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ladybird/Userland/Libraries/LibJS/Bytecode/Generator.h
Timothy Flynn 9bbd3103a8 LibJS: Include identifier information in nullish property read access 
When a GetById / GetByValue bytecode operation results in accessing a
nullish object, we now include the name of the property and the object
being accessed in the exception message (if available). This should make
it easier to debug live websites.

For example, the following errors would all previously produce a generic
error message of "ToObject on null or undefined":

  > foo = null
  > foo.bar
  Uncaught exception:
  [TypeError] Cannot access property "bar" on null object "foo"
      at <unknown>

  > foo = { bar: undefined }
  > foo.bar.baz
  Uncaught exception:
  [TypeError] Cannot access property "baz" on undefined object "foo.bar"
      at <unknown>

Note we certainly don't capture all possible nullish property read
accesses here. This just covers cases I've seen most on live websites;
we can cover more cases as they arise.
2024-03-29 21:57:19 +01:00

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/*
* Copyright (c) 2021-2024, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/OwnPtr.h>
#include <AK/SinglyLinkedList.h>
#include <LibJS/AST.h>
#include <LibJS/Bytecode/BasicBlock.h>
#include <LibJS/Bytecode/CodeGenerationError.h>
#include <LibJS/Bytecode/Executable.h>
#include <LibJS/Bytecode/IdentifierTable.h>
#include <LibJS/Bytecode/Label.h>
#include <LibJS/Bytecode/Op.h>
#include <LibJS/Bytecode/Register.h>
#include <LibJS/Bytecode/StringTable.h>
#include <LibJS/Forward.h>
#include <LibJS/Runtime/FunctionKind.h>
#include <LibRegex/Regex.h>
namespace JS::Bytecode {
class Generator {
public:
VM& vm() { return m_vm; }
enum class SurroundingScopeKind {
Global,
Function,
Block,
};
static CodeGenerationErrorOr<NonnullGCPtr<Executable>> generate(VM&, ASTNode const&, ReadonlySpan<FunctionParameter> parameters, FunctionKind = FunctionKind::Normal);
Register allocate_register();
void set_local_initialized(u32 local_index);
[[nodiscard]] bool is_local_initialized(u32 local_index) const;
class SourceLocationScope {
public:
SourceLocationScope(Generator&, ASTNode const& node);
~SourceLocationScope();
private:
Generator& m_generator;
ASTNode const* m_previous_node { nullptr };
};
class UnwindContext {
public:
UnwindContext(Generator&, Optional<Label> finalizer);
UnwindContext const* previous() const { return m_previous_context; }
void set_handler(Label handler) { m_handler = handler; }
Optional<Label> handler() const { return m_handler; }
Optional<Label> finalizer() const { return m_finalizer; }
~UnwindContext();
private:
Generator& m_generator;
Optional<Label> m_finalizer;
Optional<Label> m_handler {};
UnwindContext const* m_previous_context { nullptr };
};
template<typename OpType, typename... Args>
void emit(Args&&... args)
{
VERIFY(!is_current_block_terminated());
size_t slot_offset = m_current_basic_block->size();
grow(sizeof(OpType));
void* slot = m_current_basic_block->data() + slot_offset;
new (slot) OpType(forward<Args>(args)...);
if constexpr (OpType::IsTerminator)
m_current_basic_block->terminate({});
auto* op = static_cast<OpType*>(slot);
op->set_source_record({ m_current_ast_node->start_offset(), m_current_ast_node->end_offset() });
}
template<typename OpType, typename ExtraSlotType, typename... Args>
void emit_with_extra_slots(size_t extra_slot_count, Args&&... args)
{
VERIFY(!is_current_block_terminated());
size_t size_to_allocate = round_up_to_power_of_two(sizeof(OpType) + extra_slot_count * sizeof(ExtraSlotType), alignof(void*));
size_t slot_offset = m_current_basic_block->size();
grow(size_to_allocate);
void* slot = m_current_basic_block->data() + slot_offset;
new (slot) OpType(forward<Args>(args)...);
if constexpr (OpType::IsTerminator)
m_current_basic_block->terminate({});
auto* op = static_cast<OpType*>(slot);
