tests/dl_test.cpp - android_bionic - Gitiles

 /*
  * Copyright (C) 2012 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include <gtest/gtest.h>

 #if defined(__BIONIC__)
 #include <android-base/properties.h>
 #endif

 #include <dlfcn.h>
 #include <libgen.h>
 #include <limits.h>
 #include <stdio.h>
 #include <stdint.h>
 #include <sys/stat.h>

 #include <fstream>
 #include <iostream>
 #include <regex>
 #include <string>

 #include <android-base/file.h>
 #include <android-base/macros.h>
 #include <android-base/test_utils.h>
 #include "gtest_globals.h"
 #include "utils.h"

 extern "C" int main_global_default_serial() {
   return 3370318;
 }

 extern "C" int main_global_protected_serial() {
   return 2716057;
 }

 // The following functions are defined in DT_NEEDED
 // libdl_preempt_test.so library.

 // This one calls main_global_default_serial
 extern "C" int main_global_default_get_serial();

 // This one calls main_global_protected_serial
 extern "C" int main_global_protected_get_serial();

 // This one calls lib_global_default_serial
 extern "C" int lib_global_default_get_serial();

 // This one calls lib_global_protected_serial
 extern "C" int lib_global_protected_get_serial();

 // This test verifies that the global default function
 // main_global_default_serial() is preempted by
 // the function defined above.
 TEST(dl, main_preempts_global_default) {
   ASSERT_EQ(3370318, main_global_default_get_serial());
 }

 // This one makes sure that the global protected
 // symbols do not get preempted
 TEST(dl, main_does_not_preempt_global_protected) {
   ASSERT_EQ(3370318, main_global_protected_get_serial());
 }

 // check same things for lib
 TEST(dl, lib_preempts_global_default) {
   ASSERT_EQ(3370318, lib_global_default_get_serial());
 }

 TEST(dl, lib_does_not_preempt_global_protected) {
   ASSERT_EQ(3370318, lib_global_protected_get_serial());
 }

 #if defined(__BIONIC__)
 #if defined(__LP64__)
 #define LINKER_NAME "linker64"
 #else
 #define LINKER_NAME "linker"
 #endif
 static constexpr const char* kPathToLinker = "/system/bin/" LINKER_NAME;
 static constexpr const char* kAlternatePathToLinker = "/system/bin/" ABI_STRING "/" LINKER_NAME;
 #undef LINKER_NAME

 const char* PathToLinker() {
   // On the systems with emulated architecture linker would be of different
   // architecture. Try to use alternate paths first.
   struct stat buffer;
   if (stat(kAlternatePathToLinker, &buffer) == 0) {
     return kAlternatePathToLinker;
   }
   return kPathToLinker;
 }
 #endif  // defined(__BIONIC__)

 TEST(dl, exec_linker) {
 #if defined(__BIONIC__)
   const char* path_to_linker = PathToLinker();
   std::string usage_prefix = std::string("Usage: ") + path_to_linker;
   ExecTestHelper eth;
   eth.SetArgs({ path_to_linker, nullptr });
   eth.Run([&]() { execve(path_to_linker, eth.GetArgs(), eth.GetEnv()); }, 0, nullptr);
   ASSERT_EQ(0u, eth.GetOutput().find(usage_prefix)) << "Test output:\n" << eth.GetOutput();
 #endif
 }

 TEST(dl, exec_linker_load_file) {
 #if defined(__BIONIC__)
   const char* path_to_linker = PathToLinker();
   std::string helper = GetTestLibRoot() + "/exec_linker_helper";
   std::string expected_output =
       "ctor: argc=1 argv[0]=" + helper + "\n" +
       "main: argc=1 argv[0]=" + helper + "\n" +
       "__progname=exec_linker_helper\n" +
       "helper_func called\n";
   ExecTestHelper eth;
   eth.SetArgs({ path_to_linker, helper.c_str(), nullptr });
   eth.Run([&]() { execve(path_to_linker, eth.GetArgs(), eth.GetEnv()); }, 0, nullptr);
   ASSERT_EQ(expected_output, eth.GetOutput());
 #endif
 }

