tqcq cc7d131d95
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feat add dispatcher
2024-04-07 02:42:12 +00:00

367 lines
11 KiB
C++

// Copyright (c) 2013 Austin T. Clements. All rights reserved.
// Use of this source code is governed by an MIT license
// that can be found in the LICENSE file.
#include "internal.hh"
using namespace std;
DWARFPP_BEGIN_NAMESPACE
//////////////////////////////////////////////////////////////////
// class dwarf
//
struct dwarf::impl
{
impl(const std::shared_ptr<loader> &l)
: l(l), have_type_units(false) { }
std::shared_ptr<loader> l;
std::shared_ptr<section> sec_info;
std::shared_ptr<section> sec_abbrev;
std::vector<compilation_unit> compilation_units;
std::unordered_map<uint64_t, type_unit> type_units;
bool have_type_units;
std::map<section_type, std::shared_ptr<section> > sections;
};
dwarf::dwarf(const std::shared_ptr<loader> &l)
: m(make_shared<impl>(l))
{
const void *data;
size_t size;
// Get required sections
data = l->load(section_type::info, &size);
if (!data)
throw format_error("required .debug_info section missing");
m->sec_info = make_shared<section>(section_type::info, data, size, byte_order::lsb);
// Sniff the endianness from the version field of the first
// CU. This is always a small but non-zero integer.
cursor endcur(m->sec_info);
// Skip length.
section_length length = endcur.fixed<uword>();
if (length == 0xffffffff)
endcur.fixed<uint64_t>();
// Get version in both little and big endian.
uhalf version = endcur.fixed<uhalf>();
uhalf versionbe = (version >> 8) | ((version & 0xFF) << 8);
if (versionbe < version) {
m->sec_info = make_shared<section>(section_type::info, data, size, byte_order::msb);
}
data = l->load(section_type::abbrev, &size);
if (!data)
throw format_error("required .debug_abbrev section missing");
m->sec_abbrev = make_shared<section>(section_type::abbrev, data, size, m->sec_info->ord);
// Get compilation units. Everything derives from these, so
// there's no point in doing it lazily.
cursor infocur(m->sec_info);
while (!infocur.end()) {
// XXX Circular reference. Given that we now require
// the dwarf object to stick around for DIEs, maybe we
// might as well require that for units, too.
m->compilation_units.emplace_back(
*this, infocur.get_section_offset());
infocur.subsection();
}
}
dwarf::~dwarf()
{
}
const std::vector<compilation_unit> &
dwarf::compilation_units() const
{
static std::vector<compilation_unit> empty;
if (!m)
return empty;
return m->compilation_units;
}
const type_unit &
dwarf::get_type_unit(uint64_t type_signature) const
{
if (!m->have_type_units) {
cursor tucur(get_section(section_type::types));
while (!tucur.end()) {
// XXX Circular reference
type_unit tu(*this, tucur.get_section_offset());
m->type_units[tu.get_type_signature()] = tu;
tucur.subsection();
}
m->have_type_units = true;
}
if (!m->type_units.count(type_signature))
throw out_of_range("type signature 0x" + to_hex(type_signature));
return m->type_units[type_signature];
}
std::shared_ptr<section>
dwarf::get_section(section_type type) const
{
if (type == section_type::info)
return m->sec_info;
if (type == section_type::abbrev)
return m->sec_abbrev;
auto it = m->sections.find(type);
if (it != m->sections.end())
return it->second;
size_t size;
const void *data = m->l->load(type, &size);
if (!data)
throw format_error(std::string(elf::section_type_to_name(type))
+ " section missing");
m->sections[type] = std::make_shared<section>(section_type::str, data, size, m->sec_info->ord);
return m->sections[type];
}
//////////////////////////////////////////////////////////////////
// class unit
//
/**
* Implementation of a unit.
*/
struct unit::impl
{
const dwarf file;
const section_offset offset;
const std::shared_ptr<section> subsec;
const section_offset debug_abbrev_offset;
const section_offset root_offset;
// Type unit-only values
const uint64_t type_signature;
const section_offset type_offset;
// Lazily constructed root and type DIEs
die root, type;
// Lazily constructed line table
line_table lt;
// Map from abbrev code to abbrev. If the map is dense, it
// will be stored in the vector; otherwise it will be stored
// in the map.
