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/*
* Copyright (c) 2020, Itamar S. <itamar8910@gmail.com>
* Copyright (c) 2021, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, the SerenityOS developers.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/ByteBuffer.h>
#include <AK/Debug.h>
#include <AK/HashMap.h>
#include <AK/HashTable.h>
#include <AK/LexicalPath.h>
#include <AK/NonnullRefPtrVector.h>
#include <AK/ScopeGuard.h>
#include <AK/Vector.h>
#include <LibC/bits/pthread_integration.h>
#include <LibC/link.h>
#include <LibC/sys/mman.h>
#include <LibC/unistd.h>
#include <LibDl/dlfcn.h>
#include <LibDl/dlfcn_integration.h>
#include <LibELF/AuxiliaryVector.h>
#include <LibELF/DynamicLinker.h>
#include <LibELF/DynamicLoader.h>
#include <LibELF/DynamicObject.h>
#include <LibELF/Hashes.h>
#include <fcntl.h>
#include <string.h>
#include <sys/types.h>
#include <syscall.h>
namespace ELF {
static HashMap<String, NonnullRefPtr<ELF::DynamicLoader>> s_loaders;
static String s_main_program_name;
static OrderedHashMap<String, NonnullRefPtr<ELF::DynamicObject>> s_global_objects;
using EntryPointFunction = int (*)(int, char**, char**);
using LibCExitFunction = void (*)(int);
using DlIteratePhdrCallbackFunction = int (*)(struct dl_phdr_info*, size_t, void*);
using DlIteratePhdrFunction = int (*)(DlIteratePhdrCallbackFunction, void*);
extern "C" [[noreturn]] void _invoke_entry(int argc, char** argv, char** envp, EntryPointFunction entry);
static size_t s_current_tls_offset = 0;
static size_t s_total_tls_size = 0;
static size_t s_allocated_tls_block_size = 0;
static char** s_envp = nullptr;
static LibCExitFunction s_libc_exit = nullptr;
static __pthread_mutex_t s_loader_lock = __PTHREAD_MUTEX_INITIALIZER;
static bool s_allowed_to_check_environment_variables { false };
static bool s_do_breakpoint_trap_before_entry { false };
static Result<void, DlErrorMessage> __dlclose(void* handle);
static Result<void*, DlErrorMessage> __dlopen(const char* filename, int flags);
static Result<void*, DlErrorMessage> __dlsym(void* handle, const char* symbol_name);
static Result<void, DlErrorMessage> __dladdr(void* addr, Dl_info* info);
Optional<DynamicObject::SymbolLookupResult> DynamicLinker::lookup_global_symbol(const StringView& name)
{
Optional<DynamicObject::SymbolLookupResult> weak_result;
auto symbol = DynamicObject::HashSymbol { name };
for (auto& lib : s_global_objects) {
auto res = lib.value->lookup_symbol(symbol);
if (!res.has_value())
continue;
if (res.value().bind == STB_GLOBAL)
return res;
if (res.value().bind == STB_WEAK && !weak_result.has_value())
weak_result = res;
// We don't want to allow local symbols to be pulled in to other modules
}
return weak_result;
}
static String get_library_name(String path)
{
return LexicalPath::basename(move(path));
}
static Result<NonnullRefPtr<DynamicLoader>, DlErrorMessage> map_library(const String& filename, int fd)
{
auto result = ELF::DynamicLoader::try_create(fd, filename);
if (result.is_error()) {
return result;
}
auto& loader = result.value();
s_loaders.set(get_library_name(filename), *loader);
s_current_tls_offset -= loader->tls_size_of_current_object();
loader->set_tls_offset(s_current_tls_offset);
return loader;
}
static Result<NonnullRefPtr<DynamicLoader>, DlErrorMessage> map_library(const String& name)
{
if (name.contains("/"sv)) {
int fd = open(name.characters(), O_RDONLY);
if (fd < 0)
return DlErrorMessage { String::formatted("Could not open shared library: {}", name) };
return map_library(name, fd);
}
// TODO: Do we want to also look for libs in other paths too?