 TEST(dl, exec_linker_load_from_zip) {
 #if defined(__BIONIC__)
   const char* path_to_linker = PathToLinker();
   std::string helper = GetTestLibRoot() +
       "/libdlext_test_zip/libdlext_test_zip_zipaligned.zip!/libdir/exec_linker_helper";
   std::string expected_output =
       "ctor: argc=1 argv[0]=" + helper + "\n" +
       "main: argc=1 argv[0]=" + helper + "\n" +
       "__progname=exec_linker_helper\n" +
       "helper_func called\n";
   ExecTestHelper eth;
   eth.SetArgs({ path_to_linker, helper.c_str(), nullptr });
   eth.Run([&]() { execve(path_to_linker, eth.GetArgs(), eth.GetEnv()); }, 0, nullptr);
   ASSERT_EQ(expected_output, eth.GetOutput());
 #endif
 }

 TEST(dl, exec_linker_load_self) {
 #if defined(__BIONIC__)
   const char* path_to_linker = PathToLinker();
   std::string error_message = "error: linker cannot load itself\n";
   ExecTestHelper eth;
   eth.SetArgs({ path_to_linker, path_to_linker, nullptr });
   eth.Run([&]() { execve(path_to_linker, eth.GetArgs(), eth.GetEnv()); }, EXIT_FAILURE, error_message.c_str());
 #endif
 }

 TEST(dl, preinit_system_calls) {
 #if defined(__BIONIC__)
   SKIP_WITH_HWASAN << "hwasan not initialized in preinit_array, b/124007027";
   std::string helper = GetTestLibRoot() + "/preinit_syscall_test_helper";
   ExecTestHelper eth;
   eth.SetArgs({ helper.c_str(), nullptr });
   eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0, nullptr);
 #endif
 }

 TEST(dl, preinit_getauxval) {
 #if defined(__BIONIC__)
   SKIP_WITH_HWASAN << "hwasan not initialized in preinit_array, b/124007027";
   std::string helper = GetTestLibRoot() + "/preinit_getauxval_test_helper";
   ExecTestHelper eth;
   eth.SetArgs({ helper.c_str(), nullptr });
   eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0, nullptr);
 #else
   // Force a failure when not compiled for bionic so the test is considered a pass.
   ASSERT_TRUE(false);
 #endif
 }


 TEST(dl, exec_without_ld_preload) {
 #if defined(__BIONIC__)
   std::string helper = GetTestLibRoot() + "/ld_preload_test_helper";
   ExecTestHelper eth;
   eth.SetArgs({ helper.c_str(), nullptr });
   eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0, "12345");
 #endif
 }

 TEST(dl, exec_with_ld_preload) {
 #if defined(__BIONIC__)
   std::string helper = GetTestLibRoot() + "/ld_preload_test_helper";
   std::string env = std::string("LD_PRELOAD=") + GetTestLibRoot() + "/ld_preload_test_helper_lib2.so";
   ExecTestHelper eth;
   eth.SetArgs({ helper.c_str(), nullptr });
   eth.SetEnv({ env.c_str(), nullptr });
   // ld_preload_test_helper calls get_value_from_lib() and returns the value.
   // The symbol is defined by two libs: ld_preload_test_helper_lib.so and
   // ld_preloaded_lib.so. The former is DT_NEEDED and the latter is LD_PRELOADED
   // via this execution. The main executable is linked to the LD_PRELOADED lib
   // and the value given from the lib is returned.
   eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0, "54321");
 #endif
 }


 // ld_config_test_helper must fail because it is depending on a lib which is not
 // in the search path
 //
 // Call sequence is...
 // _helper -- (get_value_from_lib()) -->
 //     _lib1.so -- (get_value_from_another_lib()) -->
 //       _lib2.so (returns 12345)
 // The two libs are in ns2/ subdir.
 TEST(dl, exec_without_ld_config_file) {
 #if defined(__BIONIC__)
   std::string error_message = "CANNOT LINK EXECUTABLE \"" + GetTestLibRoot() +
                               "/ld_config_test_helper\": library \"ld_config_test_helper_lib1.so\" "
                               "not found: needed by main executable\n";
   std::string helper = GetTestLibRoot() + "/ld_config_test_helper";
   ExecTestHelper eth;
   eth.SetArgs({ helper.c_str(), nullptr });
   eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, EXIT_FAILURE, error_message.c_str());
 #endif
 }

