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/*
* Copyright (c) 2019-2020, Andrew Kaster <akaster@serenityos.org>
* Copyright (c) 2020, Itamar S. <itamar8910@gmail.com>
* Copyright (c) 2021, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Debug.h>
#include <AK/Optional.h>
#include <AK/QuickSort.h>
#include <AK/StringBuilder.h>
#include <LibDl/dlfcn.h>
#include <LibDl/dlfcn_integration.h>
#include <LibELF/DynamicLinker.h>
#include <LibELF/DynamicLoader.h>
#include <LibELF/Hashes.h>
#include <LibELF/Validation.h>
#include <assert.h>
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include <unistd.h>
#ifndef __serenity__
static void* mmap_with_name(void* addr, size_t length, int prot, int flags, int fd, off_t offset, const char*)
{
return mmap(addr, length, prot, flags, fd, offset);
}
# define MAP_RANDOMIZED 0
#endif
namespace ELF {
Result<NonnullRefPtr<DynamicLoader>, DlErrorMessage> DynamicLoader::try_create(int fd, String filename)
{
struct stat stat;
if (fstat(fd, &stat) < 0) {
return DlErrorMessage { "DynamicLoader::try_create fstat" };
}
VERIFY(stat.st_size >= 0);
auto size = static_cast<size_t>(stat.st_size);
if (size < sizeof(ElfW(Ehdr)))
return DlErrorMessage { String::formatted("File {} has invalid ELF header", filename) };
String file_mmap_name = String::formatted("ELF_DYN: {}", filename);
auto* data = mmap_with_name(nullptr, size, PROT_READ, MAP_PRIVATE, fd, 0, file_mmap_name.characters());
if (data == MAP_FAILED) {
return DlErrorMessage { "DynamicLoader::try_create mmap" };
}
auto loader = adopt_ref(*new DynamicLoader(fd, move(filename), data, size));
if (!loader->is_valid())
return DlErrorMessage { "ELF image validation failed" };
return loader;
}
DynamicLoader::DynamicLoader(int fd, String filename, void* data, size_t size)
: m_filename(move(filename))
, m_file_size(size)
, m_image_fd(fd)
, m_file_data(data)
, m_elf_image((u8*)m_file_data, m_file_size)
{
m_valid = validate();
if (m_valid)
m_tls_size_of_current_object = calculate_tls_size();
else
dbgln("Image validation failed for file {}", m_filename);
}
DynamicLoader::~DynamicLoader()
{
if (munmap(m_file_data, m_file_size) < 0) {
perror("munmap");
VERIFY_NOT_REACHED();
}
if (close(m_image_fd) < 0) {
perror("close");
VERIFY_NOT_REACHED();
}
}
const DynamicObject& DynamicLoader::dynamic_object() const
{
if (!m_cached_dynamic_object) {
VirtualAddress dynamic_section_address;
m_elf_image.for_each_program_header([&dynamic_section_address](auto program_header) {
if (program_header.type() == PT_DYNAMIC) {
dynamic_section_address = VirtualAddress(program_header.raw_data());
}
});
VERIFY(!dynamic_section_address.is_null());
m_cached_dynamic_object = ELF::DynamicObject::create(m_filename, VirtualAddress(m_elf_image.base_address()), dynamic_section_address);
}
return *m_cached_dynamic_object;
}
size_t DynamicLoader::calculate_tls_size() const
{
size_t tls_size = 0;
m_elf_image.for_each_program_header([&tls_size](auto program_header) {
if (program_header.type() == PT_TLS) {
tls_size = program_header.size_in_memory();
}
});
return tls_size;
}
bool DynamicLoader::validate()
{
if (!m_elf_image.is_valid())
return false;
auto* elf_header = (ElfW(Ehdr)*)m_file_data;
if (!validate_elf_header(*elf_header, m_file_size))
return false;
if (!validate_program_headers(*elf_header, m_file_size, (u8*)m_file_data, m_file_size, &m_program_interpreter))
return false;
return true;
}
RefPtr<DynamicObject> DynamicLoader::map()
{
if (m_dynamic_object) {
// Already mapped.