const char* search_paths[] = { "/usr/lib/{}", "/usr/local/lib/{}" };
for (auto& search_path : search_paths) {
auto path = String::formatted(search_path, name);
int fd = open(path.characters(), O_RDONLY);
if (fd < 0)
continue;
return map_library(name, fd);
}
return DlErrorMessage { String::formatted("Could not find required shared library: {}", name) };
}
static Vector<String> get_dependencies(const String& name)
{
auto lib = s_loaders.get(name).value();
Vector<String> dependencies;
lib->for_each_needed_library([&dependencies, &name](auto needed_name) {
if (name == needed_name)
return;
dependencies.append(needed_name);
});
return dependencies;
}
static Result<void, DlErrorMessage> map_dependencies(const String& name)
{
dbgln_if(DYNAMIC_LOAD_DEBUG, "mapping dependencies for: {}", name);
for (const auto& needed_name : get_dependencies(name)) {
dbgln_if(DYNAMIC_LOAD_DEBUG, "needed library: {}", needed_name.characters());
String library_name = get_library_name(needed_name);
if (!s_loaders.contains(library_name) && !s_global_objects.contains(library_name)) {
auto result1 = map_library(needed_name);
if (result1.is_error()) {
return result1.error();
}
auto result2 = map_dependencies(library_name);
if (result2.is_error()) {
return result2.error();
}
}
}
dbgln_if(DYNAMIC_LOAD_DEBUG, "mapped dependencies for {}", name);
return {};
}
static void allocate_tls()
{
s_total_tls_size = 0;
for (const auto& data : s_loaders) {
dbgln_if(DYNAMIC_LOAD_DEBUG, "{}: TLS Size: {}", data.key, data.value->tls_size_of_current_object());
s_total_tls_size += data.value->tls_size_of_current_object();
}
if (!s_total_tls_size)
return;
auto page_aligned_size = align_up_to(s_total_tls_size, PAGE_SIZE);
ByteBuffer initial_tls_data = ByteBuffer::create_zeroed(page_aligned_size);
// Initialize TLS data
for (const auto& entry : s_loaders) {
entry.value->copy_initial_tls_data_into(initial_tls_data);
}
void* master_tls = ::allocate_tls((char*)initial_tls_data.data(), initial_tls_data.size());
VERIFY(master_tls != (void*)-1);
dbgln_if(DYNAMIC_LOAD_DEBUG, "from userspace, master_tls: {:p}", master_tls);
s_allocated_tls_block_size = initial_tls_data.size();
}
static int __dl_iterate_phdr(DlIteratePhdrCallbackFunction callback, void* data)
{
__pthread_mutex_lock(&s_loader_lock);
ScopeGuard unlock_guard = [] { __pthread_mutex_unlock(&s_loader_lock); };
for (auto& it : s_global_objects) {
auto& object = it.value;
auto info = dl_phdr_info {
.dlpi_addr = (ElfW(Addr))object->base_address().as_ptr(),
.dlpi_name = object->filename().characters(),
.dlpi_phdr = object->program_headers(),
.dlpi_phnum = object->program_header_count()
};
auto res = callback(&info, sizeof(info), data);
if (res != 0)
return res;
}
return 0;
}
static void initialize_libc(DynamicObject& libc)
{
// Traditionally, `_start` of the main program initializes libc.
// However, since some libs use malloc() and getenv() in global constructors,
// we have to initialize libc just after it is loaded.
// Also, we can't just mark `__libc_init` with "__attribute__((constructor))"
// because it uses getenv() internally, so `environ` has to be initialized before we call `__libc_init`.
auto res = libc.lookup_symbol("environ"sv);
VERIFY(res.has_value());
*((char***)res.value().address.as_ptr()) = s_envp;
res = libc.lookup_symbol("__environ_is_malloced"sv);
VERIFY(res.has_value());
*((bool*)res.value().address.as_ptr()) = false;
res = libc.lookup_symbol("exit"sv);
VERIFY(res.has_value());
s_libc_exit = (LibCExitFunction)res.value().address.as_ptr();
res = libc.lookup_symbol("__dl_iterate_phdr"sv);
VERIFY(res.has_value());
*((DlIteratePhdrFunction*)res.value().address.as_ptr()) = __dl_iterate_phdr;
res = libc.lookup_symbol("__dlclose"sv);
VERIFY(res.has_value());
*((DlCloseFunction*)res.value().address.as_ptr()) = __dlclose;
res = libc.lookup_symbol("__dlopen"sv);
VERIFY(res.has_value());
*((DlOpenFunction*)res.value().address.as_ptr()) = __dlopen;
res = libc.lookup_symbol("__dlsym"sv);
VERIFY(res.has_value());
*((DlSymFunction*)res.value().address.as_ptr()) = __dlsym;
res = libc.lookup_symbol("__dladdr"sv);
VERIFY(res.has_value());
*((DlAddrFunction*)res.value().address.as_ptr()) = __dladdr;
res = libc.lookup_symbol("__libc_init"sv);
VERIFY(res.has_value());
typedef void libc_init_func();
((libc_init_func*)res.value().address.as_ptr())();
}
template<typename Callback>
static void for_each_unfinished_dependency_of(const String& name, HashTable<String>& seen_names, Callback callback)
{
if (!s_loaders.contains(name))
return;
if (seen_names.contains(name))
return;
seen_names.set(name);
