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/*
* Copyright (C) 2019 The Android Open Source Project
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * 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 OWNER 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 <dlfcn.h>
#include <gtest/gtest.h>
#include <link.h>
#include <thread>
#include "gtest_globals.h"
#include "platform/bionic/tls.h"
#include "utils.h"
#if defined(__BIONIC__)
#include "bionic/pthread_internal.h"
#endif
// Access libtest_elftls_shared_var.so's TLS variable using an IE access.
__attribute__((tls_model("initial-exec"))) extern "C" __thread int elftls_shared_var;
TEST(elftls_dl, dlopen_shared_var_ie) {
// libtest_elftls_shared_var_ie.so can be dlopen'ed, even though it contains a
// TLS IE access, because its IE access references a TLS variable from
// libtest_elftls_shared_var.so, which is DT_NEEDED by the executable. This
// pattern appears in sanitizers, which use TLS IE instrumentation in shared
// objects to access special variables exported from the executable or from a
// preloaded solib.
void* lib = dlopen("libtest_elftls_shared_var_ie.so", RTLD_LOCAL | RTLD_NOW);
ASSERT_NE(nullptr, lib);
auto bump_shared_var = reinterpret_cast<int(*)()>(dlsym(lib, "bump_shared_var"));
ASSERT_NE(nullptr, bump_shared_var);
ASSERT_EQ(21, ++elftls_shared_var);
ASSERT_EQ(22, bump_shared_var());
std::thread([bump_shared_var] {
ASSERT_EQ(21, ++elftls_shared_var);
ASSERT_EQ(22, bump_shared_var());
}).join();
}
TEST(elftls_dl, dlopen_ie_error) {
std::string helper = GetTestlibRoot() +
"/elftls_dlopen_ie_error_helper/elftls_dlopen_ie_error_helper";
std::string src_path = GetTestlibRoot() + "/libtest_elftls_shared_var_ie.so";
std::string dst_path = GetTestlibRoot() + "/libtest_elftls_shared_var.so";
#if defined(__BIONIC__)
std::string error =
"dlerror: dlopen failed: TLS symbol \"elftls_shared_var\" in dlopened \"" + dst_path + "\" " +
"referenced from \"" + src_path + "\" using IE access model\n";
#else
// glibc will reserve some surplus static TLS memory, allowing this test to pass.
std::string error = "success\n";
#endif
chmod(helper.c_str(), 0755); // TODO: "x" lost in CTS, b/34945607
ExecTestHelper eth;
eth.SetArgs({ helper.c_str(), nullptr });
eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0, error.c_str());
}
// Use a GD access (__tls_get_addr or TLSDESC) to modify a variable in static
// TLS memory.
TEST(elftls_dl, access_static_tls) {
void* lib = dlopen("libtest_elftls_dynamic.so", RTLD_LOCAL | RTLD_NOW);
ASSERT_NE(nullptr, lib);
auto bump_shared_var = reinterpret_cast<int(*)()>(dlsym(lib, "bump_shared_var"));
ASSERT_NE(nullptr, bump_shared_var);
ASSERT_EQ(21, ++elftls_shared_var);
ASSERT_EQ(22, bump_shared_var());
std::thread([bump_shared_var] {
ASSERT_EQ(21, ++elftls_shared_var);
ASSERT_EQ(22, bump_shared_var());
}).join();
}
TEST(elftls_dl, bump_local_vars) {
void* lib = dlopen("libtest_elftls_dynamic.so", RTLD_LOCAL | RTLD_NOW);
ASSERT_NE(nullptr, lib);
auto bump_local_vars = reinterpret_cast<int(*)()>(dlsym(lib, "bump_local_vars"));
ASSERT_NE(nullptr, bump_local_vars);
ASSERT_EQ(42, bump_local_vars());
std::thread([bump_local_vars] {
ASSERT_EQ(42, bump_local_vars());
}).join();
}
extern "C" int* missing_weak_tls_addr();
// The Bionic linker resolves a TPREL relocation to an unresolved weak TLS
// symbol to 0, which is added to the thread pointer. N.B.: A TPREL relocation
// in a static executable is resolved by the static linker instead, and static
// linker behavior varies (especially with bfd and gold). See
// https://bugs.llvm.org/show_bug.cgi?id=40570.
TEST(elftls_dl, tprel_missing_weak) {
ASSERT_EQ(static_cast<void*>(__get_tls()), missing_weak_tls_addr());
std::thread([] {
ASSERT_EQ(static_cast<void*>(__get_tls()), missing_weak_tls_addr());
}).join();
}
// The behavior of accessing an unresolved weak TLS symbol using a dynamic TLS
// relocation depends on which kind of implementation the target uses. With
// TLSDESC, the result is NULL. With __tls_get_addr, the result is the
// generation count (or maybe undefined behavior)? This test only tests TLSDESC.