 #if defined(__BIONIC__)
 extern "C" void android_get_LD_LIBRARY_PATH(char*, size_t);
 static void create_ld_config_file(const char* config_file) {
   char default_search_paths[PATH_MAX];
   android_get_LD_LIBRARY_PATH(default_search_paths, sizeof(default_search_paths));

   std::ofstream fout(config_file, std::ios::out);
   fout << "dir.test = " << GetTestLibRoot() << "/" << std::endl
        << "[test]" << std::endl
        << "additional.namespaces = ns2" << std::endl
        << "namespace.default.search.paths = " << GetTestLibRoot() << std::endl
        << "namespace.default.links = ns2" << std::endl
        << "namespace.default.link.ns2.shared_libs = "
           "libc.so:libm.so:libdl.so:ld_config_test_helper_lib1.so"
        << std::endl
        << "namespace.ns2.search.paths = " << default_search_paths << ":" << GetTestLibRoot()
        << "/ns2" << std::endl;
   fout.close();
 }
 #endif

 #if defined(__BIONIC__)
 // This test can't rely on ro.debuggable, because it might have been forced on
 // in a user build ("Force Debuggable"). In that configuration, ro.debuggable is
 // true, but Bionic's LD_CONFIG_FILE testing support is still disabled.
 static bool is_user_build() {
   return android::base::GetProperty("ro.build.type", "user") == std::string("user");
 }
 #endif

 // lib1.so and lib2.so are now searchable by having another namespace 'ns2'
 // whose search paths include the 'ns2/' subdir.
 //
 // lib1.so is linked with DF_1_GLOBAL, so both it and the executable are added
 // to every namespace.
 //
 // namespace configuration ('*' indicates primary ns)
 //  - default: exe[*], lib1.so
 //  - ns2: exe, lib1.so[*], lib2.so[*]
 //
 TEST(dl, exec_with_ld_config_file) {
 #if defined(__BIONIC__)
   SKIP_WITH_HWASAN << "libclang_rt.hwasan is not found with custom ld config";
   if (is_user_build()) {
     GTEST_SKIP() << "LD_CONFIG_FILE is not supported on user build";
   }
   std::string helper = GetTestLibRoot() + "/ld_config_test_helper";
   TemporaryFile config_file;
   create_ld_config_file(config_file.path);
   std::string env = std::string("LD_CONFIG_FILE=") + config_file.path;
   ExecTestHelper eth;
   eth.SetArgs({ helper.c_str(), nullptr });
   eth.SetEnv({ env.c_str(), nullptr });
   eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0,
           "foo lib1\n"
           "lib1_call_funcs\n"
           "foo lib1\n"
           "bar lib2\n");
 #endif
 }

