/*
* Copyright (c) 2020, Itamar S. <itamar8910@gmail.com>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "DebugInfo.h"
#include <AK/MemoryStream.h>
#include <AK/QuickSort.h>
#include <LibDebug/Dwarf/CompilationUnit.h>
#include <LibDebug/Dwarf/DwarfInfo.h>
#include <LibDebug/Dwarf/Expression.h>
//#define DEBUG_SPAM
namespace Debug {
DebugInfo::DebugInfo(NonnullOwnPtr<const ELF::Image> elf)
: m_elf(move(elf))
, m_dwarf_info(*m_elf)
{
prepare_variable_scopes();
prepare_lines();
}
void DebugInfo::prepare_variable_scopes()
{
m_dwarf_info.for_each_compilation_unit([&](const Dwarf::CompilationUnit& unit) {
auto root = unit.root_die();
parse_scopes_impl(root);
});
}
void DebugInfo::parse_scopes_impl(const Dwarf::DIE& die)
{
die.for_each_child([&](const Dwarf::DIE& child) {
if (child.is_null())
return;
if (!(child.tag() == Dwarf::EntryTag::SubProgram || child.tag() == Dwarf::EntryTag::LexicalBlock))
return;
if (child.get_attribute(Dwarf::Attribute::Inline).has_value()) {
#ifdef DEBUG_SPAM
dbg() << "DWARF inlined functions are not supported";
#endif
return;
}
if (child.get_attribute(Dwarf::Attribute::Ranges).has_value()) {
#ifdef DEBUG_SPAM
dbg() << "DWARF ranges are not supported";
#endif
return;
}
auto name = child.get_attribute(Dwarf::Attribute::Name);
VariablesScope scope {};
scope.is_function = (child.tag() == Dwarf::EntryTag::SubProgram);
if (name.has_value())
scope.name = name.value().data.as_string;
if (!child.get_attribute(Dwarf::Attribute::LowPc).has_value()) {
#ifdef DEBUG_SPAM
dbg() << "DWARF: Couldn't find attribute LowPc for scope";
#endif
return;
}
scope.address_low = child.get_attribute(Dwarf::Attribute::LowPc).value().data.as_u32;
// The attribute name HighPc is confusing. In this context, it seems to actually be a positive offset from LowPc
scope.address_high = scope.address_low + child.get_attribute(Dwarf::Attribute::HighPc).value().data.as_u32;
child.for_each_child([&](const Dwarf::DIE& variable_entry) {
if (!(variable_entry.tag() == Dwarf::EntryTag::Variable
|| variable_entry.tag() == Dwarf::EntryTag::FormalParameter))
return;
scope.dies_of_variables.append(variable_entry);
});
m_scopes.append(scope);
parse_scopes_impl(child);
});
}
void DebugInfo::prepare_lines()
{
auto section = elf().lookup_section(".debug_line");
if (section.is_undefined())
return;
InputMemoryStream stream { section.bytes() };
Vector<Dwarf::LineProgram::LineInfo> all_lines;
while (!stream.eof()) {
Dwarf::LineProgram program(stream);
all_lines.append(program.lines());
}
String serenity_slash("serenity/");
for (auto& line_info : all_lines) {
String file_path = line_info.file;
if (file_path.contains("Toolchain/") || file_path.contains("libgcc"))
continue;
if (file_path.contains(serenity_slash)) {
auto start_index = file_path.index_of(serenity_slash).value() + serenity_slash.length();
file_path = file_path.substring(start_index, file_path.length() - start_index);
}
m_sorted_lines.append({ line_info.address, file_path, line_info.line });
}
quick_sort(m_sorted_lines, [](auto& a, auto& b) {
return a.address < b.address;
});
}
Optional<DebugInfo::SourcePosition> DebugInfo::get_source_position(u32 target_address) const
{
if (m_sorted_lines.is_empty())
return {};
if (target_address < m_sorted_lines[0].address)
return {};
// TODO: We can do a binray search here
for (size_t i = 0; i < m_sorted_lines.size() - 1; ++i) {
if (m_sorted_lines[i + 1].address > target_address) {
