/* * Copyright (C) 2014 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "core_shared_libs.h" #include "gtest_globals.h" #include "utils.h" #include "dlext_private.h" #include "dlfcn_symlink_support.h" #define ASSERT_DL_NOTNULL(ptr) \ ASSERT_TRUE((ptr) != nullptr) << "dlerror: " << dlerror() #define ASSERT_DL_ZERO(i) \ ASSERT_EQ(0, i) << "dlerror: " << dlerror() #define ASSERT_NOERROR(i) \ ASSERT_NE(-1, i) << "errno: " << strerror(errno) #define ASSERT_SUBSTR(needle, haystack) \ ASSERT_PRED_FORMAT2(::testing::IsSubstring, needle, haystack) typedef int (*fn)(void); constexpr const char* kLibName = "libdlext_test.so"; constexpr const char* kLibNameRecursive = "libdlext_test_recursive.so"; constexpr const char* kLibNameNoRelro = "libdlext_test_norelro.so"; constexpr const char* kLibZipSimpleZip = "libdir/libatest_simple_zip.so"; constexpr auto kLibSize = 1024 * 1024; // how much address space to reserve for it class DlExtTest : public ::testing::Test { protected: void SetUp() override { handle_ = nullptr; // verify that we don't have the library loaded already void* h = dlopen(kLibName, RTLD_NOW | RTLD_NOLOAD); ASSERT_TRUE(h == nullptr); h = dlopen(kLibNameNoRelro, RTLD_NOW | RTLD_NOLOAD); ASSERT_TRUE(h == nullptr); // call dlerror() to swallow the error, and check it was the one we wanted ASSERT_EQ(std::string("dlopen failed: library \"") + kLibNameNoRelro + "\" wasn't loaded and RTLD_NOLOAD prevented it", dlerror()); } void TearDown() override { if (handle_ != nullptr) { ASSERT_DL_ZERO(dlclose(handle_)); } } void* handle_; }; TEST_F(DlExtTest, ExtInfoNull) { handle_ = android_dlopen_ext(kLibName, RTLD_NOW, nullptr); ASSERT_DL_NOTNULL(handle_); fn f = reinterpret_cast(dlsym(handle_, "getRandomNumber")); ASSERT_DL_NOTNULL(f); EXPECT_EQ(4, f()); } TEST_F(DlExtTest, ExtInfoNoFlags) { android_dlextinfo extinfo; extinfo.flags = 0; handle_ = android_dlopen_ext(kLibName, RTLD_NOW, &extinfo); ASSERT_DL_NOTNULL(handle_); fn f = reinterpret_cast(dlsym(handle_, "getRandomNumber")); ASSERT_DL_NOTNULL(f); EXPECT_EQ(4, f()); } TEST_F(DlExtTest, ExtInfoUseFd) { const std::string lib_path = GetTestlibRoot() + "/libdlext_test_fd/libdlext_test_fd.so"; android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_LIBRARY_FD; extinfo.library_fd = TEMP_FAILURE_RETRY(open(lib_path.c_str(), O_RDONLY | O_CLOEXEC)); ASSERT_TRUE(extinfo.library_fd != -1); handle_ = android_dlopen_ext(lib_path.c_str(), RTLD_NOW, &extinfo); ASSERT_DL_NOTNULL(handle_); fn f = reinterpret_cast(dlsym(handle_, "getRandomNumber")); ASSERT_DL_NOTNULL(f); EXPECT_EQ(4, f()); uint32_t* taxicab_number = reinterpret_cast(dlsym(handle_, "dlopen_testlib_taxicab_number")); ASSERT_DL_NOTNULL(taxicab_number); EXPECT_EQ(1729U, *taxicab_number); } TEST_F(DlExtTest, ExtInfoUseFdWithOffset) { const std::string lib_path = GetTestlibRoot() + "/libdlext_test_zip/libdlext_test_zip_zipaligned.zip"; android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_LIBRARY_FD | ANDROID_DLEXT_USE_LIBRARY_FD_OFFSET; extinfo.library_fd = TEMP_FAILURE_RETRY(open(lib_path.c_str(), O_RDONLY | O_CLOEXEC)); // Find the offset of the shared library in the zip. ZipArchiveHandle handle; ASSERT_EQ(0, OpenArchive(lib_path.c_str(), &handle)); ZipEntry zip_entry; ASSERT_EQ(0, FindEntry(handle, kLibZipSimpleZip, &zip_entry)); extinfo.library_fd_offset = zip_entry.offset; CloseArchive(handle); handle_ = android_dlopen_ext(lib_path.c_str(), RTLD_NOW, &extinfo); ASSERT_DL_NOTNULL(handle_); uint32_t* taxicab_number = reinterpret_cast(dlsym(handle_, "dlopen_testlib_taxicab_number")); ASSERT_DL_NOTNULL(taxicab_number); EXPECT_EQ(1729U, *taxicab_number); } TEST_F(DlExtTest, ExtInfoUseFdWithInvalidOffset) { const std::string lib_path = GetTestlibRoot() + "/libdlext_test_zip/libdlext_test_zip_zipaligned.zip"; android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_LIBRARY_FD | ANDROID_DLEXT_USE_LIBRARY_FD_OFFSET; extinfo.library_fd = TEMP_FAILURE_RETRY(open(lib_path.c_str(), O_RDONLY | O_CLOEXEC)); extinfo.library_fd_offset = 17; handle_ = android_dlopen_ext("libname_placeholder", RTLD_NOW, &extinfo); ASSERT_TRUE(handle_ == nullptr); ASSERT_STREQ("dlopen failed: file offset for the library \"libname_placeholder\" is not page-aligned: 17", dlerror()); // Test an address above 2^44, for http://b/18178121 . extinfo.library_fd_offset = (5LL<<48) + PAGE_SIZE; handle_ = android_dlopen_ext("libname_placeholder", RTLD_NOW, &extinfo); ASSERT_TRUE(handle_ == nullptr); ASSERT_SUBSTR("dlopen failed: file offset for the library \"libname_placeholder\" >= file size", dlerror()); extinfo.library_fd_offset = 0LL - PAGE_SIZE; handle_ = android_dlopen_ext("libname_placeholder", RTLD_NOW, &extinfo); ASSERT_TRUE(handle_ == nullptr); ASSERT_SUBSTR("dlopen failed: file offset for the library \"libname_placeholder\" is negative", dlerror()); extinfo.library_fd_offset = 0; handle_ = android_dlopen_ext("libname_ignored", RTLD_NOW, &extinfo); ASSERT_TRUE(handle_ == nullptr); ASSERT_EQ("dlopen failed: \"" + lib_path + "\" has bad ELF magic: 504b0304", dlerror()); // Check if dlsym works after unsuccessful dlopen(). // Supply non-exiting one to make linker visit every soinfo. void* sym = dlsym(RTLD_DEFAULT, "this_symbol_does_not_exist___"); ASSERT_TRUE(sym == nullptr); close(extinfo.library_fd); } TEST_F(DlExtTest, ExtInfoUseOffsetWithoutFd) { android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_LIBRARY_FD_OFFSET; // This offset will not be used, so it doesn't matter. extinfo.library_fd_offset = 0; handle_ = android_dlopen_ext("/some/lib/that/does_not_exist", RTLD_NOW, &extinfo); ASSERT_TRUE(handle_ == nullptr); ASSERT_STREQ("dlopen failed: invalid extended flag combination (ANDROID_DLEXT_USE_LIBRARY_FD_OFFSET without ANDROID_DLEXT_USE_LIBRARY_FD): 0x20", dlerror()); } TEST(dlext, android_dlopen_ext_force_load_smoke) { DlfcnSymlink symlink("android_dlopen_ext_force_load_smoke"); const std::string symlink_name = basename(symlink.get_symlink_path().c_str()); // 1. Open actual file void* handle = dlopen("libdlext_test.so", RTLD_NOW); ASSERT_DL_NOTNULL(handle); // 2. Open link with force_load flag set android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_FORCE_LOAD; void* handle2 = android_dlopen_ext(symlink_name.c_str(), RTLD_NOW, &extinfo); ASSERT_DL_NOTNULL(handle2); ASSERT_TRUE(handle != handle2); dlclose(handle2); dlclose(handle); } TEST(dlext, android_dlopen_ext_force_load_soname_exception) { DlfcnSymlink symlink("android_dlopen_ext_force_load_soname_exception"); const std::string symlink_name = basename(symlink.get_symlink_path().c_str()); // Check if soname lookup still returns already loaded library // when ANDROID_DLEXT_FORCE_LOAD flag is specified. void* handle = dlopen(symlink_name.c_str(), RTLD_NOW); ASSERT_DL_NOTNULL(handle); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_FORCE_LOAD; // Note that 'libdlext_test.so' is dt_soname for the symlink_name void* handle2 = android_dlopen_ext("libdlext_test.so", RTLD_NOW, &extinfo); ASSERT_DL_NOTNULL(handle2); ASSERT_TRUE(handle == handle2); dlclose(handle2); dlclose(handle); } TEST(dlfcn, dlopen_from_nullptr_android_api_level_28) { // Regression test for http://b/123972211. Testing dlopen(nullptr) when target sdk is P android_set_application_target_sdk_version(28); ASSERT_TRUE(dlopen(nullptr, RTLD_NOW) != nullptr); } // Test system path translation for backward compatibility. http://b/130219528 TEST(dlfcn, dlopen_system_libicuuc_android_api_level_28) { android_set_application_target_sdk_version(28); ASSERT_TRUE(dlopen(PATH_TO_SYSTEM_LIB "libicuuc.so", RTLD_NOW) != nullptr); ASSERT_TRUE(dlopen(PATH_TO_SYSTEM_LIB "libicui18n.so", RTLD_NOW) != nullptr); } TEST(dlfcn, dlopen_system_libicuuc_android_api_level_29) { android_set_application_target_sdk_version(29); ASSERT_TRUE(dlopen(PATH_TO_SYSTEM_LIB "libicuuc.so", RTLD_NOW) == nullptr); ASSERT_TRUE(dlopen(PATH_TO_SYSTEM_LIB "libicui18n.so", RTLD_NOW) == nullptr); } TEST(dlfcn, dlopen_system_libicuuc_android_api_level_current) { ASSERT_TRUE(dlopen(PATH_TO_SYSTEM_LIB "libicuuc.so", RTLD_NOW) == nullptr); ASSERT_TRUE(dlopen(PATH_TO_SYSTEM_LIB "libicui18n.so", RTLD_NOW) == nullptr); } TEST(dlfcn, dlopen_from_zip_absolute_path) { const std::string lib_zip_path = "/libdlext_test_zip/libdlext_test_zip_zipaligned.zip"; const std::string lib_path = GetTestlibRoot() + lib_zip_path; void* handle = dlopen((lib_path + "!/libdir/libatest_simple_zip.so").c_str(), RTLD_NOW); ASSERT_TRUE(handle != nullptr) << dlerror(); uint32_t* taxicab_number = reinterpret_cast(dlsym(handle, "dlopen_testlib_taxicab_number")); ASSERT_DL_NOTNULL(taxicab_number); EXPECT_EQ(1729U, *taxicab_number); dlclose(handle); } TEST(dlfcn, dlopen_from_zip_with_dt_runpath) { const std::string lib_zip_path = "/libdlext_test_runpath_zip/libdlext_test_runpath_zip_zipaligned.zip"; const std::string lib_path = GetTestlibRoot() + lib_zip_path; void* handle = dlopen((lib_path + "!