for (const auto& needed_name : get_dependencies(name))
for_each_unfinished_dependency_of(get_library_name(needed_name), seen_names, callback);
callback(*s_loaders.get(name).value());
}
static NonnullRefPtrVector<DynamicLoader> collect_loaders_for_library(const String& name)
{
HashTable<String> seen_names;
NonnullRefPtrVector<DynamicLoader> loaders;
for_each_unfinished_dependency_of(name, seen_names, [&](auto& loader) {
loaders.append(loader);
});
return loaders;
}
static Result<NonnullRefPtr<DynamicLoader>, DlErrorMessage> load_main_library(const String& name, int flags)
{
auto main_library_loader = *s_loaders.get(name);
auto main_library_object = main_library_loader->map();
s_global_objects.set(name, *main_library_object);
auto loaders = collect_loaders_for_library(name);
for (auto& loader : loaders) {
auto dynamic_object = loader.map();
if (dynamic_object)
s_global_objects.set(dynamic_object->filename(), *dynamic_object);
}
for (auto& loader : loaders) {
bool success = loader.link(flags);
if (!success) {
return DlErrorMessage { String::formatted("Failed to link library {}", loader.filename()) };
}
}
for (auto& loader : loaders) {
auto result = loader.load_stage_3(flags);
VERIFY(!result.is_error());
auto& object = result.value();
if (loader.filename() == "libsystem.so"sv) {
VERIFY(!loader.text_segments().is_empty());
for (const auto& segment : loader.text_segments()) {
if (syscall(SC_msyscall, segment.address().get())) {
VERIFY_NOT_REACHED();
}
}
}
if (loader.filename() == "libc.so"sv) {
initialize_libc(*object);
}
}
for (auto& loader : loaders) {
loader.load_stage_4();
}
return NonnullRefPtr<DynamicLoader>(*main_library_loader);
}
static Result<void, DlErrorMessage> __dlclose(void* handle)
{
dbgln_if(DYNAMIC_LOAD_DEBUG, "__dlclose: {}", handle);
__pthread_mutex_lock(&s_loader_lock);
ScopeGuard unlock_guard = [] { __pthread_mutex_unlock(&s_loader_lock); };
// FIXME: this will not currently destroy the dynamic object
// because we're intentionally holding a strong reference to it
// via s_global_objects until there's proper unload support.
auto object = static_cast<ELF::DynamicObject*>(handle);
object->unref();
return {};
}
static Optional<DlErrorMessage> verify_tls_for_dlopen(const DynamicLoader& loader)
{
if (loader.tls_size_of_current_object() == 0)
return {};
if (s_total_tls_size + loader.tls_size_of_current_object() > s_allocated_tls_block_size)
return DlErrorMessage("TLS size too large");
bool tls_data_is_all_zero = true;
loader.image().for_each_program_header([&loader, &tls_data_is_all_zero](ELF::Image::ProgramHeader program_header) {
if (program_header.type() != PT_TLS)
return IterationDecision::Continue;
auto* tls_data = (const u8*)loader.image().base_address() + program_header.offset();
for (size_t i = 0; i < program_header.size_in_image(); ++i) {
if (tls_data[i] != 0) {
tls_data_is_all_zero = false;
break;
}
}
return IterationDecision::Break;
});
if (tls_data_is_all_zero)
return {};
return DlErrorMessage("Using dlopen() with libraries that have non-zeroed TLS is currently not supported");
}
static Result<void*, DlErrorMessage> __dlopen(const char* filename, int flags)
{
// FIXME: RTLD_NOW and RTLD_LOCAL are not supported
flags &= ~RTLD_NOW;
flags |= RTLD_LAZY;
flags &= ~RTLD_LOCAL;
flags |= RTLD_GLOBAL;
dbgln_if(DYNAMIC_LOAD_DEBUG, "__dlopen invoked, filename={}, flags={}", filename, flags);
auto library_name = get_library_name(filename ? filename : s_main_program_name);
if (__pthread_mutex_trylock(&s_loader_lock) != 0)
return DlErrorMessage { "Nested calls to dlopen() are not permitted." };
ScopeGuard unlock_guard = [] { __pthread_mutex_unlock(&s_loader_lock); };
auto existing_elf_object = s_global_objects.get(library_name);
if (existing_elf_object.has_value()) {
// It's up to the caller to release the ref with dlclose().
existing_elf_object.value()->ref();
return *existing_elf_object;
}
VERIFY(!library_name.is_empty());
auto result1 = map_library(filename);
if (result1.is_error()) {
return result1.error();
}
if (auto error = verify_tls_for_dlopen(result1.value()); error.has_value())
return error.value();
auto result2 = map_dependencies(library_name);
if (result2.is_error()) {
return result2.error();
}
auto result = load_main_library(library_name, flags);
if (result.is_error())
return result.error();
s_total_tls_size += result1.value()->tls_size_of_current_object();
auto object = s_global_objects.get(library_name);
if (!object.has_value())
return DlErrorMessage { "Could not load ELF object." };
// It's up to the caller to release the ref with dlclose().
