_vm_register(Bytecode::Register::accumulator(), RET);
}
Value cxx_new_function(
VM& vm,
FunctionExpression const& function_node,
Optional<Bytecode::IdentifierTableIndex> const& lhs_name,
Optional<Bytecode::Register> const& home_object)
{
return Bytecode::new_function(vm, function_node, lhs_name, home_object);
}
void Compiler::compile_new_function(Bytecode::Op::NewFunction const& op)
{
m_assembler.mov(
Assembler::Operand::Register(ARG1),
Assembler::Operand::Imm64(bit_cast<u64>(&op.function_node())));
m_assembler.mov(
Assembler::Operand::Register(ARG2),
Assembler::Operand::Imm64(bit_cast<u64>(&op.lhs_name())));
m_assembler.mov(
Assembler::Operand::Register(ARG3),
Assembler::Operand::Imm64(bit_cast<u64>(&op.home_object())));
m_assembler.native_call((void*)cxx_new_function);
store_vm_register(Bytecode::Register::accumulator(), RET);
}
static Value cxx_get_by_id(VM& vm, Value base, Bytecode::IdentifierTableIndex property, u32 cache_index)
{
return TRY_OR_SET_EXCEPTION(Bytecode::get_by_id(vm.bytecode_interpreter(), property, base, base, cache_index));
}
void Compiler::compile_get_by_id(Bytecode::Op::GetById const& op)
{
load_vm_register(ARG1, Bytecode::Register::accumulator());
m_assembler.mov(
Assembler::Operand::Register(ARG2),
Assembler::Operand::Imm64(op.property().value()));
m_assembler.mov(
Assembler::Operand::Register(ARG3),
Assembler::Operand::Imm64(op.cache_index()));
m_assembler.native_call((void*)cxx_get_by_id);
store_vm_register(Bytecode::Register::accumulator(), RET);
check_exception();
}
static Value cxx_get_by_value(VM& vm, Value base, Value property)
{
return TRY_OR_SET_EXCEPTION(Bytecode::get_by_value(vm.bytecode_interpreter(), base, property));
}
void Compiler::compile_get_by_value(Bytecode::Op::GetByValue const& op)
{
load_vm_register(ARG1, op.base());
load_vm_register(ARG2, Bytecode::Register::accumulator());
m_assembler.native_call((void*)cxx_get_by_value);
store_vm_register(Bytecode::Register::accumulator(), RET);
check_exception();
}
static Value cxx_get_global(VM& vm, Bytecode::IdentifierTableIndex identifier, u32 cache_index)
{
return TRY_OR_SET_EXCEPTION(Bytecode::get_global(vm.bytecode_interpreter(), identifier, cache_index));
}
void Compiler::compile_get_global(Bytecode::Op::GetGlobal const& op)
{
m_assembler.mov(
Assembler::Operand::Register(ARG1),
Assembler::Operand::Imm64(op.identifier().value()));
m_assembler.mov(
Assembler::Operand::Register(ARG2),
Assembler::Operand::Imm64(op.cache_index()));
m_assembler.native_call((void*)cxx_get_global);
store_vm_register(Bytecode::Register::accumulator(), RET);
check_exception();
}
static Value cxx_to_numeric(VM& vm, Value value)
{
return TRY_OR_SET_EXCEPTION(value.to_numeric(vm));
}
void Compiler::compile_to_numeric(Bytecode::Op::ToNumeric const&)
{
load_vm_register(ARG1, Bytecode::Register::accumulator());
m_assembler.native_call((void*)cxx_to_numeric);
store_vm_register(Bytecode::Register::accumulator(), RET);
check_exception();
}
static Value cxx_resolve_this_binding(VM& vm)
{
auto this_value = TRY_OR_SET_EXCEPTION(vm.resolve_this_binding());
vm.bytecode_interpreter().reg(Bytecode::Register::this_value()) = this_value;
return this_value;
}
void Compiler::compile_resolve_this_binding(Bytecode::Op::ResolveThisBinding const&)
{
// OPTIMIZATION: We cache the `this` value in a special VM register.