/libdir/libtest_dt_runpath_d_zip.so").c_str(), RTLD_NOW); ASSERT_TRUE(handle != nullptr) << dlerror(); typedef void *(* dlopen_b_fn)(); dlopen_b_fn fn = (dlopen_b_fn)dlsym(handle, "dlopen_b"); ASSERT_TRUE(fn != nullptr) << dlerror(); void *p = fn(); ASSERT_TRUE(p != nullptr) << dlerror(); dlclose(p); dlclose(handle); } TEST(dlfcn, dlopen_from_zip_ld_library_path) { const std::string lib_zip_path = "/libdlext_test_zip/libdlext_test_zip_zipaligned.zip"; const std::string lib_path = GetTestlibRoot() + lib_zip_path + "!/libdir"; typedef void (*fn_t)(const char*); fn_t android_update_LD_LIBRARY_PATH = reinterpret_cast(dlsym(RTLD_DEFAULT, "android_update_LD_LIBRARY_PATH")); ASSERT_TRUE(android_update_LD_LIBRARY_PATH != nullptr) << dlerror(); void* handle = dlopen("libdlext_test_zip.so", RTLD_NOW); ASSERT_TRUE(handle == nullptr); android_update_LD_LIBRARY_PATH(lib_path.c_str()); handle = dlopen("libdlext_test_zip.so", RTLD_NOW); ASSERT_TRUE(handle != nullptr) << dlerror(); int (*fn)(void); fn = reinterpret_cast(dlsym(handle, "getRandomNumber")); ASSERT_TRUE(fn != nullptr); EXPECT_EQ(4, fn()); uint32_t* taxicab_number = reinterpret_cast(dlsym(handle, "dlopen_testlib_taxicab_number")); ASSERT_DL_NOTNULL(taxicab_number); EXPECT_EQ(1729U, *taxicab_number); dlclose(handle); } TEST_F(DlExtTest, Reserved) { void* start = mmap(nullptr, kLibSize, PROT_NONE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); ASSERT_TRUE(start != MAP_FAILED); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_RESERVED_ADDRESS; extinfo.reserved_addr = start; extinfo.reserved_size = kLibSize; handle_ = android_dlopen_ext(kLibName, RTLD_NOW, &extinfo); ASSERT_DL_NOTNULL(handle_); fn f = reinterpret_cast(dlsym(handle_, "getRandomNumber")); ASSERT_DL_NOTNULL(f); EXPECT_GE(reinterpret_cast(f), start); EXPECT_LT(reinterpret_cast(f), reinterpret_cast(start) + kLibSize); EXPECT_EQ(4, f()); // Check that after dlclose reserved address space is unmapped (and can be reused) dlclose(handle_); handle_ = nullptr; void* new_start = mmap(start, PAGE_SIZE, PROT_NONE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); ASSERT_NE(start, new_start) << "dlclose unmapped reserved space"; } TEST_F(DlExtTest, ReservedTooSmall) { void* start = mmap(nullptr, PAGE_SIZE, PROT_NONE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); ASSERT_TRUE(start != MAP_FAILED); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_RESERVED_ADDRESS; extinfo.reserved_addr = start; extinfo.reserved_size = PAGE_SIZE; handle_ = android_dlopen_ext(kLibName, RTLD_NOW, &extinfo); EXPECT_EQ(nullptr, handle_); } TEST_F(DlExtTest, ReservedRecursive) { void* start = mmap(nullptr, kLibSize, PROT_NONE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); ASSERT_TRUE(start != MAP_FAILED); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_RESERVED_ADDRESS | ANDROID_DLEXT_RESERVED_ADDRESS_RECURSIVE; extinfo.reserved_addr = start; extinfo.reserved_size = kLibSize; handle_ = android_dlopen_ext(kLibNameRecursive, RTLD_NOW, &extinfo); ASSERT_DL_NOTNULL(handle_); fn f = reinterpret_cast(dlsym(handle_, "getRandomNumber")); ASSERT_DL_NOTNULL(f); EXPECT_GE(reinterpret_cast(f), start); EXPECT_LT(reinterpret_cast(f), reinterpret_cast(start) + kLibSize); EXPECT_EQ(4, f()); f = reinterpret_cast(dlsym(handle_, "getBiggerRandomNumber")); ASSERT_DL_NOTNULL(f); EXPECT_GE(reinterpret_cast(f), start); EXPECT_LT(reinterpret_cast(f), reinterpret_cast(start) + kLibSize); EXPECT_EQ(8, f()); uint32_t* taxicab_number = reinterpret_cast(dlsym(handle_, "dlopen_testlib_taxicab_number")); ASSERT_DL_NOTNULL(taxicab_number); // Untag the pointer so that it can be compared with start, which will be untagged. void* addr = reinterpret_cast(untag_address(taxicab_number)); EXPECT_GE(addr, start); EXPECT_LT(addr, reinterpret_cast(start) + kLibSize); EXPECT_EQ(1729U, *taxicab_number); } TEST_F(DlExtTest, ReservedRecursiveTooSmall) { void* start = mmap(nullptr, PAGE_SIZE, PROT_NONE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); ASSERT_TRUE(start != MAP_FAILED); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_RESERVED_ADDRESS | ANDROID_DLEXT_RESERVED_ADDRESS_RECURSIVE; extinfo.reserved_addr = start; extinfo.reserved_size = PAGE_SIZE; handle_ = android_dlopen_ext(kLibNameRecursive, RTLD_NOW, &extinfo); EXPECT_EQ(nullptr, handle_); } TEST_F(DlExtTest, ReservedHint) { void* start = mmap(nullptr, kLibSize, PROT_NONE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); ASSERT_TRUE(start != MAP_FAILED); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_RESERVED_ADDRESS_HINT; extinfo.reserved_addr = start; extinfo.reserved_size = kLibSize; handle_ = android_dlopen_ext(kLibName, RTLD_NOW, &extinfo); ASSERT_DL_NOTNULL(handle_); fn f = reinterpret_cast(dlsym(handle_, "getRandomNumber")); ASSERT_DL_NOTNULL(f); EXPECT_GE(reinterpret_cast(f), start); EXPECT_LT(reinterpret_cast(f), reinterpret_cast(start) + kLibSize); EXPECT_EQ(4, f()); } TEST_F(DlExtTest, ReservedHintTooSmall) { void* start = mmap(nullptr, PAGE_SIZE, PROT_NONE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); ASSERT_TRUE(start != MAP_FAILED); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_RESERVED_ADDRESS_HINT; extinfo.reserved_addr = start; extinfo.reserved_size = PAGE_SIZE; handle_ = android_dlopen_ext(kLibName, RTLD_NOW, &extinfo); ASSERT_DL_NOTNULL(handle_); fn f = reinterpret_cast(dlsym(handle_, "getRandomNumber")); ASSERT_DL_NOTNULL(f); EXPECT_TRUE(reinterpret_cast(f) < start || (reinterpret_cast(f) >= reinterpret_cast(start) + PAGE_SIZE)); EXPECT_EQ(4, f()); } class DlExtRelroSharingTest : public DlExtTest { protected: void SetUp() override { DlExtTest::SetUp(); void* start = mmap(nullptr, kLibSize, PROT_NONE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); ASSERT_TRUE(start != MAP_FAILED); extinfo_.flags = ANDROID_DLEXT_RESERVED_ADDRESS; extinfo_.reserved_addr = start; extinfo_.reserved_size = kLibSize; extinfo_.relro_fd = -1; } void TearDown() override { DlExtTest::TearDown(); } void CreateRelroFile(const char* lib, const char* relro_file, bool recursive) { int relro_fd = open(relro_file, O_RDWR | O_TRUNC | O_CLOEXEC); ASSERT_NOERROR(relro_fd); if (recursive) { extinfo_.flags |= ANDROID_DLEXT_RESERVED_ADDRESS_RECURSIVE; } pid_t pid = fork(); if (pid == 0) { // child process extinfo_.flags |= ANDROID_DLEXT_WRITE_RELRO; extinfo_.relro_fd = relro_fd; void* handle = android_dlopen_ext(lib, RTLD_NOW, &extinfo_); if (handle == nullptr) { fprintf(stderr, "in child: %s\n", dlerror()); exit(1); } fn f = reinterpret_cast(dlsym(handle, "getRandomNumber")); ASSERT_DL_NOTNULL(f); EXPECT_EQ(4, f()); if (recursive) { fn f = reinterpret_cast(dlsym(handle, "getBiggerRandomNumber")); ASSERT_DL_NOTNULL(f); EXPECT_EQ(8, f()); } uint32_t* taxicab_number = reinterpret_cast(dlsym(handle, "dlopen_testlib_taxicab_number")); ASSERT_DL_NOTNULL(taxicab_number); EXPECT_EQ(1729U, *taxicab_number); exit(testing::Test::HasFailure()); } // continuing in parent ASSERT_NOERROR(close(relro_fd)); ASSERT_NOERROR(pid); AssertChildExited(pid, 0); // reopen file for reading so it can be used relro_fd = open(relro_file, O_RDONLY | O_CLOEXEC); ASSERT_NOERROR(relro_fd); extinfo_.flags |= ANDROID_DLEXT_USE_RELRO; extinfo_.relro_fd = relro_fd; } void TryUsingRelro(const char* lib, bool recursive) { handle_ = android_dlopen_ext(lib, RTLD_NOW, &extinfo_); ASSERT_DL_NOTNULL(handle_); fn f = reinterpret_cast(dlsym(handle_, "getRandomNumber")); ASSERT_DL_NOTNULL(f); EXPECT_EQ(4, f()); if (recursive) { fn f = reinterpret_cast(dlsym(handle_, "getBiggerRandomNumber")); ASSERT_DL_NOTNULL(f); EXPECT_EQ(8, f()); } uint32_t* taxicab_number = reinterpret_cast(dlsym(handle_, "dlopen_testlib_taxicab_number")); ASSERT_DL_NOTNULL(taxicab_number); EXPECT_EQ(1729U, *taxicab_number); } void SpawnChildrenAndMeasurePss(const char* lib, const char* relro_file, bool share_relro, size_t* pss_out); std::string FindMappingName(void* ptr); android_dlextinfo extinfo_; }; TEST_F(DlExtRelroSharingTest, ChildWritesGoodData) { TemporaryFile tf; // Use tf to get an unique filename. ASSERT_NOERROR(close(tf.fd)); ASSERT_NO_FATAL_FAILURE(CreateRelroFile(kLibName, tf.path, false)); ASSERT_NO_FATAL_FAILURE(TryUsingRelro(kLibName, false)); void* relro_data = dlsym(handle_, "lots_of_relro"); ASSERT_DL_NOTNULL(relro_data); EXPECT_EQ(tf.path, FindMappingName(relro_data)); // Use destructor of tf to close and unlink the file. tf.fd = extinfo_.relro_fd; } TEST_F(DlExtRelroSharingTest, ChildWritesGoodDataRecursive) { TemporaryFile tf; // Use tf to get an unique filename. ASSERT_NOERROR(close(tf.fd)); ASSERT_NO_FATAL_FAILURE(CreateRelroFile(kLibNameRecursive, tf.path, true)); ASSERT_NO_FATAL_FAILURE(TryUsingRelro(kLibNameRecursive, true)); void* relro_data = dlsym(handle_, "lots_of_relro"); ASSERT_DL_NOTNULL(relro_data); EXPECT_EQ(tf.path, FindMappingName(relro_data)); void* recursive_relro_data = dlsym(handle_, "lots_more_relro"); ASSERT_DL_NOTNULL(recursive_relro_data); EXPECT_EQ(tf.path, FindMappingName(recursive_relro_data)); // Use destructor of tf to close and unlink the file. tf.fd = extinfo_.relro_fd; } TEST_F(DlExtRelroSharingTest, CheckRelroSizes) { TemporaryFile tf1, tf2; ASSERT_NOERROR(close(tf1.fd)); ASSERT_NOERROR(close(tf2.fd)); ASSERT_NO_FATAL_FAILURE(CreateRelroFile(kLibNameRecursive, tf1.path, false)); struct stat no_recursive; ASSERT_NOERROR(fstat(extinfo_.relro_fd, &no_recursive)); tf1.fd = extinfo_.relro_fd; ASSERT_NO_FATAL_FAILURE(CreateRelroFile(kLibNameRecursive, tf2.path, true)); struct stat with_recursive; ASSERT_NOERROR(fstat(extinfo_.relro_fd, &with_recursive)); tf2.fd = extinfo_.relro_fd; // RELRO file should end up bigger when we use the recursive flag, since it // includes data for more than one library. ASSERT_GT(with_recursive.st_size, no_recursive.st_size); } TEST_F(DlExtRelroSharingTest, ChildWritesNoRelro) { TemporaryFile tf; // // Use tf to get an unique filename. ASSERT_NOERROR(close(tf.fd)); ASSERT_NO_FATAL_FAILURE(CreateRelroFile(kLibNameNoRelro, tf.path, false)); ASSERT_NO_FATAL_FAILURE(TryUsingRelro(kLibNameNoRelro, false)); // Use destructor of tf to close and unlink the file. tf.fd = extinfo_.relro_fd; } TEST_F(DlExtRelroSharingTest, RelroFileEmpty) { ASSERT_NO_FATAL_FAILURE(TryUsingRelro(kLibName, false)); } TEST_F(DlExtRelroSharingTest, VerifyMemorySaving) { if (geteuid() != 0) GTEST_SKIP() << "This test must be run as root"; TemporaryFile tf; // Use tf to get an unique filename. ASSERT_NOERROR(close(tf.fd)); ASSERT_NO_FATAL_FAILURE(CreateRelroFile(kLibName, tf.path, false)); int pipefd[2]; ASSERT_NOERROR(pipe(pipefd)); size_t without_sharing, with_sharing; ASSERT_NO_FATAL_FAILURE(SpawnChildrenAndMeasurePss(kLibName, tf.path, false, &without_sharing)); ASSERT_NO_FATAL_FAILURE(SpawnChildrenAndMeasurePss(kLibName, tf.path, true, &with_sharing)); ASSERT_LT(with_sharing, without_sharing); // We expect the sharing to save at least 50% of the library's total PSS. // In practice it saves 80%+ for this library in the test. size_t pss_saved = without_sharing - with_sharing; size_t expected_min_saved = without_sharing / 2; EXPECT_LT(expected_min_saved, pss_saved); // Use destructor of tf to close and unlink the file. tf.fd = extinfo_.relro_fd; } void GetPss(bool shared_relro, const char* lib, const char* relro_file, pid_t pid, size_t* total_pss) { android::meminfo::ProcMemInfo proc_mem(pid); const std::vector& maps = proc_mem.MapsWithoutUsageStats(); ASSERT_GT(maps.size(), 0UL); // Calculate total PSS of the library. *total_pss = 0; bool saw_relro_file = false; for (auto& vma : maps) { if (android::base::EndsWith(vma.name, lib) || (vma.name == relro_file)) { if (vma.name == relro_file) { saw_relro_file = true; } android::meminfo::Vma update_vma(vma); ASSERT_TRUE(proc_mem.FillInVmaStats(update_vma)); *total_pss += update_vma.usage.pss; } } if (shared_relro) ASSERT_TRUE(saw_relro_file); } void DlExtRelroSharingTest::SpawnChildrenAndMeasurePss(const char* lib, const char* relro_file, bool share_relro, size_t* pss_out) { const int CHILDREN = 20; // Create children pid_t child_pids[CHILDREN]; int childpipe[CHILDREN]; for (int i=0; i(ptr); std::string found_name = ""; EXPECT_TRUE(android::procinfo::ReadMapFile("/proc/self/maps", [&](const android::procinfo::MapInfo& mapinfo) { if (addr >= mapinfo.start && addr < mapinfo.end) { found_name = mapinfo.name; } })); return found_name; } // Testing namespaces static const char* g_public_lib = "libnstest_public.so"; // These are libs shared with default namespace static const std::string g_core_shared_libs = kCoreSharedLibs; TEST(dlext, ns_smoke) { static const char* root_lib = "libnstest_root.so"; std::string shared_libs = g_core_shared_libs + ":" + g_public_lib; ASSERT_FALSE(android_init_anonymous_namespace("", nullptr)); ASSERT_STREQ("android_init_anonymous_namespace failed: error linking namespaces" " \"(anonymous)\"->\"(default)\": the list of shared libraries is empty.", dlerror()); const std::string lib_public_path = GetTestlibRoot() + "/public_namespace_libs/" + g_public_lib; void* handle_public = dlopen(lib_public_path.c_str(), RTLD_NOW); ASSERT_TRUE(handle_public != nullptr) << dlerror(); ASSERT_TRUE(android_init_anonymous_namespace(shared_libs.c_str(), nullptr)) << dlerror(); // Check that libraries added to public namespace are not NODELETE dlclose(handle_public); handle_public = dlopen(lib_public_path.c_str(), RTLD_NOW | RTLD_NOLOAD); ASSERT_TRUE(handle_public == nullptr); ASSERT_EQ(std::string("dlopen failed: library \"") + lib_public_path + "\" wasn't loaded and RTLD_NOLOAD prevented it", dlerror()); handle_public = dlopen(lib_public_path.c_str(), RTLD_NOW); // create "public namespace", share limited set of public libraries with android_namespace_t* ns1 = android_create_namespace("private", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_REGULAR, nullptr, nullptr); ASSERT_TRUE(ns1 != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns1, nullptr, shared_libs.c_str())) << dlerror(); android_namespace_t* ns2 = android_create_namespace("private_isolated", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(ns2 != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns2, nullptr, shared_libs.c_str())) << dlerror(); // This should not have affect search path for default namespace: ASSERT_TRUE(dlopen(root_lib, RTLD_NOW) == nullptr); void* handle = dlopen(g_public_lib, RTLD_NOW); ASSERT_TRUE(handle != nullptr) << dlerror(); dlclose(handle); // dlopen for a public library using an absolute path should work // 1. For isolated namespaces android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns2; handle = android_dlopen_ext(lib_public_path.c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); ASSERT_TRUE(handle == handle_public); dlclose(handle); // 1.1 even if it wasn't loaded before dlclose(handle_public); handle_public = dlopen(lib_public_path.c_str(), RTLD_NOW | RTLD_NOLOAD); ASSERT_TRUE(handle_public == nullptr); ASSERT_EQ(std::string("dlopen failed: library \"") + lib_public_path + "\" wasn't loaded and RTLD_NOLOAD prevented it", dlerror()); handle = android_dlopen_ext(lib_public_path.c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); handle_public = dlopen(lib_public_path.c_str(), RTLD_NOW); ASSERT_TRUE(handle == handle_public); dlclose(handle); // 2. And for regular namespaces (make sure it does not load second copy of the library) extinfo.library_namespace = ns1; handle = android_dlopen_ext(lib_public_path.c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); ASSERT_TRUE(handle == handle_public); dlclose(handle); // 2.1 Unless it was not loaded before - in which case it will load a duplicate. // TODO(dimitry): This is broken. Maybe we need to deprecate non-isolated namespaces? dlclose(handle_public); handle_public = dlopen(lib_public_path.c_str(), RTLD_NOW | RTLD_NOLOAD); ASSERT_TRUE(handle_public == nullptr); ASSERT_EQ(std::string("dlopen failed: library \"") + lib_public_path + "\" wasn't loaded and RTLD_NOLOAD prevented it", dlerror()); handle = android_dlopen_ext(lib_public_path.c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); handle_public = dlopen(lib_public_path.c_str(), RTLD_NOW); ASSERT_TRUE(handle != handle_public); dlclose(handle); extinfo.library_namespace = ns1; void* handle1 = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle1 != nullptr) << dlerror(); extinfo.library_namespace = ns2; void* handle2 = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle2 != nullptr) << dlerror(); ASSERT_TRUE(handle1 != handle2); typedef const char* (*fn_t)(); fn_t ns_get_local_string1 = reinterpret_cast(dlsym(handle1, "ns_get_local_string")); ASSERT_TRUE(ns_get_local_string1 != nullptr) << dlerror(); fn_t ns_get_local_string2 = reinterpret_cast(dlsym(handle2, "ns_get_local_string")); ASSERT_TRUE(ns_get_local_string2 != nullptr) << dlerror(); EXPECT_STREQ("This string is local to root library", ns_get_local_string1()); EXPECT_STREQ("This string is local to root library", ns_get_local_string2()); ASSERT_TRUE(ns_get_local_string1() != ns_get_local_string2()); fn_t