 // lib3.so has same foo and bar symbols as lib2.so. lib3.so is LD_PRELOADed.
 // This test ensures that LD_PRELOADed libs are available to all namespaces.
 //
 // namespace configuration ('*' indicates primary ns)
 //  - default: exe[*], lib3.so[*], lib1.so
 //  - ns2: exe, lib3.so, lib1.so[*], lib2.so[*]
 //
 // Ensure that, in both namespaces, a call to foo calls the lib3.so symbol,
 // which then calls the lib1.so symbol using RTLD_NEXT. Ensure that RTLD_NEXT
 // finds nothing when called from lib1.so.
 //
 // For the bar symbol, lib3.so's primary namespace is the default namespace, but
 // lib2.so is not in the default namespace, so using RTLD_NEXT from lib3.so
 // doesn't find the symbol in lib2.so.
 TEST(dl, exec_with_ld_config_file_with_ld_preload) {
 #if defined(__BIONIC__)
   SKIP_WITH_HWASAN << "libclang_rt.hwasan is not found with custom ld config";
   if (is_user_build()) {
     GTEST_SKIP() << "LD_CONFIG_FILE is not supported on user build";
   }
   std::string helper = GetTestLibRoot() + "/ld_config_test_helper";
   TemporaryFile config_file;
   create_ld_config_file(config_file.path);
   std::string env = std::string("LD_CONFIG_FILE=") + config_file.path;
   std::string env2 = std::string("LD_PRELOAD=") + GetTestLibRoot() + "/ld_config_test_helper_lib3.so";
   ExecTestHelper eth;
   eth.SetArgs({ helper.c_str(), nullptr });
   eth.SetEnv({ env.c_str(), env2.c_str(), nullptr });
   eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0,
           "foo lib3\n"
           "foo lib1\n"
           "lib1_call_funcs\n"
           "foo lib3\n"
           "foo lib1\n"
           "bar lib3\n"
           "lib3_call_funcs\n"
           "foo lib3\n"
           "foo lib1\n"
           "bar lib3\n");
 #endif
 }

 // ensures that LD_CONFIG_FILE env var does not work for production builds.
 // The test input is the same as exec_with_ld_config_file, but it must fail in
 // this case.
 TEST(dl, disable_ld_config_file) {
 #if defined(__BIONIC__)
   if (getuid() == 0) {
     // when executed from the shell (e.g. not as part of CTS), skip the test.
     // This test is only for CTS.
     GTEST_SKIP() << "test is not supported with root uid";
   }
   if (!is_user_build()) {
     GTEST_SKIP() << "test requires user build";
   }

   std::string error_message =
       std::string("CANNOT LINK EXECUTABLE ") + "\"" + GetTestLibRoot() +
       "/ld_config_test_helper\": " +
       "library \"ld_config_test_helper_lib1.so\" not found: needed by main executable\n";
   std::string helper = GetTestLibRoot() + "/ld_config_test_helper";
   TemporaryFile config_file;
   create_ld_config_file(config_file.path);
   std::string env = std::string("LD_CONFIG_FILE=") + config_file.path;
   ExecTestHelper eth;
   eth.SetArgs({ helper.c_str(), nullptr });
   eth.SetEnv({ env.c_str(), nullptr });
   eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, EXIT_FAILURE, error_message.c_str());
 #endif
 }

 static void RelocationsTest(const char* lib, const char* expectation) {
 #if defined(__BIONIC__)
   // Does readelf think the .so file looks right?
   const std::string path = GetTestLibRoot() + "/" + lib;
   ExecTestHelper eth;
   eth.SetArgs({ "readelf", "-SW", path.c_str(), nullptr });
   eth.Run([&]() { execvpe("readelf", eth.GetArgs(), eth.GetEnv()); }, 0, nullptr);

   ASSERT_TRUE(std::regex_search(eth.GetOutput(), std::regex(expectation))) << eth.GetOutput();

   // Can we load it?
   void* handle = dlopen(lib, RTLD_NOW);
   ASSERT_TRUE(handle != nullptr) << dlerror();
 #else
   UNUSED(lib);
   UNUSED(expectation);
   GTEST_SKIP() << "test is not supported on glibc";
 #endif
 }

 TEST(dl, relocations_RELR) {
   RelocationsTest("librelocations-RELR.so", "\\.relr\\.dyn * RELR");
 }

 TEST(dl, relocations_ANDROID_RELR) {
   RelocationsTest("librelocations-ANDROID_RELR.so", "\\.relr\\.dyn * ANDROID_RELR");
 }

 TEST(dl, relocations_ANDROID_REL) {
   RelocationsTest("librelocations-ANDROID_REL.so",
 #if __LP64__
                   "\\.rela\\.dyn * ANDROID_RELA"
 #else
                   "\\.rel\\.dyn * ANDROID_REL"
 #endif
   );
 }

 TEST(dl, relocations_fat) {
   RelocationsTest("librelocations-fat.so",
 #if __LP64__
                   "\\.rela\\.dyn * RELA"
 #else
                   "\\.rel\\.dyn * REL"
 #endif
   );
 }
	/*
	* Copyright (C) 2012 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include <gtest/gtest.h>