TEST(elftls_dl, tlsdesc_missing_weak) {
#if defined(__aarch64__)
void* lib = dlopen("libtest_elftls_dynamic.so", RTLD_LOCAL | RTLD_NOW);
ASSERT_NE(nullptr, lib);
auto missing_weak_dyn_tls_addr = reinterpret_cast<int*(*)()>(dlsym(lib, "missing_weak_dyn_tls_addr"));
ASSERT_NE(nullptr, missing_weak_dyn_tls_addr);
ASSERT_EQ(nullptr, missing_weak_dyn_tls_addr());
std::thread([missing_weak_dyn_tls_addr] {
ASSERT_EQ(nullptr, missing_weak_dyn_tls_addr());
}).join();
#else
GTEST_SKIP() << "This test is only run on TLSDESC-based targets";
#endif
}
TEST(elftls_dl, dtv_resize) {
#if defined(__BIONIC__)
#define LOAD_LIB(soname) ({ \
auto lib = dlopen(soname, RTLD_LOCAL | RTLD_NOW); \
ASSERT_NE(nullptr, lib); \
reinterpret_cast<int(*)()>(dlsym(lib, "bump")); \
})
auto dtv = []() -> TlsDtv* { return __get_tcb_dtv(__get_bionic_tcb()); };
static_assert(sizeof(TlsDtv) == 3 * sizeof(void*),
"This test assumes that the Dtv has a 3-word header");
// Initially there are 4 modules:
// - the main test executable
// - libc
// - libtest_elftls_shared_var
// - libtest_elftls_tprel
// The initial DTV is an empty DTV with no generation and a size of 0.
TlsDtv* zero_dtv = dtv();
ASSERT_EQ(0u, zero_dtv->count);
ASSERT_EQ(nullptr, zero_dtv->next);
ASSERT_EQ(kTlsGenerationNone, zero_dtv->generation);
// Load the fifth module.
auto func1 = LOAD_LIB("libtest_elftls_dynamic_filler_1.so");
ASSERT_EQ(101, func1());
// After loading one module, the DTV should be initialized to the next
// power-of-2 size (including the header).
TlsDtv* initial_dtv = dtv();
ASSERT_EQ(5u, initial_dtv->count);
ASSERT_EQ(zero_dtv, initial_dtv->next);
ASSERT_LT(0u, initial_dtv->generation);
// Load module 6.
auto func2 = LOAD_LIB("libtest_elftls_dynamic_filler_2.so");
ASSERT_EQ(102, func1());
#if defined(__aarch64__)
// The arm64 TLSDESC resolver doesn't update the DTV if it is new enough for
// the given access.
ASSERT_EQ(5u, dtv()->count);
#else
// __tls_get_addr updates the DTV anytime the generation counter changes.
ASSERT_EQ(13u, dtv()->count);
#endif
ASSERT_EQ(201, func2());
TlsDtv* new_dtv = dtv();
ASSERT_NE(initial_dtv, new_dtv);
ASSERT_EQ(initial_dtv, new_dtv->next);
ASSERT_EQ(13u, new_dtv->count);
// Load module 7.
auto func3 = LOAD_LIB("libtest_elftls_dynamic_filler_3.so");
ASSERT_EQ(103, func1());
ASSERT_EQ(202, func2());
ASSERT_EQ(301, func3());
ASSERT_EQ(new_dtv, dtv());
#undef LOAD_LIB
#else
GTEST_SKIP() << "test doesn't apply to glibc";
#endif
}
// Verify that variables are reset to their initial values after the library
// containing them is closed.
TEST(elftls_dl, dlclose_resets_values) {
for (int round = 0; round < 2; ++round) {
void* lib = dlopen("libtest_elftls_dynamic.so", RTLD_LOCAL | RTLD_NOW);
ASSERT_NE(nullptr, lib);
auto bump_local_vars = reinterpret_cast<int(*)()>(dlsym(lib, "bump_local_vars"));
ASSERT_NE(nullptr, bump_local_vars);
ASSERT_EQ(42, bump_local_vars());
ASSERT_EQ(44, bump_local_vars());
ASSERT_EQ(0, dlclose(lib));
}
}
// Calling dlclose should remove the entry for the solib from the global list of
// ELF TLS modules. Test that repeatedly loading and unloading a library doesn't
// increase the DTV size.
TEST(elftls_dl, dlclose_removes_entry) {
#if defined(__BIONIC__)
auto dtv = []() -> TlsDtv* { return __get_tcb_dtv(__get_bionic_tcb()); };
bool first = true;
size_t count = 0;
// Use a large number of rounds in case the DTV is initially larger than
// expected.
for (int round = 0; round < 32; ++round) {
void* lib = dlopen("libtest_elftls_dynamic.so", RTLD_LOCAL | RTLD_NOW);
ASSERT_NE(nullptr, lib);
auto bump_local_vars = reinterpret_cast<int(*)()>(dlsym(lib, "bump_local_vars"));
ASSERT_NE(nullptr, bump_local_vars);
ASSERT_EQ(42, bump_local_vars());
if (first) {
first = false;
count = dtv()->count;
} else {
ASSERT_EQ(count, dtv()->count);
}
dlclose(lib);
}
#else
GTEST_SKIP() << "test doesn't apply to glibc";
#endif
}
// Use dlsym to get the address of a TLS variable in static TLS and compare it
// against the ordinary address of the variable.