// So first we check if the cache is non-empty, and if so,
// we can avoid calling out to C++ at all. :^)
load_vm_register(GPR0, Bytecode::Register::this_value());
m_assembler.mov(
Assembler::Operand::Register(GPR1),
Assembler::Operand::Imm64(Value().encoded()));
auto slow_case = m_assembler.make_label();
m_assembler.jump_if_equal(
Assembler::Operand::Register(GPR0),
Assembler::Operand::Register(GPR1),
slow_case);
// Fast case: We have a cached `this` value!
store_vm_register(Bytecode::Register::accumulator(), GPR0);
auto end = m_assembler.jump();
slow_case.link(m_assembler);
m_assembler.native_call((void*)cxx_resolve_this_binding);
store_vm_register(Bytecode::Register::accumulator(), RET);
check_exception();
end.link(m_assembler);
}
static Value cxx_put_by_id(VM& vm, Value base, Bytecode::IdentifierTableIndex property, Value value, Bytecode::Op::PropertyKind kind)
{
PropertyKey name = vm.bytecode_interpreter().current_executable().get_identifier(property);
TRY_OR_SET_EXCEPTION(Bytecode::put_by_property_key(vm, base, base, value, name, kind));
vm.bytecode_interpreter().accumulator() = value;
return {};
}
void Compiler::compile_put_by_id(Bytecode::Op::PutById const& op)
{
load_vm_register(ARG1, op.base());
m_assembler.mov(
Assembler::Operand::Register(ARG2),
Assembler::Operand::Imm64(op.property().value()));
load_vm_register(ARG3, Bytecode::Register::accumulator());
m_assembler.mov(
Assembler::Operand::Register(ARG4),
Assembler::Operand::Imm64(to_underlying(op.kind())));
m_assembler.native_call((void*)cxx_put_by_id);
check_exception();
}
static Value cxx_put_by_value(VM& vm, Value base, Value property, Value value, Bytecode::Op::PropertyKind kind)
{
TRY_OR_SET_EXCEPTION(Bytecode::put_by_value(vm, base, property, value, kind));
vm.bytecode_interpreter().accumulator() = value;
return {};
}
void Compiler::compile_put_by_value(Bytecode::Op::PutByValue const& op)
{
load_vm_register(ARG1, op.base());
load_vm_register(ARG2, op.property());
load_vm_register(ARG3, Bytecode::Register::accumulator());
m_assembler.mov(
Assembler::Operand::Register(ARG4),
Assembler::Operand::Imm64(to_underlying(op.kind())));
m_assembler.native_call((void*)cxx_put_by_value);
check_exception();
}
static Value cxx_call(VM& vm, Value callee, u32 first_argument_index, u32 argument_count, Value this_value, Bytecode::Op::CallType call_type)
{
// FIXME: Get the expression_string() here as well.
TRY_OR_SET_EXCEPTION(throw_if_needed_for_call(vm.bytecode_interpreter(), callee, call_type, {}));
MarkedVector<Value> argument_values(vm.heap());
argument_values.ensure_capacity(argument_count);
for (u32 i = 0; i < argument_count; ++i) {
argument_values.unchecked_append(vm.bytecode_interpreter().reg(Bytecode::Register { first_argument_index + i }));
}
return TRY_OR_SET_EXCEPTION(perform_call(vm.bytecode_interpreter(), this_value, call_type, callee, move(argument_values)));
}
void Compiler::compile_call(Bytecode::Op::Call const& op)
{
load_vm_register(ARG1, op.callee());
m_assembler.mov(
Assembler::Operand::Register(ARG2),
Assembler::Operand::Imm64(op.first_argument().index()));
m_assembler.mov(
Assembler::Operand::Register(ARG3),
Assembler::Operand::Imm64(op.argument_count()));
load_vm_register(ARG4, op.this_value());
m_assembler.mov(
Assembler::Operand::Register(ARG5),
Assembler::Operand::Imm64(to_underlying(op.call_type())));
m_assembler.native_call((void*)cxx_call);
store_vm_register(Bytecode::Register::accumulator(), RET);
check_exception();
}
static Value cxx_typeof_variable(VM& vm, DeprecatedFlyString const& identifier)
{
return TRY_OR_SET_EXCEPTION(Bytecode::typeof_variable(vm, identifier));
}
void Compiler::compile_typeof_variable(Bytecode::Op::TypeofVariable const& op)
{
m_assembler.mov(
Assembler::Operand::Register(ARG1),
Assembler::Operand::Imm64(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.identifier().value()))));
m_assembler.native_call((void*)cxx_typeof_variable);
store_vm_register(Bytecode::Register::accumulator(), RET);