return SourcePosition::from_line_info(m_sorted_lines[i]);
}
}
return {};
}
Optional<u32> DebugInfo::get_instruction_from_source(const String& file, size_t line) const
{
String file_path = file;
constexpr char SERENITY_LIBS_PREFIX[] = "/usr/src/serenity";
if (file.starts_with(SERENITY_LIBS_PREFIX)) {
file_path = file.substring(sizeof(SERENITY_LIBS_PREFIX), file.length() - sizeof(SERENITY_LIBS_PREFIX));
file_path = String::format("../%s", file_path.characters());
}
for (const auto& line_entry : m_sorted_lines) {
if (line_entry.file == file_path && line_entry.line == line)
return Optional<u32>(line_entry.address);
}
return {};
}
NonnullOwnPtrVector<DebugInfo::VariableInfo> DebugInfo::get_variables_in_current_scope(const PtraceRegisters& regs) const
{
NonnullOwnPtrVector<DebugInfo::VariableInfo> variables;
// TODO: We can store the scopes in a better data structure
for (const auto& scope : m_scopes) {
if (regs.eip < scope.address_low || regs.eip >= scope.address_high)
continue;
for (const auto& die_entry : scope.dies_of_variables) {
auto variable_info = create_variable_info(die_entry, regs);
if (!variable_info)
continue;
variables.append(variable_info.release_nonnull());
}
}
return variables;
}
static Optional<Dwarf::DIE> parse_variable_type_die(const Dwarf::DIE& variable_die, DebugInfo::VariableInfo& variable_info)
{
auto type_die_offset = variable_die.get_attribute(Dwarf::Attribute::Type);
if (!type_die_offset.has_value())
return {};
ASSERT(type_die_offset.value().type == Dwarf::DIE::AttributeValue::Type::DieReference);
auto type_die = variable_die.get_die_at_offset(type_die_offset.value().data.as_u32);
auto type_name = type_die.get_attribute(Dwarf::Attribute::Name);
if (type_name.has_value()) {
variable_info.type_name = type_name.value().data.as_string;
} else {
dbg() << "Unnamed DWARF type at offset: " << type_die.offset();
variable_info.name = "[Unnamed Type]";
}
return type_die;
}
static void parse_variable_location(const Dwarf::DIE& variable_die, DebugInfo::VariableInfo& variable_info, const PtraceRegisters& regs)
{
auto location_info = variable_die.get_attribute(Dwarf::Attribute::Location);
if (!location_info.has_value())
location_info = variable_die.get_attribute(Dwarf::Attribute::MemberLocation);
if (location_info.has_value()) {
if (location_info.value().type == Dwarf::DIE::AttributeValue::Type::UnsignedNumber) {
variable_info.location_type = DebugInfo::VariableInfo::LocationType::Address;
variable_info.location_data.address = location_info.value().data.as_u32;
}
if (location_info.value().type == Dwarf::DIE::AttributeValue::Type::DwarfExpression) {
auto expression_bytes = ReadonlyBytes { location_info.value().data.as_raw_bytes.bytes, location_info.value().data.as_raw_bytes.length };
auto value = Dwarf::Expression::evaluate(expression_bytes, regs);
if (value.type != Dwarf::Expression::Type::None) {
ASSERT(value.type == Dwarf::Expression::Type::UnsignedIntetger);
variable_info.location_type = DebugInfo::VariableInfo::LocationType::Address;
variable_info.location_data.address = value.data.as_u32;
}
}
}
}
OwnPtr<DebugInfo::VariableInfo> DebugInfo::create_variable_info(const Dwarf::DIE& variable_die, const PtraceRegisters& regs) const
{
ASSERT(variable_die.tag() == Dwarf::EntryTag::Variable
|| variable_die.tag() == Dwarf::EntryTag::Member
|| variable_die.tag() == Dwarf::EntryTag::FormalParameter