	#if defined(__BIONIC__)
	#include <android-base/properties.h>
	#endif

	#include <dlfcn.h>
	#include <libgen.h>
	#include <limits.h>
	#include <stdio.h>
	#include <stdint.h>
	#include <sys/stat.h>

	#include <fstream>
	#include <iostream>
	#include <regex>
	#include <string>

	#include <android-base/file.h>
	#include <android-base/macros.h>
	#include <android-base/test_utils.h>
	#include "gtest_globals.h"
	#include "utils.h"

	extern "C" int main_global_default_serial() {
	return 3370318;
	}

	extern "C" int main_global_protected_serial() {
	return 2716057;
	}

	// The following functions are defined in DT_NEEDED
	// libdl_preempt_test.so library.

	// This one calls main_global_default_serial
	extern "C" int main_global_default_get_serial();

	// This one calls main_global_protected_serial
	extern "C" int main_global_protected_get_serial();

	// This one calls lib_global_default_serial
	extern "C" int lib_global_default_get_serial();

	// This one calls lib_global_protected_serial
	extern "C" int lib_global_protected_get_serial();

	// This test verifies that the global default function
	// main_global_default_serial() is preempted by
	// the function defined above.
	TEST(dl, main_preempts_global_default) {
	ASSERT_EQ(3370318, main_global_default_get_serial());
	}

	// This one makes sure that the global protected
	// symbols do not get preempted
	TEST(dl, main_does_not_preempt_global_protected) {
	ASSERT_EQ(3370318, main_global_protected_get_serial());
	}

	// check same things for lib
	TEST(dl, lib_preempts_global_default) {
	ASSERT_EQ(3370318, lib_global_default_get_serial());
	}

	TEST(dl, lib_does_not_preempt_global_protected) {
	ASSERT_EQ(3370318, lib_global_protected_get_serial());
	}

	#if defined(__BIONIC__)
	#if defined(__LP64__)
	#define LINKER_NAME "linker64"
	#else
	#define LINKER_NAME "linker"
	#endif
	static constexpr const char* kPathToLinker = "/system/bin/" LINKER_NAME;
	static constexpr const char* kAlternatePathToLinker = "/system/bin/" ABI_STRING "/" LINKER_NAME;
	#undef LINKER_NAME

	const char* PathToLinker() {
	// On the systems with emulated architecture linker would be of different
	// architecture. Try to use alternate paths first.
	struct stat buffer;
	if (stat(kAlternatePathToLinker, &buffer) == 0) {
	return kAlternatePathToLinker;
	}
	return kPathToLinker;
	}
	#endif // defined(__BIONIC__)

	TEST(dl, exec_linker) {
	#if defined(__BIONIC__)
	const char* path_to_linker = PathToLinker();
	std::string usage_prefix = std::string("Usage: ") + path_to_linker;
	ExecTestHelper eth;
	eth.SetArgs({ path_to_linker, nullptr });
	eth.Run([&]() { execve(path_to_linker, eth.GetArgs(), eth.GetEnv()); }, 0, nullptr);
	ASSERT_EQ(0u, eth.GetOutput().find(usage_prefix)) << "Test output:\n" << eth.GetOutput();
	#endif
	}

	TEST(dl, exec_linker_load_file) {
	#if defined(__BIONIC__)
	const char* path_to_linker = PathToLinker();
	std::string helper = GetTestLibRoot() + "/exec_linker_helper";
	std::string expected_output =
	"ctor: argc=1 argv[0]=" + helper + "\n" +
	"main: argc=1 argv[0]=" + helper + "\n" +
	"__progname=exec_linker_helper\n" +
	"helper_func called\n";
	ExecTestHelper eth;
	eth.SetArgs({ path_to_linker, helper.c_str(), nullptr });
	eth.Run([&]() { execve(path_to_linker, eth.GetArgs(), eth.GetEnv()); }, 0, nullptr);
	ASSERT_EQ(expected_output, eth.GetOutput());
	#endif
	}