check_exception();
}
static Value cxx_set_variable(
VM& vm,
DeprecatedFlyString const& identifier,
Value value,
Bytecode::Op::EnvironmentMode environment_mode,
Bytecode::Op::SetVariable::InitializationMode initialization_mode)
{
TRY_OR_SET_EXCEPTION(Bytecode::set_variable(vm, identifier, value, environment_mode, initialization_mode));
return {};
}
void Compiler::compile_set_variable(Bytecode::Op::SetVariable const& op)
{
m_assembler.mov(
Assembler::Operand::Register(ARG1),
Assembler::Operand::Imm64(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.identifier().value()))));
load_vm_register(ARG2, Bytecode::Register::accumulator());
m_assembler.mov(
Assembler::Operand::Register(ARG3),
Assembler::Operand::Imm64(to_underlying(op.mode())));
m_assembler.mov(
Assembler::Operand::Register(ARG4),
Assembler::Operand::Imm64(to_underlying(op.initialization_mode())));
m_assembler.native_call((void*)cxx_set_variable);
check_exception();
}
OwnPtr<NativeExecutable> Compiler::compile(Bytecode::Executable& bytecode_executable)
{
if (getenv("LIBJS_NO_JIT"))
return nullptr;
Compiler compiler { bytecode_executable };
compiler.m_assembler.enter();
compiler.m_assembler.mov(
Assembler::Operand::Register(REGISTER_ARRAY_BASE),
Assembler::Operand::Register(ARG1));
compiler.m_assembler.mov(
Assembler::Operand::Register(LOCALS_ARRAY_BASE),
Assembler::Operand::Register(ARG2));
compiler.push_unwind_context(false, {}, {});
for (auto& block : bytecode_executable.basic_blocks) {
compiler.block_data_for(*block).start_offset = compiler.m_output.size();
auto it = Bytecode::InstructionStreamIterator(block->instruction_stream());
while (!it.at_end()) {
auto const& op = *it;
switch (op.type()) {
case Bytecode::Instruction::Type::LoadImmediate:
compiler.compile_load_immediate(static_cast<Bytecode::Op::LoadImmediate const&>(op));
break;
case Bytecode::Instruction::Type::Store:
compiler.compile_store(static_cast<Bytecode::Op::Store const&>(op));
break;
case Bytecode::Instruction::Type::Load:
compiler.compile_load(static_cast<Bytecode::Op::Load const&>(op));
break;
case Bytecode::Instruction::Type::GetLocal:
compiler.compile_get_local(static_cast<Bytecode::Op::GetLocal const&>(op));
break;
case Bytecode::Instruction::Type::SetLocal:
compiler.compile_set_local(static_cast<Bytecode::Op::SetLocal const&>(op));
break;
case Bytecode::Instruction::Type::Jump:
compiler.compile_jump(static_cast<Bytecode::Op::Jump const&>(op));
break;
case Bytecode::Instruction::Type::JumpConditional:
compiler.compile_jump_conditional(static_cast<Bytecode::Op::JumpConditional const&>(op));
break;
case Bytecode::Instruction::Type::Increment:
compiler.compile_increment(static_cast<Bytecode::Op::Increment const&>(op));
break;
case Bytecode::Instruction::Type::Decrement:
compiler.compile_decrement(static_cast<Bytecode::Op::Decrement const&>(op));
break;
case Bytecode::Instruction::Type::EnterUnwindContext:
compiler.compile_enter_unwind_context(static_cast<Bytecode::Op::EnterUnwindContext const&>(op));
break;
case Bytecode::Instruction::Type::LeaveUnwindContext:
compiler.compile_leave_unwind_context(static_cast<Bytecode::Op::LeaveUnwindContext const&>(op));
break;
case Bytecode::Instruction::Type::Throw:
compiler.compile_throw(static_cast<Bytecode::Op::Throw const&>(op));
break;
case Bytecode::Instruction::Type::Return:
compiler.compile_return(static_cast<Bytecode::Op::Return const&>(op));
break;
case Bytecode::Instruction::Type::NewString:
compiler.compile_new_string(static_cast<Bytecode::Op::NewString const&>(op));
break;
case Bytecode::Instruction::Type::NewObject:
compiler.compile_new_object(static_cast<Bytecode::Op::NewObject const&>(op));
break;
case Bytecode::Instruction::Type::NewArray:
compiler.compile_new_array(static_cast<Bytecode::Op::NewArray const&>(op));
break;
case Bytecode::Instruction::Type::NewFunction:
compiler.compile_new_function(static_cast<Bytecode::Op::NewFunction const&>(op));
break;