op->set_source_record({ m_current_ast_node->start_offset(), m_current_ast_node->end_offset() });
}
template<typename OpType, typename... Args>
void emit_with_extra_operand_slots(size_t extra_operand_slots, Args&&... args)
{
emit_with_extra_slots<OpType, Operand>(extra_operand_slots, forward<Args>(args)...);
}
template<typename OpType, typename... Args>
void emit_with_extra_value_slots(size_t extra_operand_slots, Args&&... args)
{
emit_with_extra_slots<OpType, Value>(extra_operand_slots, forward<Args>(args)...);
}
struct ReferenceOperands {
Optional<Operand> base {}; // [[Base]]
Optional<Operand> referenced_name {}; // [[ReferencedName]] as an operand
Optional<IdentifierTableIndex> referenced_identifier {}; // [[ReferencedName]] as an identifier
Optional<IdentifierTableIndex> referenced_private_identifier {}; // [[ReferencedName]] as a private identifier
Optional<Operand> this_value {}; // [[ThisValue]]
Optional<Operand> loaded_value {}; // Loaded value, if we've performed a load.
};
CodeGenerationErrorOr<ReferenceOperands> emit_load_from_reference(JS::ASTNode const&, Optional<Operand> preferred_dst = {});
CodeGenerationErrorOr<void> emit_store_to_reference(JS::ASTNode const&, Operand value);
CodeGenerationErrorOr<void> emit_store_to_reference(ReferenceOperands const&, Operand value);
CodeGenerationErrorOr<Optional<Operand>> emit_delete_reference(JS::ASTNode const&);
CodeGenerationErrorOr<ReferenceOperands> emit_super_reference(MemberExpression const&);
void emit_set_variable(JS::Identifier const& identifier, Operand value, Bytecode::Op::SetVariable::InitializationMode initialization_mode = Bytecode::Op::SetVariable::InitializationMode::Set, Bytecode::Op::EnvironmentMode mode = Bytecode::Op::EnvironmentMode::Lexical);
void push_home_object(Operand);
void pop_home_object();
void emit_new_function(Operand dst, JS::FunctionExpression const&, Optional<IdentifierTableIndex> lhs_name);
CodeGenerationErrorOr<Optional<Operand>> emit_named_evaluation_if_anonymous_function(Expression const&, Optional<IdentifierTableIndex> lhs_name, Optional<Operand> preferred_dst = {});
void begin_continuable_scope(Label continue_target, Vector<DeprecatedFlyString> const& language_label_set);
void end_continuable_scope();
void begin_breakable_scope(Label breakable_target, Vector<DeprecatedFlyString> const& language_label_set);
void end_breakable_scope();
[[nodiscard]] Label nearest_continuable_scope() const;
[[nodiscard]] Label nearest_breakable_scope() const;
void switch_to_basic_block(BasicBlock& block)
{
m_current_basic_block = &block;
}
[[nodiscard]] BasicBlock& current_block() { return *m_current_basic_block; }
BasicBlock& make_block(String name = {})
{
if (name.is_empty())
name = MUST(String::number(m_next_block++));
auto block = BasicBlock::create(name);
if (auto const* context = m_current_unwind_context) {
if (context->handler().has_value())
block->set_handler(context->handler().value().block());
if (m_current_unwind_context->finalizer().has_value())
block->set_finalizer(context->finalizer().value().block());
}
m_root_basic_blocks.append(move(block));
return *m_root_basic_blocks.last();
}
bool is_current_block_terminated() const
{
return m_current_basic_block->is_terminated();
}
StringTableIndex intern_string(ByteString string)
{
return m_string_table->insert(move(string));
}
RegexTableIndex intern_regex(ParsedRegex regex)
{
return m_regex_table->insert(move(regex));
}
IdentifierTableIndex intern_identifier(DeprecatedFlyString string)
{
return m_identifier_table->insert(move(string));
}
Optional<IdentifierTableIndex> intern_identifier_for_expression(Expression const& expression);
bool is_in_generator_or_async_function() const { return m_enclosing_function_kind == FunctionKind::Async || m_enclosing_function_kind == FunctionKind::Generator || m_enclosing_function_kind == FunctionKind::AsyncGenerator; }