	TEST(dl, exec_linker_load_from_zip) {
	#if defined(__BIONIC__)
	const char* path_to_linker = PathToLinker();
	std::string helper = GetTestLibRoot() +
	"/libdlext_test_zip/libdlext_test_zip_zipaligned.zip!/libdir/exec_linker_helper";
	std::string expected_output =
	"ctor: argc=1 argv[0]=" + helper + "\n" +
	"main: argc=1 argv[0]=" + helper + "\n" +
	"__progname=exec_linker_helper\n" +
	"helper_func called\n";
	ExecTestHelper eth;
	eth.SetArgs({ path_to_linker, helper.c_str(), nullptr });
	eth.Run([&]() { execve(path_to_linker, eth.GetArgs(), eth.GetEnv()); }, 0, nullptr);
	ASSERT_EQ(expected_output, eth.GetOutput());
	#endif
	}

	TEST(dl, exec_linker_load_self) {
	#if defined(__BIONIC__)
	const char* path_to_linker = PathToLinker();
	std::string error_message = "error: linker cannot load itself\n";
	ExecTestHelper eth;
	eth.SetArgs({ path_to_linker, path_to_linker, nullptr });
	eth.Run([&]() { execve(path_to_linker, eth.GetArgs(), eth.GetEnv()); }, EXIT_FAILURE, error_message.c_str());
	#endif
	}

	TEST(dl, preinit_system_calls) {
	#if defined(__BIONIC__)
	SKIP_WITH_HWASAN << "hwasan not initialized in preinit_array, b/124007027";
	std::string helper = GetTestLibRoot() + "/preinit_syscall_test_helper";
	ExecTestHelper eth;
	eth.SetArgs({ helper.c_str(), nullptr });
	eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0, nullptr);
	#endif
	}

	TEST(dl, preinit_getauxval) {
	#if defined(__BIONIC__)
	SKIP_WITH_HWASAN << "hwasan not initialized in preinit_array, b/124007027";
	std::string helper = GetTestLibRoot() + "/preinit_getauxval_test_helper";
	ExecTestHelper eth;
	eth.SetArgs({ helper.c_str(), nullptr });
	eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0, nullptr);
	#else
	// Force a failure when not compiled for bionic so the test is considered a pass.
	ASSERT_TRUE(false);
	#endif
	}


	TEST(dl, exec_without_ld_preload) {
	#if defined(__BIONIC__)
	std::string helper = GetTestLibRoot() + "/ld_preload_test_helper";
	ExecTestHelper eth;
	eth.SetArgs({ helper.c_str(), nullptr });
	eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0, "12345");
	#endif
	}

	TEST(dl, exec_with_ld_preload) {
	#if defined(__BIONIC__)
	std::string helper = GetTestLibRoot() + "/ld_preload_test_helper";
	std::string env = std::string("LD_PRELOAD=") + GetTestLibRoot() + "/ld_preload_test_helper_lib2.so";
	ExecTestHelper eth;
	eth.SetArgs({ helper.c_str(), nullptr });
	eth.SetEnv({ env.c_str(), nullptr });
	// ld_preload_test_helper calls get_value_from_lib() and returns the value.
	// The symbol is defined by two libs: ld_preload_test_helper_lib.so and
	// ld_preloaded_lib.so. The former is DT_NEEDED and the latter is LD_PRELOADED
	// via this execution. The main executable is linked to the LD_PRELOADED lib
	// and the value given from the lib is returned.
	eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0, "54321");
	#endif
	}


	// ld_config_test_helper must fail because it is depending on a lib which is not
	// in the search path
	//
	// Call sequence is...
	// _helper -- (get_value_from_lib()) -->
	// _lib1.so -- (get_value_from_another_lib()) -->
	// _lib2.so (returns 12345)
	// The two libs are in ns2/ subdir.
	TEST(dl, exec_without_ld_config_file) {
	#if defined(__BIONIC__)
	std::string error_message = "CANNOT LINK EXECUTABLE \"" + GetTestLibRoot() +
	"/ld_config_test_helper\": library \"ld_config_test_helper_lib1.so\" "
	"not found: needed by main executable\n";
	std::string helper = GetTestLibRoot() + "/ld_config_test_helper";
	ExecTestHelper eth;
	eth.SetArgs({ helper.c_str(), nullptr });
	eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, EXIT_FAILURE, error_message.c_str());
	#endif
	}