return nullptr;
}
if (!m_valid) {
dbgln("DynamicLoader::map failed: image is invalid");
return nullptr;
}
load_program_headers();
VERIFY(!m_base_address.is_null());
m_dynamic_object = DynamicObject::create(m_filename, m_base_address, m_dynamic_section_address);
m_dynamic_object->set_tls_offset(m_tls_offset);
m_dynamic_object->set_tls_size(m_tls_size_of_current_object);
return m_dynamic_object;
}
bool DynamicLoader::link(unsigned flags)
{
return load_stage_2(flags);
}
bool DynamicLoader::load_stage_2(unsigned flags)
{
VERIFY(flags & RTLD_GLOBAL);
if (m_dynamic_object->has_text_relocations()) {
for (auto& text_segment : m_text_segments) {
VERIFY(text_segment.address().get() != 0);
#ifndef AK_OS_MACOS
// Remap this text region as private.
if (mremap(text_segment.address().as_ptr(), text_segment.size(), text_segment.size(), MAP_PRIVATE) == MAP_FAILED) {
perror("mremap .text: MAP_PRIVATE");
return false;
}
#endif
if (0 > mprotect(text_segment.address().as_ptr(), text_segment.size(), PROT_READ | PROT_WRITE)) {
perror("mprotect .text: PROT_READ | PROT_WRITE"); // FIXME: dlerror?
return false;
}
}
}
do_main_relocations();
return true;
}
void DynamicLoader::do_main_relocations()
{
auto do_single_relocation = [&](const ELF::DynamicObject::Relocation& relocation) {
switch (do_relocation(relocation, ShouldInitializeWeak::No)) {
case RelocationResult::Failed:
dbgln("Loader.so: {} unresolved symbol '{}'", m_filename, relocation.symbol().name());
VERIFY_NOT_REACHED();
case RelocationResult::ResolveLater:
m_unresolved_relocations.append(relocation);
break;
case RelocationResult::Success:
break;
}
};
m_dynamic_object->relocation_section().for_each_relocation(do_single_relocation);
m_dynamic_object->plt_relocation_section().for_each_relocation(do_single_relocation);
}
Result<NonnullRefPtr<DynamicObject>, DlErrorMessage> DynamicLoader::load_stage_3(unsigned flags)
{
do_lazy_relocations();
if (flags & RTLD_LAZY) {
if (m_dynamic_object->has_plt())
setup_plt_trampoline();
}
for (auto& text_segment : m_text_segments) {
if (mprotect(text_segment.address().as_ptr(), text_segment.size(), PROT_READ | PROT_EXEC) < 0) {
return DlErrorMessage { String::formatted("mprotect .text: PROT_READ | PROT_EXEC: {}", strerror(errno)) };
}
}
if (m_relro_segment_size) {
if (mprotect(m_relro_segment_address.as_ptr(), m_relro_segment_size, PROT_READ) < 0) {
return DlErrorMessage { String::formatted("mprotect .relro: PROT_READ: {}", strerror(errno)) };
}
#ifdef __serenity__
if (set_mmap_name(m_relro_segment_address.as_ptr(), m_relro_segment_size, String::formatted("{}: .relro", m_filename).characters()) < 0) {
return DlErrorMessage { String::formatted("set_mmap_name .relro: {}", strerror(errno)) };
}
#endif
}
return NonnullRefPtr<DynamicObject> { *m_dynamic_object };
}
void DynamicLoader::load_stage_4()
{
call_object_init_functions();
}
void DynamicLoader::do_lazy_relocations()
{
for (const auto& relocation : m_unresolved_relocations) {
if (auto res = do_relocation(relocation, ShouldInitializeWeak::Yes); res != RelocationResult::Success) {
dbgln("Loader.so: {} unresolved symbol '{}'", m_filename, relocation.symbol().name());
VERIFY_NOT_REACHED();
}
}
}
void DynamicLoader::load_program_headers()
{
Vector<ProgramHeaderRegion> load_regions;
Vector<ProgramHeaderRegion> map_regions;
Vector<ProgramHeaderRegion> copy_regions;
Optional<ProgramHeaderRegion> tls_region;
Optional<ProgramHeaderRegion> relro_region;
VirtualAddress dynamic_region_desired_vaddr;
m_elf_image.for_each_program_header([&](const Image::ProgramHeader& program_header) {
ProgramHeaderRegion region {};
region.set_program_header(program_header.raw_header());
if (region.is_tls_template()) {
VERIFY(!tls_region.has_value());
tls_region = region;
} else if (region.is_load()) {
if (region.size_in_memory() == 0)
return;
load_regions.append(region);
if (region.is_writable()) {
copy_regions.append(region);
} else {
map_regions.append(region);
}
} else if (region.is_dynamic()) {
dynamic_region_desired_vaddr = region.desired_load_address();
} else if (region.is_relro()) {
VERIFY(!relro_region.has_value());
relro_region = region;
}
});
VERIFY(!map_regions.is_empty() || !copy_regions.is_empty());
auto compare_load_address = [](ProgramHeaderRegion& a, ProgramHeaderRegion& b) {
return a.desired_load_address().as_ptr() < b.desired_load_address().as_ptr();
};
quick_sort(load_regions, compare_load_address);
quick_sort(map_regions, compare_load_address);
quick_sort(copy_regions, compare_load_address);
// Process regions in order: .text, .data, .tls
void* requested_load_address = m_elf_image.is_dynamic() ? nullptr : load_regions.first().desired_load_address().as_ptr();
int reservation_mmap_flags = MAP_ANON | MAP_PRIVATE | MAP_NORESERVE;
if (m_elf_image.is_dynamic())
reservation_mmap_flags |= MAP_RANDOMIZED;
#ifdef MAP_FIXED_NOREPLACE
else
reservation_mmap_flags |= MAP_FIXED_NOREPLACE;
#endif
// First, we make a dummy reservation mapping, in order to allocate enough VM
// to hold all regions contiguously in the address space.