case Bytecode::Instruction::Type::GetById:
compiler.compile_get_by_id(static_cast<Bytecode::Op::GetById const&>(op));
break;
case Bytecode::Instruction::Type::GetByValue:
compiler.compile_get_by_value(static_cast<Bytecode::Op::GetByValue const&>(op));
break;
case Bytecode::Instruction::Type::GetGlobal:
compiler.compile_get_global(static_cast<Bytecode::Op::GetGlobal const&>(op));
break;
case Bytecode::Instruction::Type::PutById:
compiler.compile_put_by_id(static_cast<Bytecode::Op::PutById const&>(op));
break;
case Bytecode::Instruction::Type::PutByValue:
compiler.compile_put_by_value(static_cast<Bytecode::Op::PutByValue const&>(op));
break;
case Bytecode::Instruction::Type::ToNumeric:
compiler.compile_to_numeric(static_cast<Bytecode::Op::ToNumeric const&>(op));
break;
case Bytecode::Instruction::Type::ResolveThisBinding:
compiler.compile_resolve_this_binding(static_cast<Bytecode::Op::ResolveThisBinding const&>(op));
break;
case Bytecode::Instruction::Type::Call:
compiler.compile_call(static_cast<Bytecode::Op::Call const&>(op));
break;
case Bytecode::Instruction::Type::TypeofVariable:
compiler.compile_typeof_variable(static_cast<Bytecode::Op::TypeofVariable const&>(op));
break;
case Bytecode::Instruction::Type::SetVariable:
compiler.compile_set_variable(static_cast<Bytecode::Op::SetVariable const&>(op));
break;
case Bytecode::Instruction::Type::LessThan:
compiler.compile_less_than(static_cast<Bytecode::Op::LessThan const&>(op));
break;
#define DO_COMPILE_COMMON_BINARY_OP(TitleCaseName, snake_case_name) \
case Bytecode::Instruction::Type::TitleCaseName: \
compiler.compile_##snake_case_name(static_cast<Bytecode::Op::TitleCaseName const&>(op)); \
break;
JS_ENUMERATE_COMMON_BINARY_OPS_WITHOUT_FAST_PATH(DO_COMPILE_COMMON_BINARY_OP)
#undef DO_COMPILE_COMMON_BINARY_OP
#define DO_COMPILE_COMMON_UNARY_OP(TitleCaseName, snake_case_name) \
case Bytecode::Instruction::Type::TitleCaseName: \
compiler.compile_##snake_case_name(static_cast<Bytecode::Op::TitleCaseName const&>(op)); \
break;
JS_ENUMERATE_COMMON_UNARY_OPS(DO_COMPILE_COMMON_UNARY_OP)
#undef DO_COMPILE_COMMON_UNARY_OP
default:
dbgln("\033[31;1mJIT compilation failed\033[0m: {}", bytecode_executable.name);
dbgln("Unsupported bytecode op: {}", op.to_deprecated_string(bytecode_executable));
return nullptr;
}
++it;
}
if (!block->is_terminated())
compiler.m_assembler.exit();
}
auto* executable_memory = mmap(nullptr, compiler.m_output.size(), PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_PRIVATE, 0, 0);
if (executable_memory == MAP_FAILED) {
perror("mmap");
return nullptr;
}
for (auto& block : bytecode_executable.basic_blocks) {
auto& block_data = compiler.block_data_for(*block);
block_data.label.link_to(compiler.m_assembler, block_data.start_offset);
// Patch up all the absolute references
for (auto& absolute_reference : block_data.absolute_references_to_here) {
auto offset = bit_cast<u64>(executable_memory) + block_data.start_offset;
compiler.m_output[absolute_reference + 0] = (offset >> 0) & 0xff;
compiler.m_output[absolute_reference + 1] = (offset >> 8) & 0xff;
compiler.m_output[absolute_reference + 2] = (offset >> 16) & 0xff;
compiler.m_output[absolute_reference + 3] = (offset >> 24) & 0xff;
compiler.m_output[absolute_reference + 4] = (offset >> 32) & 0xff;
compiler.m_output[absolute_reference + 5] = (offset >> 40) & 0xff;
compiler.m_output[absolute_reference + 6] = (offset >> 48) & 0xff;
compiler.m_output[absolute_reference + 7] = (offset >> 56) & 0xff;
}
}
size_t res = write(STDOUT_FILENO, compiler.m_output.data(), compiler.m_output.size());
if (!res) { }
memcpy(executable_memory, compiler.m_output.data(), compiler.m_output.size());
mprotect(executable_memory, compiler.m_output.size(), PROT_READ | PROT_EXEC);
dbgln("\033[32;1mJIT compilation succeeded!\033[0m {}", bytecode_executable.name);
return make<NativeExecutable>(executable_memory, compiler.m_output.size());
}
}
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