bool have_abbrevs;
std::vector<abbrev_entry> abbrevs_vec;
std::unordered_map<abbrev_code, abbrev_entry> abbrevs_map;
impl(const dwarf &file, section_offset offset,
const std::shared_ptr<section> &subsec,
section_offset debug_abbrev_offset, section_offset root_offset,
uint64_t type_signature = 0, section_offset type_offset = 0)
: file(file), offset(offset), subsec(subsec),
debug_abbrev_offset(debug_abbrev_offset),
root_offset(root_offset), type_signature(type_signature),
type_offset(type_offset), have_abbrevs(false) { }
void force_abbrevs();
};
unit::~unit()
{
}
const dwarf &
unit::get_dwarf() const
{
return m->file;
}
section_offset
unit::get_section_offset() const
{
return m->offset;
}
const die&
unit::root() const
{
if (!m->root.valid()) {
m->force_abbrevs();
m->root = die(this);
m->root.read(m->root_offset);
}
return m->root;
}
const std::shared_ptr<section> &
unit::data() const
{
return m->subsec;
}
const abbrev_entry &
unit::get_abbrev(abbrev_code acode) const
{
if (!m->have_abbrevs)
m->force_abbrevs();
if (!m->abbrevs_vec.empty()) {
if (acode >= m->abbrevs_vec.size())
goto unknown;
const abbrev_entry &entry = m->abbrevs_vec[acode];
if (entry.code == 0)
goto unknown;
return entry;
} else {
auto it = m->abbrevs_map.find(acode);
if (it == m->abbrevs_map.end())
goto unknown;
return it->second;
}
unknown:
throw format_error("unknown abbrev code 0x" + to_hex(acode));
}
void
unit::impl::force_abbrevs()
{
// XXX Compilation units can share abbrevs. Parse each table
// at most once.
if (have_abbrevs)
return;
// Section 7.5.3
cursor c(file.get_section(section_type::abbrev),
debug_abbrev_offset);
abbrev_entry entry;
abbrev_code highest = 0;
while (entry.read(&c)) {
abbrevs_map[entry.code] = entry;
if (entry.code > highest)
highest = entry.code;
}
// Typically, abbrev codes are assigned linearly, so it's more
// space efficient and time efficient to store the table in a
// vector. Convert to a vector if it's dense enough, by some
// rough estimate of "enough".
if (highest * 10 < abbrevs_map.size() * 15) {
// Move the map into the vector
abbrevs_vec.resize(highest + 1);
for (auto &entry : abbrevs_map)
abbrevs_vec[entry.first] = move(entry.second);
abbrevs_map.clear();
}
have_abbrevs = true;
}
//////////////////////////////////////////////////////////////////
// class compilation_unit
//
compilation_unit::compilation_unit(const dwarf &file, section_offset offset)
{
// Read the CU header (DWARF4 section 7.5.1.1)
cursor cur(file.get_section(section_type::info), offset);
std::shared_ptr<section> subsec = cur.subsection();
cursor sub(subsec);
sub.skip_initial_length();
uhalf version = sub.fixed<uhalf>();
(void)version;
if (version > 5)
throw format_error("unknown compilation unit version " + std::to_string(version));
// .debug_abbrev-relative offset of this unit's abbrevs
section_offset debug_abbrev_offset;
if(version >= 5)
{
sub.skip_unit_type();
ubyte address_size = sub.fixed<ubyte>();
subsec->addr_size = address_size;
debug_abbrev_offset = sub.offset();
}
else {
debug_abbrev_offset = sub.offset();
ubyte address_size = sub.fixed<ubyte>();
subsec->addr_size = address_size;
}
m = make_shared<impl>(file, offset, subsec, debug_abbrev_offset,
sub.get_section_offset());
}
const line_table &
compilation_unit::get_line_table() const
{
if (!m->lt.valid()) {
const die &d = root();
if (!d.has(DW_AT::stmt_list) || !d.has(DW_AT::name))
goto done;
shared_ptr<section> sec;
try {
sec = m->file.get_section(section_type::line);
} catch (format_error &e) {
goto done;
}
auto comp_dir = d.has(DW_AT::comp_dir) ? at_comp_dir(d) : "";
m->lt = line_table(sec, d[DW_AT::stmt_list].as_sec_offset(),
m->subsec->addr_size, comp_dir,
at_name(d));
}
done:
return m->lt;
}
//////////////////////////////////////////////////////////////////
// class type_unit
//
type_unit::type_unit(const dwarf &file, section_offset offset)
{
// Read the type unit header (DWARF4 section 7.5.1.2)
cursor cur(file.get_section(section_type::types), offset);
std::shared_ptr<section> subsec = cur.subsection();
cursor sub(subsec);
sub.skip_initial_length();
uhalf version = sub.fixed<uhalf>();
if (version != 4)
throw format_error("unknown type unit version " + std::to_string(version));
// .debug_abbrev-relative offset of this unit's abbrevs
section_offset debug_abbrev_offset = sub.offset();
ubyte address_size = sub.fixed<ubyte>();
subsec->addr_size = address_size;
uint64_t type_signature = sub.fixed<uint64_t>();
section_offset type_offset = sub.offset();
m = make_shared<impl>(file, offset, subsec, debug_abbrev_offset,
sub.get_section_offset(), type_signature,
type_offset);
}
uint64_t
type_unit::get_type_signature() const
{
return m->type_signature;
}
const die &
type_unit::type() const
{
if (!m->type.valid()) {
m->force_abbrevs();
m->type = die(this);
m->type.read(m->type_offset);
}
return m->type;
}
DWARFPP_END_NAMESPACE