ns_get_private_extern_string1 = reinterpret_cast(dlsym(handle1, "ns_get_private_extern_string")); ASSERT_TRUE(ns_get_private_extern_string1 != nullptr) << dlerror(); fn_t ns_get_private_extern_string2 = reinterpret_cast(dlsym(handle2, "ns_get_private_extern_string")); ASSERT_TRUE(ns_get_private_extern_string2 != nullptr) << dlerror(); EXPECT_STREQ("This string is from private namespace", ns_get_private_extern_string1()); EXPECT_STREQ("This string is from private namespace", ns_get_private_extern_string2()); ASSERT_TRUE(ns_get_private_extern_string1() != ns_get_private_extern_string2()); fn_t ns_get_public_extern_string1 = reinterpret_cast(dlsym(handle1, "ns_get_public_extern_string")); ASSERT_TRUE(ns_get_public_extern_string1 != nullptr) << dlerror(); fn_t ns_get_public_extern_string2 = reinterpret_cast(dlsym(handle2, "ns_get_public_extern_string")); ASSERT_TRUE(ns_get_public_extern_string2 != nullptr) << dlerror(); EXPECT_STREQ("This string is from public namespace", ns_get_public_extern_string1()); ASSERT_TRUE(ns_get_public_extern_string1() == ns_get_public_extern_string2()); // and now check that dlopen() does the right thing in terms of preserving namespace fn_t ns_get_dlopened_string1 = reinterpret_cast(dlsym(handle1, "ns_get_dlopened_string")); ASSERT_TRUE(ns_get_dlopened_string1 != nullptr) << dlerror(); fn_t ns_get_dlopened_string2 = reinterpret_cast(dlsym(handle2, "ns_get_dlopened_string")); ASSERT_TRUE(ns_get_dlopened_string2 != nullptr) << dlerror(); EXPECT_STREQ("This string is from private namespace (dlopened library)", ns_get_dlopened_string1()); EXPECT_STREQ("This string is from private namespace (dlopened library)", ns_get_dlopened_string2()); ASSERT_TRUE(ns_get_dlopened_string1() != ns_get_dlopened_string2()); // Check that symbols from non-shared libraries a shared library depends on are not visible // from original namespace. fn_t ns_get_internal_extern_string = reinterpret_cast(dlsym(handle1, "ns_get_internal_extern_string")); ASSERT_TRUE(ns_get_internal_extern_string != nullptr) << dlerror(); ASSERT_TRUE(ns_get_internal_extern_string() == nullptr) << "ns_get_internal_extern_string() expected to return null but returns \"" << ns_get_internal_extern_string() << "\""; dlclose(handle1); // Check if handle2 is still alive (and well) ASSERT_STREQ("This string is local to root library", ns_get_local_string2()); ASSERT_STREQ("This string is from private namespace", ns_get_private_extern_string2()); ASSERT_STREQ("This string is from public namespace", ns_get_public_extern_string2()); ASSERT_STREQ("This string is from private namespace (dlopened library)", ns_get_dlopened_string2()); dlclose(handle2); } TEST(dlext, dlopen_ext_use_o_tmpfile_fd) { const std::string lib_path = GetTestlibRoot() + "/libtest_simple.so"; int tmpfd = TEMP_FAILURE_RETRY( open(GetTestlibRoot().c_str(), O_TMPFILE | O_CLOEXEC | O_RDWR | O_EXCL, 0)); // Ignore kernels without O_TMPFILE flag support if (tmpfd == -1 && (errno == EISDIR || errno == EINVAL || errno == EOPNOTSUPP)) { return; } ASSERT_TRUE(tmpfd != -1) << strerror(errno); android_namespace_t* ns = android_create_namespace("testing-o_tmpfile", nullptr, GetTestlibRoot().c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_DL_NOTNULL(ns); ASSERT_TRUE(android_link_namespaces(ns, nullptr, g_core_shared_libs.c_str())) << dlerror(); std::string content; ASSERT_TRUE(android::base::ReadFileToString(lib_path, &content)) << strerror(errno); ASSERT_TRUE(android::base::WriteStringToFd(content, tmpfd)) << strerror(errno); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_LIBRARY_FD | ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_fd = tmpfd; extinfo.library_namespace = ns; void* handle = android_dlopen_ext("foobar", RTLD_NOW, &extinfo); ASSERT_DL_NOTNULL(handle); uint32_t* taxicab_number = reinterpret_cast(dlsym(handle, "dlopen_testlib_taxicab_number")); ASSERT_DL_NOTNULL(taxicab_number); EXPECT_EQ(1729U, *taxicab_number); dlclose(handle); } TEST(dlext, dlopen_ext_use_memfd) { const std::string lib_path = GetTestlibRoot() + "/libtest_simple.so"; // create memfd int memfd = memfd_create("foobar", MFD_CLOEXEC); if (memfd == -1 && errno == ENOSYS) { return; } ASSERT_TRUE(memfd != -1) << strerror(errno); // Check st.f_type is TMPFS_MAGIC for memfd struct statfs st; ASSERT_TRUE(TEMP_FAILURE_RETRY(fstatfs(memfd, &st)) == 0) << strerror(errno); ASSERT_EQ(static_cast(TMPFS_MAGIC), st.f_type); android_namespace_t* ns = android_create_namespace("testing-memfd", nullptr, GetTestlibRoot().c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_DL_NOTNULL(ns); ASSERT_TRUE(android_link_namespaces(ns, nullptr, g_core_shared_libs.c_str())) << dlerror(); // read file into memfd backed one. std::string content; ASSERT_TRUE(android::base::ReadFileToString(lib_path, &content)) << strerror(errno); ASSERT_TRUE(android::base::WriteStringToFd(content, memfd)) << strerror(errno); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_LIBRARY_FD | ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_fd = memfd; extinfo.library_namespace = ns; void* handle = android_dlopen_ext("foobar", RTLD_NOW, &extinfo); ASSERT_DL_NOTNULL(handle); uint32_t* taxicab_number = reinterpret_cast(dlsym(handle, "dlopen_testlib_taxicab_number")); ASSERT_DL_NOTNULL(taxicab_number); EXPECT_EQ(1729U, *taxicab_number); dlclose(handle); } TEST(dlext, ns_symbol_visibilty_one_namespace) { static const char* root_lib = "libnstest_root.so"; ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)); const std::string ns_search_path = GetTestlibRoot() + "/public_namespace_libs:" + GetTestlibRoot() + "/private_namespace_libs"; android_namespace_t* ns = android_create_namespace("one", nullptr, ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns; void* handle = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); typedef const char* (*fn_t)(); // Check that relocation worked correctly fn_t ns_get_internal_extern_string = reinterpret_cast(dlsym(handle, "ns_get_internal_extern_string")); ASSERT_TRUE(ns_get_internal_extern_string != nullptr) << dlerror(); ASSERT_STREQ("This string is from a library a shared library depends on", ns_get_internal_extern_string()); fn_t internal_extern_string_fn = reinterpret_cast(dlsym(handle, "internal_extern_string")); ASSERT_TRUE(internal_extern_string_fn != nullptr) << dlerror(); ASSERT_STREQ("This string is from a library a shared library depends on", internal_extern_string_fn()); } TEST(dlext, ns_symbol_visibilty_between_namespaces) { static const char* root_lib = "libnstest_root.so"; ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)); const std::string public_ns_search_path = GetTestlibRoot() + "/public_namespace_libs"; const std::string private_ns_search_path = GetTestlibRoot() + "/private_namespace_libs"; android_namespace_t* ns_public = android_create_namespace("public", nullptr, public_ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns_public, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_namespace_t* ns_private = android_create_namespace("private", nullptr, private_ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns_private, ns_public, g_public_lib)) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_private, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns_private; void* handle = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); typedef const char* (*fn_t)(); // Check that relocation worked correctly fn_t ns_get_internal_extern_string = reinterpret_cast(dlsym(handle, "ns_get_internal_extern_string")); ASSERT_TRUE(ns_get_internal_extern_string != nullptr) << dlerror(); ASSERT_TRUE(ns_get_internal_extern_string() == nullptr) << "ns_get_internal_extern_string() expected to return null but returns \"" << ns_get_internal_extern_string() << "\""; fn_t internal_extern_string_fn = reinterpret_cast(dlsym(handle, "internal_extern_string")); ASSERT_TRUE(internal_extern_string_fn == nullptr); ASSERT_STREQ("undefined symbol: internal_extern_string", dlerror()); } TEST(dlext, ns_unload_between_namespaces) { static const char* root_lib = "libnstest_root.so"; ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)); const std::string public_ns_search_path = GetTestlibRoot() + "/public_namespace_libs"; const std::string private_ns_search_path = GetTestlibRoot() + "/private_namespace_libs"; android_namespace_t* ns_public = android_create_namespace("public", nullptr, public_ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns_public, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_namespace_t* ns_private = android_create_namespace("private", nullptr, private_ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns_private, ns_public, g_public_lib)) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_private, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns_private; void* handle = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); dlclose(handle); // Check that root_lib was unloaded handle = android_dlopen_ext(root_lib, RTLD_NOW | RTLD_NOLOAD, &extinfo); ASSERT_TRUE(handle == nullptr); ASSERT_EQ(std::string("dlopen failed: library \"") + root_lib + "\" wasn't loaded and RTLD_NOLOAD prevented it", dlerror()); // Check that shared library was unloaded in public ns extinfo.library_namespace = ns_public; handle = android_dlopen_ext(g_public_lib, RTLD_NOW | RTLD_NOLOAD, &extinfo); ASSERT_TRUE(handle == nullptr); ASSERT_EQ(std::string("dlopen failed: library \"") + g_public_lib + "\" wasn't loaded and RTLD_NOLOAD prevented it", dlerror()); } TEST(dlext, ns_unload_between_namespaces_missing_symbol_direct) { ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)); const std::string public_ns_search_path = GetTestlibRoot() + "/public_namespace_libs"; const std::string private_ns_search_path = GetTestlibRoot() + "/private_namespace_libs"; android_namespace_t* ns_public = android_create_namespace("public", nullptr, public_ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns_public, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_namespace_t* ns_private = android_create_namespace("private", nullptr, private_ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns_private, ns_public, "libtest_missing_symbol.so")) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_private, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns_private; void* handle = android_dlopen_ext((public_ns_search_path + "/libtest_missing_symbol.so").c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle == nullptr); ASSERT_EQ(std::string("dlopen failed: cannot locate symbol \"dlopen_testlib_missing_symbol\" referenced by \"") + public_ns_search_path + "/libtest_missing_symbol.so\"...", dlerror()); } TEST(dlext, ns_unload_between_namespaces_missing_symbol_indirect) { ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)); const std::string public_ns_search_path = GetTestlibRoot() + "/public_namespace_libs"; const std::string private_ns_search_path = GetTestlibRoot() + "/private_namespace_libs"; android_namespace_t* ns_public = android_create_namespace("public", nullptr, public_ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns_public, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_namespace_t* ns_private = android_create_namespace("private", nullptr, private_ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns_private, ns_public, "libnstest_public.so:libtest_missing_symbol_child_public.so") ) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_private, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns_private; void* handle = android_dlopen_ext("libtest_missing_symbol_root.so", RTLD_NOW, &extinfo); ASSERT_TRUE(handle == nullptr); ASSERT_EQ(std::string("dlopen failed: cannot locate symbol \"dlopen_testlib_missing_symbol\" referenced by \"") + private_ns_search_path + "/libtest_missing_symbol_root.so\"...", dlerror()); } TEST(dlext, ns_exempt_list_enabled) { ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)); const std::string ns_search_path = GetTestlibRoot() + "/private_namespace_libs"; android_namespace_t* ns = android_create_namespace("namespace", nullptr, ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED | ANDROID_NAMESPACE_TYPE_EXEMPT_LIST_ENABLED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns; // An app targeting M can open libnativehelper.so because it's on the exempt-list. android_set_application_target_sdk_version(23); void* handle = android_dlopen_ext("libnativehelper.so", RTLD_NOW, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); // Check that loader did not load another copy of libdl.so while loading exempted library. void* dlsym_ptr = dlsym(handle, "dlsym"); ASSERT_TRUE(dlsym_ptr != nullptr) << dlerror(); ASSERT_EQ(&dlsym, dlsym_ptr); dlclose(handle); // An app targeting N no longer has the exempt-list. android_set_application_target_sdk_version(24); handle = android_dlopen_ext("libnativehelper.so", RTLD_NOW, &extinfo); ASSERT_TRUE(handle == nullptr); ASSERT_STREQ("dlopen failed: library \"libnativehelper.so\" not found", dlerror()); } TEST(dlext, ns_exempt_list_disabled_by_default) { ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)); const std::string ns_search_path = GetTestlibRoot() + "/private_namespace_libs"; android_namespace_t* ns = android_create_namespace("namespace", nullptr, ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns; android_set_application_target_sdk_version(23); void* handle = android_dlopen_ext("libnativehelper.so", RTLD_NOW, &extinfo); ASSERT_TRUE(handle == nullptr); ASSERT_STREQ("dlopen failed: library \"libnativehelper.so\" not found", dlerror()); } TEST(dlext, ns_cyclic_namespaces) { // Test that ns1->ns2->ns1 link does not break the loader ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)); std::string shared_libs = g_core_shared_libs + ":libthatdoesnotexist.so"; const std::string ns_search_path = GetTestlibRoot() + "/public_namespace_libs"; android_namespace_t* ns1 = android_create_namespace("ns1", nullptr, ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns1, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_namespace_t* ns2 = android_create_namespace("ns1", nullptr, ns_search_path.c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(android_link_namespaces(ns2, nullptr, g_core_shared_libs.c_str())) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns2, ns1, shared_libs.c_str())) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns1, ns2, shared_libs.c_str())) << dlerror(); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns1; void* handle = android_dlopen_ext("libthatdoesnotexist.so", RTLD_NOW, &extinfo); ASSERT_TRUE(handle == nullptr); ASSERT_STREQ("dlopen failed: library \"libthatdoesnotexist.so\" not found", dlerror()); } TEST(dlext, ns_isolated) { static const char* root_lib = "libnstest_root_not_isolated.so"; std::string shared_libs = g_core_shared_libs + ":" + g_public_lib; const std::string lib_public_path = GetTestlibRoot() + "/public_namespace_libs/" + g_public_lib; void* handle_public = dlopen(lib_public_path.c_str(), RTLD_NOW); ASSERT_TRUE(handle_public != nullptr) << dlerror(); android_set_application_target_sdk_version(42U); // something > 23 ASSERT_TRUE(android_init_anonymous_namespace(shared_libs.c_str(), nullptr)) << dlerror(); android_namespace_t* ns_not_isolated = android_create_namespace("private", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_REGULAR, nullptr, nullptr); ASSERT_TRUE(ns_not_isolated != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_not_isolated, nullptr, shared_libs.c_str())) << dlerror(); android_namespace_t* ns_isolated = android_create_namespace("private_isolated1", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(ns_isolated != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_isolated, nullptr, shared_libs.c_str())) << dlerror(); android_namespace_t* ns_isolated2 = android_create_namespace("private_isolated2", (GetTestlibRoot() + "/private_namespace_libs").c_str(), nullptr, ANDROID_NAMESPACE_TYPE_ISOLATED, GetTestlibRoot().c_str(), nullptr); ASSERT_TRUE(ns_isolated2 != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_isolated2, nullptr, shared_libs.c_str())) << dlerror(); ASSERT_TRUE(dlopen(root_lib, RTLD_NOW) == nullptr); ASSERT_STREQ("dlopen failed: library \"libnstest_root_not_isolated.so\" not found", dlerror()); std::string lib_private_external_path = GetTestlibRoot() + "/private_namespace_libs_external/libnstest_private_external.so"; // Load lib_private_external_path to default namespace // (it should remain invisible for the isolated namespaces after this) void* handle = dlopen(lib_private_external_path.c_str(), RTLD_NOW); ASSERT_TRUE(handle != nullptr) << dlerror(); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns_not_isolated; void* handle1 = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle1 != nullptr) << dlerror(); extinfo.library_namespace = ns_isolated; void* handle2 = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle2 == nullptr); const char* error = dlerror(); ASSERT_MATCH(error, R"(dlopen failed: library "libnstest_private_external.so" not found: needed by )" R"(\S+libnstest_root_not_isolated.so in namespace private_isolated1)"); // Check dlopen by absolute path handle2 = android_dlopen_ext(lib_private_external_path.c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle2 == nullptr); ASSERT_EQ("dlopen failed: library \"" + lib_private_external_path + "\" needed" " or dlopened by \"" + android::base::GetExecutablePath() + "\" is not accessible" " for the namespace \"private_isolated1\"", dlerror()); extinfo.library_namespace = ns_isolated2; // this should work because isolation_path for private_isolated2 includes GetTestlibRoot() handle2 = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle2 != nullptr) << dlerror(); dlclose(handle2); // Check dlopen by absolute path handle2 = android_dlopen_ext(lib_private_external_path.c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle2 != nullptr) << dlerror(); dlclose(handle2); typedef const char* (*fn_t)(); fn_t ns_get_local_string = reinterpret_cast(dlsym(handle1, "ns_get_local_string")); ASSERT_TRUE(ns_get_local_string != nullptr) << dlerror(); ASSERT_STREQ("This string is local to root library", ns_get_local_string()); fn_t ns_get_private_extern_string = reinterpret_cast(dlsym(handle1, "ns_get_private_extern_string")); ASSERT_TRUE(ns_get_private_extern_string != nullptr) << dlerror(); ASSERT_STREQ("This string is from private namespace", ns_get_private_extern_string()); fn_t ns_get_public_extern_string = reinterpret_cast(dlsym(handle1, "ns_get_public_extern_string")); ASSERT_TRUE(ns_get_public_extern_string != nullptr) << dlerror(); ASSERT_STREQ("This string is from public namespace", ns_get_public_extern_string()); fn_t ns_get_dlopened_string = reinterpret_cast(dlsym(handle1, "ns_get_dlopened_string")); ASSERT_TRUE(ns_get_dlopened_string != nullptr) << dlerror(); ASSERT_STREQ("This string is from private namespace (dlopened library)", ns_get_dlopened_string()); dlclose(handle1); } TEST(dlext, ns_shared) { static const char* root_lib = "libnstest_root_not_isolated.so"; static const char* root_lib_isolated = "libnstest_root.so"; std::string shared_libs = g_core_shared_libs + ":" + g_public_lib; // create a parent namespace to use instead of the default namespace. This is // to make this test be independent from the configuration of the default // namespace. android_namespace_t* ns_parent = android_create_namespace("parent", nullptr, nullptr, ANDROID_NAMESPACE_TYPE_REGULAR, nullptr, nullptr); ASSERT_TRUE(ns_parent != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_parent, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns_parent; const std::string lib_public_path = GetTestlibRoot() + "/public_namespace_libs/" + g_public_lib; void* handle_public = android_dlopen_ext(lib_public_path.c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle_public != nullptr) << dlerror(); android_set_application_target_sdk_version(42U); // something > 23 ASSERT_TRUE(android_init_anonymous_namespace(shared_libs.c_str(), nullptr)) << dlerror(); // preload this library to the parent namespace to check if it // is shared later on. void* handle_dlopened = android_dlopen_ext((GetTestlibRoot() + "/private_namespace_libs/libnstest_dlopened.so").c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle_dlopened != nullptr) << dlerror(); // create two child namespaces of 'ns_parent'. One with regular, the other // with isolated & shared. android_namespace_t* ns_not_isolated = android_create_namespace("private", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_REGULAR, nullptr, ns_parent); ASSERT_TRUE(ns_not_isolated != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_not_isolated, ns_parent, g_public_lib)) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_not_isolated, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_namespace_t* ns_isolated_shared = android_create_namespace("private_isolated_shared", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED | ANDROID_NAMESPACE_TYPE_SHARED, nullptr, ns_parent); ASSERT_TRUE(ns_isolated_shared != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_isolated_shared, ns_parent, g_public_lib)) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_isolated_shared, nullptr, g_core_shared_libs.c_str())) << dlerror(); ASSERT_TRUE(android_dlopen_ext(root_lib, RTLD_NOW, &extinfo) == nullptr); ASSERT_STREQ("dlopen failed: library \"libnstest_root_not_isolated.so\" not found", dlerror()); std::string lib_private_external_path = GetTestlibRoot() + "/private_namespace_libs_external/libnstest_private_external.so"; // Load lib_private_external_path to the parent namespace // (it should remain invisible for the isolated namespaces after this) void* handle = android_dlopen_ext(lib_private_external_path.c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); extinfo.library_namespace = ns_not_isolated; void* handle1 = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle1 != nullptr) << dlerror(); extinfo.library_namespace = ns_isolated_shared; void* handle2 = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle2 == nullptr); ASSERT_MATCH(dlerror(), R"(dlopen failed: library "libnstest_private_external.so" not found: needed by )" R"(\S+libnstest_root_not_isolated.so in namespace private_isolated_shared)"); // Check dlopen by absolute path handle2 = android_dlopen_ext(lib_private_external_path.c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle2 == nullptr); ASSERT_EQ("dlopen failed: library \"" + lib_private_external_path + "\" needed" " or dlopened by \"" + android::base::GetExecutablePath() + "\" is not accessible" " for the namespace \"private_isolated_shared\"", dlerror()); // load libnstest_root.so to shared namespace in order to check that everything is different // except shared libnstest_dlopened.so handle2 = android_dlopen_ext(root_lib_isolated, RTLD_NOW, &extinfo); typedef const char* (*fn_t)(); fn_t ns_get_local_string = reinterpret_cast(dlsym(handle1, "ns_get_local_string")); ASSERT_TRUE(ns_get_local_string != nullptr) << dlerror(); fn_t ns_get_local_string_shared = reinterpret_cast(dlsym(handle2, "ns_get_local_string")); ASSERT_TRUE(ns_get_local_string_shared != nullptr) << dlerror(); ASSERT_STREQ("This string is local to root library", ns_get_local_string()); ASSERT_STREQ("This string is local to root library", ns_get_local_string_shared()); ASSERT_TRUE(ns_get_local_string() != ns_get_local_string_shared()); fn_t ns_get_private_extern_string = reinterpret_cast(dlsym(handle1, "ns_get_private_extern_string")); ASSERT_TRUE(ns_get_private_extern_string != nullptr) << dlerror(); fn_t ns_get_private_extern_string_shared = reinterpret_cast(dlsym(handle2, "ns_get_private_extern_string")); ASSERT_TRUE(ns_get_private_extern_string_shared() != nullptr) << dlerror(); ASSERT_STREQ("This string is from private namespace", ns_get_private_extern_string()); ASSERT_STREQ("This string is from private namespace", ns_get_private_extern_string_shared()); ASSERT_TRUE(ns_get_private_extern_string() != ns_get_private_extern_string_shared()); fn_t ns_get_public_extern_string = reinterpret_cast(dlsym(handle1, "ns_get_public_extern_string")); ASSERT_TRUE(ns_get_public_extern_string != nullptr) << dlerror(); fn_t ns_get_public_extern_string_shared = reinterpret_cast(dlsym(handle2, "ns_get_public_extern_string")); ASSERT_TRUE(ns_get_public_extern_string_shared != nullptr) << dlerror(); ASSERT_STREQ("This string is from public namespace", ns_get_public_extern_string()); ASSERT_STREQ("This string is from public namespace", ns_get_public_extern_string_shared()); ASSERT_TRUE(ns_get_public_extern_string() == ns_get_public_extern_string_shared()); fn_t ns_get_dlopened_string = reinterpret_cast(dlsym(handle1, "ns_get_dlopened_string")); ASSERT_TRUE(ns_get_dlopened_string != nullptr) << dlerror(); fn_t ns_get_dlopened_string_shared = reinterpret_cast(dlsym(handle2, "ns_get_dlopened_string")); ASSERT_TRUE(ns_get_dlopened_string_shared != nullptr) << dlerror(); const char** ns_dlopened_string = static_cast(dlsym(handle_dlopened, "g_private_dlopened_string")); ASSERT_TRUE(ns_dlopened_string != nullptr) << dlerror(); ASSERT_STREQ("This string is from private namespace (dlopened library)", ns_get_dlopened_string()); ASSERT_STREQ("This string is from private namespace (dlopened library)", *ns_dlopened_string); ASSERT_STREQ("This string is from private namespace (dlopened library)", ns_get_dlopened_string_shared()); ASSERT_TRUE(ns_get_dlopened_string() != ns_get_dlopened_string_shared()); ASSERT_TRUE(*ns_dlopened_string == ns_get_dlopened_string_shared()); dlclose(handle1); dlclose(handle2); } TEST(dlext, ns_shared_links_and_paths) { // Create parent namespace (isolated, not shared) android_namespace_t* ns_isolated = android_create_namespace("private_isolated", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, (GetTestlibRoot() + "/public_namespace_libs").c_str(), nullptr); ASSERT_TRUE(ns_isolated != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_isolated, nullptr, g_core_shared_libs.c_str())) << dlerror(); // Create shared namespace with ns_isolated parent android_namespace_t* ns_shared = android_create_namespace("private_shared", nullptr, nullptr, ANDROID_NAMESPACE_TYPE_SHARED | ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, ns_isolated); ASSERT_TRUE(ns_shared != nullptr) << dlerror(); // 1. Load a library in ns_shared to check that it has inherited // search path and the link to the default namespace. android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns_shared; { void* handle = android_dlopen_ext("libnstest_private.so", RTLD_NOW, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); const char** ns_private_extern_string = static_cast(dlsym(handle, "g_private_extern_string")); ASSERT_TRUE(ns_private_extern_string != nullptr) << dlerror(); ASSERT_STREQ("This string is from private namespace", *ns_private_extern_string); dlclose(handle); } // 2. Load another test library by absolute path to check that // it has inherited permitted_when_isolated_path { void* handle = android_dlopen_ext( (GetTestlibRoot() + "/public_namespace_libs/libnstest_public.so").c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); const char** ns_public_extern_string = static_cast(dlsym(handle, "g_public_extern_string")); ASSERT_TRUE(ns_public_extern_string != nullptr) << dlerror(); ASSERT_STREQ("This string is from public namespace", *ns_public_extern_string); dlclose(handle); } // 3. Check that it is still isolated. { void* handle = android_dlopen_ext( (GetTestlibRoot() + "/libtest_empty.so").c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle == nullptr); } } TEST(dlext, ns_shared_dlclose) { android_set_application_target_sdk_version(42U); // something > 23 ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)) << dlerror(); // preload this library to the default namespace to check if it // is shared later on. void* handle_dlopened = dlopen((GetTestlibRoot() + "/private_namespace_libs/libnstest_dlopened.so").c_str(), RTLD_NOW); ASSERT_TRUE(handle_dlopened != nullptr) << dlerror(); android_namespace_t* ns_isolated_shared = android_create_namespace("private_isolated_shared", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED | ANDROID_NAMESPACE_TYPE_SHARED, nullptr, nullptr); ASSERT_TRUE(ns_isolated_shared != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_isolated_shared, nullptr, g_core_shared_libs.c_str())) << dlerror(); // Check if "libnstest_dlopened.so" is loaded (and the same) android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns_isolated_shared; void* handle = android_dlopen_ext("libnstest_dlopened.so", RTLD_NOW | RTLD_NOLOAD, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); ASSERT_TRUE(handle == handle_dlopened); dlclose(handle); dlclose(handle_dlopened); // And now check that the library cannot be found by soname (and is no longer loaded) handle = android_dlopen_ext("libnstest_dlopened.so", RTLD_NOW | RTLD_NOLOAD, &extinfo); ASSERT_TRUE(handle == nullptr) << "Error: libnstest_dlopened.so is still accessible in shared namespace"; handle = android_dlopen_ext((GetTestlibRoot() + "/private_namespace_libs/libnstest_dlopened.so").c_str(), RTLD_NOW | RTLD_NOLOAD, &extinfo); ASSERT_TRUE(handle == nullptr) << "Error: libnstest_dlopened.so is still accessible in shared namespace"; handle = dlopen("libnstest_dlopened.so", RTLD_NOW | RTLD_NOLOAD); ASSERT_TRUE(handle == nullptr) << "Error: libnstest_dlopened.so is still accessible in default namespace"; handle = dlopen((GetTestlibRoot() + "/private_namespace_libs/libnstest_dlopened.so").c_str(), RTLD_NOW | RTLD_NOLOAD); ASSERT_TRUE(handle == nullptr) << "Error: libnstest_dlopened.so is still accessible in default namespace"; // Now lets see if the soinfo area gets reused in the wrong way: // load a library to default namespace. const std::string lib_public_path = GetTestlibRoot() + "/public_namespace_libs/" + g_public_lib; void* handle_public = dlopen(lib_public_path.c_str(), RTLD_NOW); ASSERT_TRUE(handle_public != nullptr) << dlerror(); // try to find it in shared namespace handle = android_dlopen_ext(g_public_lib, RTLD_NOW | RTLD_NOLOAD, &extinfo); ASSERT_TRUE(handle == nullptr) << "Error: " << g_public_lib << " is accessible in shared namespace"; } TEST(dlext, ns_isolated_rtld_global) { static const char* root_lib = "libnstest_root.so"; ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)); const std::string lib_public_path = GetTestlibRoot() + "/public_namespace_libs"; android_namespace_t* ns1 = android_create_namespace("isolated1", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, lib_public_path.c_str(), nullptr); ASSERT_TRUE(ns1 != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns1, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_namespace_t* ns2 = android_create_namespace("isolated2", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, lib_public_path.c_str(), nullptr); ASSERT_TRUE(ns2 != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns2, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns1; void* handle_global = android_dlopen_ext((lib_public_path + "/" + g_public_lib).c_str(), RTLD_GLOBAL, &extinfo); ASSERT_TRUE(handle_global != nullptr) << dlerror(); android_namespace_t* ns1_child = android_create_namespace("isolated1_child", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, ns1); ASSERT_TRUE(ns1_child != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns1_child, nullptr, g_core_shared_libs.c_str())) << dlerror(); // Now - only ns1 and ns1 child should be able to dlopen root_lib // attempt to use ns2 should result in dlerror() // Check ns1_child first. extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns1_child; void* handle1 = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle1 != nullptr) << dlerror(); // now ns1 extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns1; handle1 = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle1 != nullptr) << dlerror(); // and ns2 should fail extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns2; handle1 = android_dlopen_ext(root_lib, RTLD_NOW, &extinfo); ASSERT_TRUE(handle1 == nullptr); ASSERT_MATCH( dlerror(), R"(dlopen failed: library "libnstest_public.so" not found: needed by \S+libnstest_root.so)" R"( in namespace isolated2)"); } TEST(dlext, ns_inaccessible_error_message) { // We set up 2 namespaces (a and b) and link a->b with a shared library // libtestshared.so. Then try to dlopen different library with the same // name from in namespace a. Note that library should not be accessible // in either namespace but since it's soname is in the list of shared libs // the linker will attempt to find it in linked namespace. // // Check the error message and make sure it mentions correct namespace name. ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)); android_namespace_t* ns_a = android_create_namespace("ns_a", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(ns_a != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_a, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_namespace_t* ns_b = android_create_namespace("ns_b", nullptr, GetTestlibRoot().c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(ns_b != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_b, nullptr, g_core_shared_libs.c_str())) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_a, ns_b, "libtestshared.so")) << dlerror(); android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns_a; std::string library_path = GetTestlibRoot() + "/inaccessible_libs/libtestshared.so"; void* handle = android_dlopen_ext(library_path.c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle == nullptr); std::string expected_dlerror = android::base::StringPrintf("dlopen failed: library \"%s\" needed or dlopened by \"%s\"" " is not accessible for the namespace \"ns_a\"", library_path.c_str(), android::base::GetExecutablePath().c_str()); ASSERT_EQ(expected_dlerror, dlerror()); } extern "C" bool __loader_android_link_namespaces_all_libs(android_namespace_t* namespace_from, android_namespace_t* namespace_to); TEST(dlext, ns_link_namespaces_invalid_arguments) { ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)); android_namespace_t* ns = android_create_namespace("private", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_REGULAR, nullptr, nullptr); ASSERT_TRUE(ns != nullptr) << dlerror(); // Test android_link_namespaces() ASSERT_FALSE(android_link_namespaces(nullptr, nullptr, "libc.so")); ASSERT_STREQ("android_link_namespaces failed: error linking namespaces: namespace_from is null.", dlerror()); ASSERT_FALSE(android_link_namespaces(ns, nullptr, nullptr)); ASSERT_STREQ("android_link_namespaces