bool is_in_generator_function() const { return m_enclosing_function_kind == FunctionKind::Generator || m_enclosing_function_kind == FunctionKind::AsyncGenerator; }
bool is_in_async_function() const { return m_enclosing_function_kind == FunctionKind::Async || m_enclosing_function_kind == FunctionKind::AsyncGenerator; }
bool is_in_async_generator_function() const { return m_enclosing_function_kind == FunctionKind::AsyncGenerator; }
enum class BindingMode {
Lexical,
Var,
Global,
};
struct LexicalScope {
SurroundingScopeKind kind;
};
void block_declaration_instantiation(ScopeNode const&);
void begin_variable_scope();
void end_variable_scope();
enum class BlockBoundaryType {
Break,
Continue,
Unwind,
ReturnToFinally,
LeaveLexicalEnvironment,
};
template<typename OpType>
void perform_needed_unwinds()
requires(OpType::IsTerminator && !IsSame<OpType, Op::Jump>)
{
for (size_t i = m_boundaries.size(); i > 0; --i) {
auto boundary = m_boundaries[i - 1];
using enum BlockBoundaryType;
switch (boundary) {
case Unwind:
if constexpr (IsSame<OpType, Bytecode::Op::Throw>)
return;
emit<Bytecode::Op::LeaveUnwindContext>();
break;
case LeaveLexicalEnvironment:
emit<Bytecode::Op::LeaveLexicalEnvironment>();
break;
case Break:
case Continue:
break;
case ReturnToFinally:
return;
};
}
}
void generate_break();
void generate_break(DeprecatedFlyString const& break_label);
void generate_continue();
void generate_continue(DeprecatedFlyString const& continue_label);
void start_boundary(BlockBoundaryType type) { m_boundaries.append(type); }
void end_boundary(BlockBoundaryType type)
{
VERIFY(m_boundaries.last() == type);
m_boundaries.take_last();
}
void emit_get_by_id(Operand dst, Operand base, IdentifierTableIndex property_identifier, Optional<IdentifierTableIndex> base_identifier = {});
void emit_get_by_id_with_this(Operand dst, Operand base, IdentifierTableIndex, Operand this_value);
void emit_iterator_value(Operand dst, Operand result);
void emit_iterator_complete(Operand dst, Operand result);
[[nodiscard]] size_t next_global_variable_cache() { return m_next_global_variable_cache++; }
[[nodiscard]] size_t next_environment_variable_cache() { return m_next_environment_variable_cache++; }
[[nodiscard]] size_t next_property_lookup_cache() { return m_next_property_lookup_cache++; }
enum class DeduplicateConstant {
Yes,
No,
};
[[nodiscard]] Operand add_constant(Value value, DeduplicateConstant deduplicate_constant = DeduplicateConstant::Yes)
{
if (deduplicate_constant == DeduplicateConstant::Yes) {
for (size_t i = 0; i < m_constants.size(); ++i) {
if (m_constants[i] == value)
return Operand(Operand::Type::Constant, i);
}
}
m_constants.append(value);
return Operand(Operand::Type::Constant, m_constants.size() - 1);
}
private:
VM& m_vm;
enum class JumpType {
Continue,
Break,
};
void generate_scoped_jump(JumpType);
void generate_labelled_jump(JumpType, DeprecatedFlyString const& label);
explicit Generator(VM&);
~Generator() = default;
void grow(size_t);
struct LabelableScope {
Label bytecode_target;
Vector<DeprecatedFlyString> language_label_set;
};
BasicBlock* m_current_basic_block { nullptr };
ASTNode const* m_current_ast_node { nullptr };
UnwindContext const* m_current_unwind_context { nullptr };
Vector<NonnullOwnPtr<BasicBlock>> m_root_basic_blocks;
NonnullOwnPtr<StringTable> m_string_table;
NonnullOwnPtr<IdentifierTable> m_identifier_table;
NonnullOwnPtr<RegexTable> m_regex_table;
MarkedVector<Value> m_constants;
u32 m_next_register { Register::reserved_register_count };
u32 m_next_block { 1 };
u32 m_next_property_lookup_cache { 0 };
u32 m_next_global_variable_cache { 0 };
u32 m_next_environment_variable_cache { 0 };
FunctionKind m_enclosing_function_kind { FunctionKind::Normal };
Vector<LabelableScope> m_continuable_scopes;
Vector<LabelableScope> m_breakable_scopes;
Vector<BlockBoundaryType> m_boundaries;
Vector<Operand> m_home_objects;
HashTable<u32> m_initialized_locals;
};
}
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