TEST(elftls_dl, dlsym_static_tls) {
void* lib = dlopen("libtest_elftls_shared_var.so", RTLD_LOCAL | RTLD_NOW);
ASSERT_NE(nullptr, lib);
int* var_addr = static_cast<int*>(dlsym(lib, "elftls_shared_var"));
ASSERT_EQ(&elftls_shared_var, var_addr);
std::thread([lib] {
int* var_addr = static_cast<int*>(dlsym(lib, "elftls_shared_var"));
ASSERT_EQ(&elftls_shared_var, var_addr);
}).join();
}
// Use dlsym to get the address of a TLS variable in dynamic TLS and compare it
// against the ordinary address of the variable.
TEST(elftls_dl, dlsym_dynamic_tls) {
void* lib = dlopen("libtest_elftls_dynamic.so", RTLD_LOCAL | RTLD_NOW);
ASSERT_NE(nullptr, lib);
auto get_var_addr = reinterpret_cast<int*(*)()>(dlsym(lib, "get_large_tls_var_addr"));
ASSERT_NE(nullptr, get_var_addr);
int* var_addr = static_cast<int*>(dlsym(lib, "large_tls_var"));
ASSERT_EQ(get_var_addr(), var_addr);
std::thread([lib, get_var_addr] {
int* var_addr = static_cast<int*>(dlsym(lib, "large_tls_var"));
ASSERT_EQ(get_var_addr(), var_addr);
}).join();
}
// Calling dladdr on a TLS variable's address doesn't find anything.
TEST(elftls_dl, dladdr_on_tls_var) {
Dl_info info;
// Static TLS variable
ASSERT_EQ(0, dladdr(&elftls_shared_var, &info));
// Dynamic TLS variable
void* lib = dlopen("libtest_elftls_dynamic.so", RTLD_LOCAL | RTLD_NOW);
ASSERT_NE(nullptr, lib);
int* var_addr = static_cast<int*>(dlsym(lib, "large_tls_var"));
ASSERT_EQ(0, dladdr(var_addr, &info));
}
// Verify that dladdr does not misinterpret a TLS symbol's value as a virtual
// address.
TEST(elftls_dl, dladdr_skip_tls_symbol) {
void* lib = dlopen("libtest_elftls_dynamic.so", RTLD_LOCAL | RTLD_NOW);
auto get_local_addr = reinterpret_cast<void*(*)()>(dlsym(lib, "get_local_addr"));
ASSERT_NE(nullptr, get_local_addr);
void* local_addr = get_local_addr();
Dl_info info;
ASSERT_NE(0, dladdr(local_addr, &info));
std::string libpath = GetTestlibRoot() + "/libtest_elftls_dynamic.so";
char dli_realpath[PATH_MAX];
ASSERT_TRUE(realpath(info.dli_fname, dli_realpath));
ASSERT_STREQ(libpath.c_str(), dli_realpath);
ASSERT_STREQ(nullptr, info.dli_sname);
ASSERT_EQ(nullptr, info.dli_saddr);
}
TEST(elftls_dl, dl_iterate_phdr) {
void* lib = dlopen("libtest_elftls_dynamic.so", RTLD_LOCAL | RTLD_NOW);
auto get_var_addr = reinterpret_cast<void*(*)()>(dlsym(lib, "get_large_tls_var_addr"));
ASSERT_NE(nullptr, get_var_addr);
struct TlsInfo {
bool found;
size_t modid;
void* data;
size_t memsz;
};
auto get_tls_info = []() {
auto callback = [](dl_phdr_info* info, size_t, void* data) {
TlsInfo& tls_info = *static_cast<TlsInfo*>(data);
// This test is also run with glibc, where dlpi_name may have relative path components, so
// examine just the basename when searching for the library.
if (strcmp(basename(info->dlpi_name), "libtest_elftls_dynamic.so") != 0) return 0;
tls_info.found = true;
tls_info.modid = info->dlpi_tls_modid;
tls_info.data = info->dlpi_tls_data;
for (ElfW(Half) i = 0; i < info->dlpi_phnum; ++i) {
if (info->dlpi_phdr[i].p_type == PT_TLS) {
tls_info.memsz = info->dlpi_phdr[i].p_memsz;
}
}
EXPECT_NE(static_cast<size_t>(0), tls_info.memsz);
return 1;
};
TlsInfo result {};
dl_iterate_phdr(callback, &result);
return result;
};
// The executable has a TLS segment, so it will use module ID #1, and the DSO's ID will be larger
// than 1. Initially, the data field is nullptr, because this thread's instance hasn't been
// allocated yet.
TlsInfo tls_info = get_tls_info();
ASSERT_TRUE(tls_info.found);
ASSERT_GT(tls_info.modid, static_cast<size_t>(1));
ASSERT_EQ(nullptr, tls_info.data);
void* var_addr = get_var_addr();
// Verify that dl_iterate_phdr returns a range of memory covering the allocated TLS variable.
tls_info = get_tls_info();
ASSERT_TRUE(tls_info.found);
ASSERT_GE(var_addr, tls_info.data);
ASSERT_LT(var_addr, static_cast<char*>(tls_info.data) + tls_info.memsz);
}