FlatPtr ph_load_base = load_regions.first().desired_load_address().page_base().get();
FlatPtr ph_load_end = round_up_to_power_of_two(load_regions.last().desired_load_address().offset(load_regions.last().size_in_memory()).get(), PAGE_SIZE);
size_t total_mapping_size = ph_load_end - ph_load_base;
auto* reservation = mmap(requested_load_address, total_mapping_size, PROT_NONE, reservation_mmap_flags, 0, 0);
if (reservation == MAP_FAILED) {
perror("mmap reservation");
VERIFY_NOT_REACHED();
}
VERIFY(requested_load_address == nullptr || reservation == requested_load_address);
m_base_address = VirtualAddress { reservation };
// Then we unmap the reservation.
if (munmap(reservation, total_mapping_size) < 0) {
perror("munmap reservation");
VERIFY_NOT_REACHED();
}
for (auto& region : map_regions) {
FlatPtr ph_desired_base = region.desired_load_address().get();
FlatPtr ph_base = region.desired_load_address().page_base().get();
FlatPtr ph_end = ph_base + round_up_to_power_of_two(region.size_in_memory() + region.desired_load_address().get() - ph_base, PAGE_SIZE);
StringBuilder builder;
builder.append(m_filename);
if (region.is_executable())
builder.append(": .text");
else
builder.append(": .rodata");
// Now we can map the text segment at the reserved address.
auto* segment_base = (u8*)mmap_with_name(
(u8*)reservation + ph_base - ph_load_base,
ph_desired_base - ph_base + region.size_in_image(),
PROT_READ,
MAP_FILE | MAP_SHARED | MAP_FIXED,
m_image_fd,
VirtualAddress { region.offset() }.page_base().get(),
builder.to_string().characters());
if (segment_base == MAP_FAILED) {
perror("mmap non-writable");
VERIFY_NOT_REACHED();
}
if (region.is_executable())
m_text_segments.append({ VirtualAddress { segment_base }, ph_end - ph_base });
}
VERIFY(requested_load_address == nullptr || requested_load_address == reservation);
if (relro_region.has_value()) {
m_relro_segment_size = relro_region->size_in_memory();
m_relro_segment_address = VirtualAddress { (u8*)reservation + relro_region->desired_load_address().get() - ph_load_base };
}
if (m_elf_image.is_dynamic())
m_dynamic_section_address = VirtualAddress { (u8*)reservation + dynamic_region_desired_vaddr.get() - ph_load_base };
else
m_dynamic_section_address = dynamic_region_desired_vaddr;
for (auto& region : copy_regions) {
FlatPtr ph_data_base = region.desired_load_address().page_base().get();
FlatPtr ph_data_end = ph_data_base + round_up_to_power_of_two(region.size_in_memory() + region.desired_load_address().get() - ph_data_base, PAGE_SIZE);
auto* data_segment_address = (u8*)reservation + ph_data_base - ph_load_base;
size_t data_segment_size = ph_data_end - ph_data_base;
// Finally, we make an anonymous mapping for the data segment. Contents are then copied from the file.
auto* data_segment = (u8*)mmap_with_name(
data_segment_address,
data_segment_size,
PROT_READ | PROT_WRITE,
MAP_ANONYMOUS | MAP_PRIVATE | MAP_FIXED,
0,
0,
String::formatted("{}: .data", m_filename).characters());
if (MAP_FAILED == data_segment) {
perror("mmap writable");
VERIFY_NOT_REACHED();
}
VirtualAddress data_segment_start;
if (m_elf_image.is_dynamic())
data_segment_start = VirtualAddress { (u8*)reservation + region.desired_load_address().get() };
else
data_segment_start = region.desired_load_address();
VERIFY(data_segment_start.as_ptr() + region.size_in_memory() <= data_segment + data_segment_size);
memcpy(data_segment_start.as_ptr(), (u8*)m_file_data + region.offset(), region.size_in_image());
}
// FIXME: Initialize the values in the TLS section. Currently, it is zeroed.