|| variable_die.tag() == Dwarf::EntryTag::EnumerationType
|| variable_die.tag() == Dwarf::EntryTag::Enumerator
|| variable_die.tag() == Dwarf::EntryTag::StructureType);
if (variable_die.tag() == Dwarf::EntryTag::FormalParameter
&& !variable_die.get_attribute(Dwarf::Attribute::Name).has_value()) {
// We don't want to display info for unused parameters
return {};
}
NonnullOwnPtr<VariableInfo> variable_info = make<VariableInfo>();
variable_info->name = variable_die.get_attribute(Dwarf::Attribute::Name).value().data.as_string;
auto type_die = parse_variable_type_die(variable_die, *variable_info);
if (variable_die.tag() == Dwarf::EntryTag::Enumerator) {
auto constant = variable_die.get_attribute(Dwarf::Attribute::ConstValue);
ASSERT(constant.has_value());
switch (constant.value().type) {
case Dwarf::DIE::AttributeValue::Type::UnsignedNumber:
variable_info->constant_data.as_u32 = constant.value().data.as_u32;
break;
case Dwarf::DIE::AttributeValue::Type::SignedNumber:
variable_info->constant_data.as_i32 = constant.value().data.as_i32;
break;
case Dwarf::DIE::AttributeValue::Type::String:
variable_info->constant_data.as_string = constant.value().data.as_string;
break;
default:
ASSERT_NOT_REACHED();
}
} else {
parse_variable_location(variable_die, *variable_info, regs);
}
if (type_die.has_value()) {
OwnPtr<VariableInfo> type_info;
if (type_die.value().tag() == Dwarf::EntryTag::EnumerationType || type_die.value().tag() == Dwarf::EntryTag::StructureType) {
type_info = create_variable_info(type_die.value(), regs);
}
type_die.value().for_each_child([&](const Dwarf::DIE& member) {
if (member.is_null())
return;
auto member_variable = create_variable_info(member, regs);
ASSERT(member_variable);
if (type_die.value().tag() == Dwarf::EntryTag::EnumerationType) {
member_variable->parent = type_info.ptr();
type_info->members.append(member_variable.release_nonnull());
} else {
ASSERT(variable_info->location_type == DebugInfo::VariableInfo::LocationType::Address);
if (member_variable->location_type == DebugInfo::VariableInfo::LocationType::Address)
member_variable->location_data.address += variable_info->location_data.address;
member_variable->parent = variable_info.ptr();
variable_info->members.append(member_variable.release_nonnull());
}
});
if (type_info) {
variable_info->type = move(type_info);
variable_info->type->type_tag = type_die.value().tag();
}
}
return variable_info;
}
String DebugInfo::name_of_containing_function(u32 address) const
{
auto function = get_containing_function(address);
if (!function.has_value())
return {};
return function.value().name;
}
Optional<DebugInfo::VariablesScope> DebugInfo::get_containing_function(u32 address) const
{
for (const auto& scope : m_scopes) {
if (!scope.is_function || address < scope.address_low || address >= scope.address_high)
continue;
return scope;
}
return {};
}
Vector<DebugInfo::SourcePosition> DebugInfo::source_lines_in_scope(const VariablesScope& scope) const
{
Vector<DebugInfo::SourcePosition> source_lines;
for (const auto& line : m_sorted_lines) {
if (line.address < scope.address_low)
continue;
if (line.address >= scope.address_high)
break;
source_lines.append(SourcePosition::from_line_info(line));
}
return source_lines;
}
DebugInfo::SourcePosition DebugInfo::SourcePosition::from_line_info(const Dwarf::LineProgram::LineInfo& line)
{
return { line.file, line.line, line.address };
}
}