object.value()->ref();
return *object;
}
static Result<void*, DlErrorMessage> __dlsym(void* handle, const char* symbol_name)
{
dbgln_if(DYNAMIC_LOAD_DEBUG, "__dlsym: {}, {}", handle, symbol_name);
__pthread_mutex_lock(&s_loader_lock);
ScopeGuard unlock_guard = [] { __pthread_mutex_unlock(&s_loader_lock); };
auto object = static_cast<DynamicObject*>(handle);
if (!handle) {
auto library_name = get_library_name(s_main_program_name);
auto global_object = s_global_objects.get(library_name);
object = *global_object;
}
auto symbol = object->lookup_symbol(symbol_name);
if (!symbol.has_value()) {
return DlErrorMessage { String::formatted("Symbol {} not found", symbol_name) };
}
return symbol.value().address.as_ptr();
}
static Result<void, DlErrorMessage> __dladdr(void* addr, Dl_info* info)
{
VirtualAddress user_addr { addr };
__pthread_mutex_lock(&s_loader_lock);
ScopeGuard unlock_guard = [] { __pthread_mutex_unlock(&s_loader_lock); };
RefPtr<DynamicObject> best_matching_library;
VirtualAddress best_library_offset;
for (auto& lib : s_global_objects) {
if (user_addr < lib.value->base_address())
continue;
auto offset = user_addr - lib.value->base_address();
if (!best_matching_library || offset < best_library_offset) {
best_matching_library = lib.value;
best_library_offset = offset;
}
}
if (!best_matching_library) {
return DlErrorMessage { "No library found which contains the specified address" };
}
Optional<DynamicObject::Symbol> best_matching_symbol;
best_matching_library->for_each_symbol([&](auto const& symbol) {
if (user_addr < symbol.address() || user_addr > symbol.address().offset(symbol.size()))
return;
best_matching_symbol = symbol;
});
info->dli_fbase = best_matching_library->base_address().as_ptr();
// This works because we don't support unloading objects.
info->dli_fname = best_matching_library->filename().characters();
if (best_matching_symbol.has_value()) {
info->dli_saddr = best_matching_symbol.value().address().as_ptr();
info->dli_sname = best_matching_symbol.value().raw_name();
} else {
info->dli_saddr = nullptr;
info->dli_sname = nullptr;
}
return {};
}
static void read_environment_variables()
{
for (char** env = s_envp; *env; ++env) {
if (StringView { *env } == "_LOADER_BREAKPOINT=1"sv) {
s_do_breakpoint_trap_before_entry = true;
}
}
}
void ELF::DynamicLinker::linker_main(String&& main_program_name, int main_program_fd, bool is_secure, int argc, char** argv, char** envp)
{
s_envp = envp;
s_allowed_to_check_environment_variables = !is_secure;
if (s_allowed_to_check_environment_variables)
read_environment_variables();
s_main_program_name = main_program_name;
auto library_name = get_library_name(main_program_name);
// NOTE: We always map the main library first, since it may require
// placement at a specific address.
auto result1 = map_library(main_program_name, main_program_fd);
if (result1.is_error()) {
warnln("{}", result1.error().text);
fflush(stderr);
_exit(1);
}
result1.release_value();
auto result2 = map_dependencies(library_name);
if (result2.is_error()) {
warnln("{}", result2.error().text);
fflush(stderr);
_exit(1);
}
dbgln_if(DYNAMIC_LOAD_DEBUG, "loaded all dependencies");
for ([[maybe_unused]] auto& lib : s_loaders) {
dbgln_if(DYNAMIC_LOAD_DEBUG, "{} - tls size: {}, tls offset: {}", lib.key, lib.value->tls_size_of_current_object(), lib.value->tls_offset());
}
allocate_tls();
auto entry_point_function = [&main_program_name] {
auto library_name = get_library_name(main_program_name);
auto result = load_main_library(library_name, RTLD_GLOBAL | RTLD_LAZY);
if (result.is_error()) {
warnln("{}", result.error().text);
_exit(1);
}
auto& main_executable_loader = result.value();
auto entry_point = main_executable_loader->image().entry();
if (main_executable_loader->is_dynamic())
entry_point = entry_point.offset(main_executable_loader->base_address().get());
return (EntryPointFunction)(entry_point.as_ptr());
}();
s_loaders.clear();
int rc = syscall(SC_msyscall, nullptr);
if (rc < 0) {
VERIFY_NOT_REACHED();
}
dbgln_if(DYNAMIC_LOAD_DEBUG, "Jumping to entry point: {:p}", entry_point_function);
if (s_do_breakpoint_trap_before_entry) {
asm("int3");
}
_invoke_entry(argc, argv, envp, entry_point_function);
VERIFY_NOT_REACHED();
}
}
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