}
DynamicLoader::RelocationResult DynamicLoader::do_relocation(const ELF::DynamicObject::Relocation& relocation, ShouldInitializeWeak should_initialize_weak)
{
FlatPtr* patch_ptr = nullptr;
if (is_dynamic())
patch_ptr = (FlatPtr*)(m_dynamic_object->base_address().as_ptr() + relocation.offset());
else
patch_ptr = (FlatPtr*)(FlatPtr)relocation.offset();
switch (relocation.type()) {
#if ARCH(I386)
case R_386_NONE:
#else
case R_X86_64_NONE:
#endif
// Apparently most loaders will just skip these?
// Seems if the 'link editor' generates one something is funky with your code
break;
#if ARCH(I386)
case R_386_32: {
#else
case R_X86_64_64: {
#endif
auto symbol = relocation.symbol();
auto res = lookup_symbol(symbol);
if (!res.has_value()) {
if (symbol.bind() == STB_WEAK)
return RelocationResult::ResolveLater;
dbgln("ERROR: symbol not found: {}.", symbol.name());
return RelocationResult::Failed;
}
auto symbol_address = res.value().address;
if (relocation.addend_used())
*patch_ptr = symbol_address.get() + relocation.addend();
else
*patch_ptr += symbol_address.get();
break;
}
#if ARCH(I386)
case R_386_PC32: {
auto symbol = relocation.symbol();
auto result = lookup_symbol(symbol);
if (!result.has_value())
return RelocationResult::Failed;
auto relative_offset = result.value().address - m_dynamic_object->base_address().offset(relocation.offset());
*patch_ptr += relative_offset.get();
break;
}
case R_386_GLOB_DAT: {
#else
case R_X86_64_GLOB_DAT: {
#endif
auto symbol = relocation.symbol();
auto res = lookup_symbol(symbol);
VirtualAddress symbol_location;
if (!res.has_value()) {
if (symbol.bind() == STB_WEAK) {
if (should_initialize_weak == ShouldInitializeWeak::No)
return RelocationResult::ResolveLater;
} else {
// Symbol not found
return RelocationResult::Failed;
}
symbol_location = VirtualAddress { (FlatPtr)0 };
} else
symbol_location = res.value().address;
VERIFY(symbol_location != m_dynamic_object->base_address());
*patch_ptr = symbol_location.get();
break;
}
#if ARCH(I386)
case R_386_RELATIVE: {
#else
case R_X86_64_RELATIVE: {
#endif
// FIXME: According to the spec, R_386_relative ones must be done first.
// We could explicitly do them first using m_number_of_relocations from DT_RELCOUNT
// However, our compiler is nice enough to put them at the front of the relocations for us :)
if (relocation.addend_used())
*patch_ptr = m_dynamic_object->base_address().offset(relocation.addend()).get();
else
*patch_ptr += m_dynamic_object->base_address().get();
break;
}
#if ARCH(I386)
case R_386_TLS_TPOFF32:
case R_386_TLS_TPOFF: {
#else
case R_X86_64_TPOFF64: {
#endif
auto symbol = relocation.symbol();
FlatPtr symbol_value;
DynamicObject const* dynamic_object_of_symbol;
if (relocation.symbol_index() != 0) {
auto res = lookup_symbol(symbol);
if (!res.has_value())
break;
symbol_value = res.value().value;
dynamic_object_of_symbol = res.value().dynamic_object;
} else {
symbol_value = 0;
dynamic_object_of_symbol = &relocation.dynamic_object();
}
VERIFY(dynamic_object_of_symbol);
size_t addend = relocation.addend_used() ? relocation.addend() : *patch_ptr;
*patch_ptr = negative_offset_from_tls_block_end(dynamic_object_of_symbol->tls_offset().value(), symbol_value + addend);
break;
}
#if ARCH(I386)
case R_386_JMP_SLOT: {
#else
case R_X86_64_JUMP_SLOT: {
#endif
// FIXME: Or BIND_NOW flag passed in?