	#if defined(__BIONIC__)
	extern "C" void android_get_LD_LIBRARY_PATH(char*, size_t);
	static void create_ld_config_file(const char* config_file) {
	char default_search_paths[PATH_MAX];
	android_get_LD_LIBRARY_PATH(default_search_paths, sizeof(default_search_paths));

	std::ofstream fout(config_file, std::ios::out);
	fout << "dir.test = " << GetTestLibRoot() << "/" << std::endl
	<< "[test]" << std::endl
	<< "additional.namespaces = ns2" << std::endl
	<< "namespace.default.search.paths = " << GetTestLibRoot() << std::endl
	<< "namespace.default.links = ns2" << std::endl
	<< "namespace.default.link.ns2.shared_libs = "
	"libc.so:libm.so:libdl.so:ld_config_test_helper_lib1.so"
	<< std::endl
	<< "namespace.ns2.search.paths = " << default_search_paths << ":" << GetTestLibRoot()
	<< "/ns2" << std::endl;
	fout.close();
	}
	#endif

	#if defined(__BIONIC__)
	// This test can't rely on ro.debuggable, because it might have been forced on
	// in a user build ("Force Debuggable"). In that configuration, ro.debuggable is
	// true, but Bionic's LD_CONFIG_FILE testing support is still disabled.
	static bool is_user_build() {
	return android::base::GetProperty("ro.build.type", "user") == std::string("user");
	}
	#endif

	// lib1.so and lib2.so are now searchable by having another namespace 'ns2'
	// whose search paths include the 'ns2/' subdir.
	//
	// lib1.so is linked with DF_1_GLOBAL, so both it and the executable are added
	// to every namespace.
	//
	// namespace configuration ('*' indicates primary ns)
	// - default: exe[*], lib1.so
	// - ns2: exe, lib1.so[], lib2.so[]
	//
	TEST(dl, exec_with_ld_config_file) {
	#if defined(__BIONIC__)
	SKIP_WITH_HWASAN << "libclang_rt.hwasan is not found with custom ld config";
	if (is_user_build()) {
	GTEST_SKIP() << "LD_CONFIG_FILE is not supported on user build";
	}
	std::string helper = GetTestLibRoot() + "/ld_config_test_helper";
	TemporaryFile config_file;
	create_ld_config_file(config_file.path);
	std::string env = std::string("LD_CONFIG_FILE=") + config_file.path;
	ExecTestHelper eth;
	eth.SetArgs({ helper.c_str(), nullptr });
	eth.SetEnv({ env.c_str(), nullptr });
	eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0,
	"foo lib1\n"
	"lib1_call_funcs\n"
	"foo lib1\n"
	"bar lib2\n");
	#endif
	}