failed: " "error linking namespaces \"private\"->\"(default)\": " "the list of shared libraries is empty.", dlerror()); ASSERT_FALSE(android_link_namespaces(ns, nullptr, "")); ASSERT_STREQ("android_link_namespaces failed: " "error linking namespaces \"private\"->\"(default)\": " "the list of shared libraries is empty.", dlerror()); // Test __loader_android_link_namespaces_all_libs() ASSERT_FALSE(__loader_android_link_namespaces_all_libs(nullptr, nullptr)); ASSERT_STREQ("android_link_namespaces_all_libs failed: " "error linking namespaces: namespace_from is null.", dlerror()); ASSERT_FALSE(__loader_android_link_namespaces_all_libs(nullptr, ns)); ASSERT_STREQ("android_link_namespaces_all_libs failed: " "error linking namespaces: namespace_from is null.", dlerror()); ASSERT_FALSE(__loader_android_link_namespaces_all_libs(ns, nullptr)); ASSERT_STREQ("android_link_namespaces_all_libs failed: " "error linking namespaces: namespace_to is null.", dlerror()); } TEST(dlext, ns_allow_all_shared_libs) { ASSERT_TRUE(android_init_anonymous_namespace(g_core_shared_libs.c_str(), nullptr)); android_namespace_t* ns_a = android_create_namespace("ns_a", nullptr, (GetTestlibRoot() + "/ns_a").c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(ns_a != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_a, nullptr, g_core_shared_libs.c_str())) << dlerror(); android_namespace_t* ns_b = android_create_namespace("ns_b", nullptr, (GetTestlibRoot() + "/ns_b").c_str(), ANDROID_NAMESPACE_TYPE_ISOLATED, nullptr, nullptr); ASSERT_TRUE(ns_b != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_b, nullptr, g_core_shared_libs.c_str())) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns_b, ns_a, "libnstest_ns_a_public1.so")) << dlerror(); ASSERT_TRUE(__loader_android_link_namespaces_all_libs(ns_a, ns_b)) << dlerror(); // Load libs with android_dlopen_ext() from namespace b android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns_b; void* ns_b_handle1 = android_dlopen_ext("libnstest_ns_a_public1.so", RTLD_NOW, &extinfo); ASSERT_TRUE(ns_b_handle1 != nullptr) << dlerror(); void* ns_b_handle1_internal = android_dlopen_ext("libnstest_ns_a_public1_internal.so", RTLD_NOW, &extinfo); ASSERT_TRUE(ns_b_handle1_internal == nullptr); void* ns_b_handle2 = android_dlopen_ext("libnstest_ns_b_public2.so", RTLD_NOW, &extinfo); ASSERT_TRUE(ns_b_handle2 != nullptr) << dlerror(); void* ns_b_handle3 = android_dlopen_ext("libnstest_ns_b_public3.so", RTLD_NOW, &extinfo); ASSERT_TRUE(ns_b_handle3 != nullptr) << dlerror(); // Load libs with android_dlopen_ext() from namespace a extinfo.library_namespace = ns_a; void* ns_a_handle1 = android_dlopen_ext("libnstest_ns_a_public1.so", RTLD_NOW, &extinfo); ASSERT_TRUE(ns_a_handle1 != nullptr) << dlerror(); void* ns_a_handle1_internal = android_dlopen_ext("libnstest_ns_a_public1_internal.so", RTLD_NOW, &extinfo); ASSERT_TRUE(ns_a_handle1_internal != nullptr) << dlerror(); void* ns_a_handle2 = android_dlopen_ext("libnstest_ns_b_public2.so", RTLD_NOW, &extinfo); ASSERT_TRUE(ns_a_handle2 != nullptr) << dlerror(); void* ns_a_handle3 = android_dlopen_ext("libnstest_ns_b_public3.so", RTLD_NOW, &extinfo); ASSERT_TRUE(ns_a_handle3 != nullptr) << dlerror(); // Compare the dlopen handle ASSERT_EQ(ns_b_handle1, ns_a_handle1); ASSERT_EQ(ns_b_handle2, ns_a_handle2); ASSERT_EQ(ns_b_handle3, ns_a_handle3); // Close libs dlclose(ns_b_handle1); dlclose(ns_b_handle2); dlclose(ns_b_handle3); dlclose(ns_a_handle1); dlclose(ns_a_handle1_internal); dlclose(ns_a_handle2); dlclose(ns_a_handle3); } TEST(dlext, ns_anonymous) { static const char* root_lib = "libnstest_root.so"; std::string shared_libs = g_core_shared_libs + ":" + g_public_lib; const std::string lib_public_path = GetTestlibRoot() + "/public_namespace_libs/" + g_public_lib; void* handle_public = dlopen(lib_public_path.c_str(), RTLD_NOW); ASSERT_TRUE(handle_public != nullptr) << dlerror(); ASSERT_TRUE( android_init_anonymous_namespace(shared_libs.c_str(), (GetTestlibRoot() + "/private_namespace_libs").c_str()) ) << dlerror(); android_namespace_t* ns = android_create_namespace("private", nullptr, (GetTestlibRoot() + "/private_namespace_libs").c_str(), ANDROID_NAMESPACE_TYPE_REGULAR, nullptr, nullptr); ASSERT_TRUE(ns != nullptr) << dlerror(); ASSERT_TRUE(android_link_namespaces(ns, nullptr, shared_libs.c_str())) << dlerror(); std::string private_library_absolute_path = GetTestlibRoot() + "/private_namespace_libs/" + root_lib; android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns; // we are going to copy this library to anonymous mmap and call the copy of ns_get_dlopened_string void* handle = android_dlopen_ext(private_library_absolute_path.c_str(), RTLD_NOW, &extinfo); ASSERT_TRUE(handle != nullptr) << dlerror(); uintptr_t ns_get_dlopened_string_addr = reinterpret_cast(dlsym(handle, "ns_get_dlopened_string")); ASSERT_TRUE(ns_get_dlopened_string_addr != 0) << dlerror(); typedef const char* (*fn_t)(); fn_t ns_get_dlopened_string_private = reinterpret_cast(ns_get_dlopened_string_addr); std::vector maps; Maps::parse_maps(&maps); uintptr_t addr_start = 0; uintptr_t addr_end = 0; bool has_executable_segment = false; std::vector maps_to_copy; for (const auto& rec : maps) { if (rec.pathname == private_library_absolute_path) { if (addr_start == 0) { addr_start = rec.addr_start; } addr_end = rec.addr_end; has_executable_segment = has_executable_segment || (rec.perms & PROT_EXEC) != 0; maps_to_copy.push_back(rec); } } // Some validity checks. ASSERT_TRUE(addr_start > 0); ASSERT_TRUE(addr_end > 0); ASSERT_TRUE(maps_to_copy.size() > 0); ASSERT_TRUE(ns_get_dlopened_string_addr > addr_start); ASSERT_TRUE(ns_get_dlopened_string_addr < addr_end); if (!has_executable_segment) { // For some natively bridged environments this code might be missing // the executable flag. This is because the guest code is not supposed // to be executed directly and making it non-executable is more secure. // In this case we assume the segment with the function is executable. for (auto& rec : maps_to_copy) { if (ns_get_dlopened_string_addr >= rec.addr_start && ns_get_dlopened_string_addr < rec.addr_end) { ASSERT_TRUE((rec.perms & PROT_WRITE) == 0); rec.perms |= PROT_EXEC; break; } } } // copy uintptr_t reserved_addr = reinterpret_cast(mmap(nullptr, addr_end - addr_start, PROT_NONE, MAP_ANON | MAP_PRIVATE, -1, 0)); ASSERT_TRUE(reinterpret_cast(reserved_addr) != MAP_FAILED); for (const auto& rec : maps_to_copy) { uintptr_t offset = rec.addr_start - addr_start; size_t size = rec.addr_end - rec.addr_start; void* addr = reinterpret_cast(reserved_addr + offset); void* map = mmap(addr, size, PROT_READ | PROT_WRITE, MAP_ANON | MAP_PRIVATE | MAP_FIXED, -1, 0); ASSERT_TRUE(map != MAP_FAILED); memcpy(map, reinterpret_cast(rec.addr_start), size); mprotect(map, size, rec.perms); } // call the function copy uintptr_t ns_get_dlopened_string_offset = ns_get_dlopened_string_addr - addr_start; fn_t ns_get_dlopened_string_anon = reinterpret_cast(reserved_addr + ns_get_dlopened_string_offset); ASSERT_STREQ("This string is from private namespace (dlopened library)", ns_get_dlopened_string_anon()); // They should belong to different namespaces (private and anonymous) ASSERT_STREQ("This string is from private namespace (dlopened library)", ns_get_dlopened_string_private()); ASSERT_TRUE(ns_get_dlopened_string_anon() != ns_get_dlopened_string_private()); } TEST(dlext, ns_hidden_child) { ExecTestHelper eth; std::string helper = GetTestlibRoot() + "/ns_hidden_child_helper/ns_hidden_child_helper"; chmod(helper.c_str(), 0755); // TODO: "x" lost in CTS, b/34945607 std::string app_ns_dir = GetTestlibRoot() + "/ns_hidden_child_app"; eth.SetArgs({ helper.c_str(), app_ns_dir.c_str(), nullptr }); // Add the main libns_hidden_child_*.so libraries to the search path of the default namespace. std::string env = "LD_LIBRARY_PATH=" + GetTestlibRoot(); eth.SetEnv({ env.c_str(), nullptr }); eth.Run([&]() { execve(helper.c_str(), eth.GetArgs(), eth.GetEnv()); }, 0, "public_function is non-null\n" "internal_function is null\n"); } TEST(dlext, dlopen_handle_value_platform) { void* handle = dlopen("libtest_dlsym_from_this.so", RTLD_NOW | RTLD_LOCAL); ASSERT_TRUE((reinterpret_cast(handle) & 1) != 0) << "dlopen should return odd value for the handle"; dlclose(handle); } TEST(dlext, dlopen_handle_value_app_compat) { android_set_application_target_sdk_version(23); void* handle = dlopen("libtest_dlsym_from_this.so", RTLD_NOW | RTLD_LOCAL); ASSERT_TRUE(reinterpret_cast(handle) % sizeof(uintptr_t) == 0) << "dlopen should return valid pointer"; dlclose(handle); }