if (m_dynamic_object->must_bind_now()) {
// Eagerly BIND_NOW the PLT entries, doing all the symbol looking goodness
// The patch method returns the address for the LAZY fixup path, but we don't need it here
m_dynamic_object->patch_plt_entry(relocation.offset_in_section());
} else {
auto relocation_address = (FlatPtr*)relocation.address().as_ptr();
if (m_elf_image.is_dynamic())
*relocation_address += m_dynamic_object->base_address().get();
}
break;
}
default:
// Raise the alarm! Someone needs to implement this relocation type
dbgln("Found a new exciting relocation type {}", relocation.type());
VERIFY_NOT_REACHED();
}
return RelocationResult::Success;
}
ssize_t DynamicLoader::negative_offset_from_tls_block_end(ssize_t tls_offset, size_t value_of_symbol) const
{
ssize_t offset = static_cast<ssize_t>(tls_offset + value_of_symbol);
// At offset 0 there's the thread's ThreadSpecificData structure, we don't want to collide with it.
VERIFY(offset < 0);
return offset;
}
void DynamicLoader::copy_initial_tls_data_into(ByteBuffer& buffer) const
{
const u8* tls_data = nullptr;
size_t tls_size_in_image = 0;
m_elf_image.for_each_program_header([this, &tls_data, &tls_size_in_image](ELF::Image::ProgramHeader program_header) {
if (program_header.type() != PT_TLS)
return IterationDecision::Continue;
tls_data = (const u8*)m_file_data + program_header.offset();
tls_size_in_image = program_header.size_in_image();
return IterationDecision::Break;
});
if (!tls_data || !tls_size_in_image)
return;
m_elf_image.for_each_symbol([this, &buffer, tls_data](ELF::Image::Symbol symbol) {
if (symbol.type() != STT_TLS)
return IterationDecision::Continue;
ssize_t negative_offset = negative_offset_from_tls_block_end(m_tls_offset, symbol.value());
VERIFY(symbol.size() != 0);
VERIFY(buffer.size() + negative_offset + symbol.size() <= buffer.size());
memcpy(buffer.data() + buffer.size() + negative_offset, tls_data + symbol.value(), symbol.size());
return IterationDecision::Continue;
});
}
// Defined in <arch>/plt_trampoline.S
extern "C" void _plt_trampoline(void) __attribute__((visibility("hidden")));
void DynamicLoader::setup_plt_trampoline()
{
VERIFY(m_dynamic_object);
VERIFY(m_dynamic_object->has_plt());
VirtualAddress got_address = m_dynamic_object->plt_got_base_address();
auto* got_ptr = (FlatPtr*)got_address.as_ptr();
got_ptr[1] = (FlatPtr)m_dynamic_object.ptr();
got_ptr[2] = (FlatPtr)&_plt_trampoline;
}
// Called from our ASM routine _plt_trampoline.
// Tell the compiler that it might be called from other places:
extern "C" FlatPtr _fixup_plt_entry(DynamicObject* object, u32 relocation_offset);
extern "C" FlatPtr _fixup_plt_entry(DynamicObject* object, u32 relocation_offset)
{
return object->patch_plt_entry(relocation_offset).get();
}
void DynamicLoader::call_object_init_functions()
{
typedef void (*InitFunc)();
if (m_dynamic_object->has_init_section()) {
auto init_function = (InitFunc)(m_dynamic_object->init_section().address().as_ptr());
(init_function)();
}
if (m_dynamic_object->has_init_array_section()) {
auto init_array_section = m_dynamic_object->init_array_section();
InitFunc* init_begin = (InitFunc*)(init_array_section.address().as_ptr());
InitFunc* init_end = init_begin + init_array_section.entry_count();
while (init_begin != init_end) {
// Android sources claim that these can be -1, to be ignored.
// 0 definitely shows up. Apparently 0/-1 are valid? Confusing.
if (!*init_begin || ((FlatPtr)*init_begin == (FlatPtr)-1))
continue;
(*init_begin)();
++init_begin;
}
}
}
Optional<DynamicObject::SymbolLookupResult> DynamicLoader::lookup_symbol(const ELF::DynamicObject::Symbol& symbol)
{
if (symbol.is_undefined() || symbol.bind() == STB_WEAK)
return DynamicLinker::lookup_global_symbol(symbol.name());
return DynamicObject::SymbolLookupResult { symbol.value(), symbol.size(), symbol.address(), symbol.bind(), &symbol.object() };
}
} // end namespace ELF
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