	// lib3.so has same foo and bar symbols as lib2.so. lib3.so is LD_PRELOADed.
	// This test ensures that LD_PRELOADed libs are available to all namespaces.
	//
	// namespace configuration ('*' indicates primary ns)
	// - default: exe[], lib3.so[], lib1.so
	// - ns2: exe, lib3.so, lib1.so[], lib2.so[]
	//
	// Ensure that, in both namespaces, a call to foo calls the lib3.so symbol,
	// which then calls the lib1.so symbol using RTLD_NEXT. Ensure that RTLD_NEXT
	// finds nothing when called from lib1.so.
	//
	// For the bar symbol, lib3.so's primary namespace is the default namespace, but
	// lib2.so is not in the default namespace, so using RTLD_NEXT from lib3.so
	// doesn't find the symbol in lib2.so.
	TEST(dl, exec_with_ld_config_file_with_ld_preload) {
	#if defined(__BIONIC__)
	SKIP_WITH_HWASAN << "libclang_rt.hwasan is not found with custom ld config";
	if (is_user_build()) {
	GTEST_SKIP() << "LD_CONFIG_FILE is not supported on user build";
	}
	std::string helper = GetTestLibRoot() + "/ld_config_test_helper";
	TemporaryFile config_file;
	create_ld_config_file(config_file.path);
	std::string env = std::string("LD_CONFIG_FILE=") + config_file.path;
	std::string env2 = std::string("LD_PRELOAD=") + GetTestLibRoot() + "/ld_config_test_helper_lib3.so";
	ExecTestHelper eth;
	eth.SetArgs({ helper.c_str(), nullptr });
	eth.SetEnv({ env.c_str(), env2.c_str(), nullptr });
	eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0,
	"foo lib3\n"
	"foo lib1\n"
	"lib1_call_funcs\n"
	"foo lib3\n"
	"foo lib1\n"
	"bar lib3\n"
	"lib3_call_funcs\n"
	"foo lib3\n"
	"foo lib1\n"
	"bar lib3\n");
	#endif
	}

	// ensures that LD_CONFIG_FILE env var does not work for production builds.
	// The test input is the same as exec_with_ld_config_file, but it must fail in
	// this case.
	TEST(dl, disable_ld_config_file) {
	#if defined(__BIONIC__)
	if (getuid() == 0) {
	// when executed from the shell (e.g. not as part of CTS), skip the test.
	// This test is only for CTS.
	GTEST_SKIP() << "test is not supported with root uid";
	}
	if (!is_user_build()) {
	GTEST_SKIP() << "test requires user build";
	}

	std::string error_message =
	std::string("CANNOT LINK EXECUTABLE ") + "\"" + GetTestLibRoot() +
	"/ld_config_test_helper\": " +
	"library \"ld_config_test_helper_lib1.so\" not found: needed by main executable\n";
	std::string helper = GetTestLibRoot() + "/ld_config_test_helper";
	TemporaryFile config_file;
	create_ld_config_file(config_file.path);
	std::string env = std::string("LD_CONFIG_FILE=") + config_file.path;
	ExecTestHelper eth;
	eth.SetArgs({ helper.c_str(), nullptr });
	eth.SetEnv({ env.c_str(), nullptr });
	eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, EXIT_FAILURE, error_message.c_str());
	#endif
	}

	static void RelocationsTest(const char* lib, const char* expectation) {
	#if defined(__BIONIC__)
	// Does readelf think the .so file looks right?
	const std::string path = GetTestLibRoot() + "/" + lib;
	ExecTestHelper eth;
	eth.SetArgs({ "readelf", "-SW", path.c_str(), nullptr });
	eth.Run([&]() { execvpe("readelf", eth.GetArgs(), eth.GetEnv()); }, 0, nullptr);

	ASSERT_TRUE(std::regex_search(eth.GetOutput(), std::regex(expectation))) << eth.GetOutput();

	// Can we load it?
	void* handle = dlopen(lib, RTLD_NOW);
	ASSERT_TRUE(handle != nullptr) << dlerror();
	#else
	UNUSED(lib);
	UNUSED(expectation);
	GTEST_SKIP() << "test is not supported on glibc";
	#endif
	}

	TEST(dl, relocations_RELR) {
	RelocationsTest("librelocations-RELR.so", "\\.relr\\.dyn * RELR");
	}

	TEST(dl, relocations_ANDROID_RELR) {
	RelocationsTest("librelocations-ANDROID_RELR.so", "\\.relr\\.dyn * ANDROID_RELR");
	}

	TEST(dl, relocations_ANDROID_REL) {
	RelocationsTest("librelocations-ANDROID_REL.so",
	#if __LP64__
	"\\.rela\\.dyn * ANDROID_RELA"
	#else
	"\\.rel\\.dyn * ANDROID_REL"
	#endif
	);
	}

	TEST(dl, relocations_fat) {
	RelocationsTest("librelocations-fat.so",
	#if __LP64__
	"\\.rela\\.dyn * RELA"
	#else
	"\\.rel\\.dyn * REL"
	#endif
	);
	}