/* * Copyright 2016, 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 #include #include using namespace std::chrono_literals; using android::base::unique_fd; #if defined(__LP64__) #define ARCH_SUFFIX "64" #else #define ARCH_SUFFIX "" #endif constexpr char kWaitForGdbKey[] = "debug.debuggerd.wait_for_gdb"; #define TIMEOUT(seconds, expr) \ [&]() { \ struct sigaction old_sigaction; \ struct sigaction new_sigaction = {}; \ new_sigaction.sa_handler = [](int) {}; \ if (sigaction(SIGALRM, &new_sigaction, &new_sigaction) != 0) { \ err(1, "sigaction failed"); \ } \ alarm(seconds); \ auto value = expr; \ int saved_errno = errno; \ if (sigaction(SIGALRM, &old_sigaction, nullptr) != 0) { \ err(1, "sigaction failed"); \ } \ alarm(0); \ errno = saved_errno; \ return value; \ }() #define ASSERT_MATCH(str, pattern) \ do { \ std::regex r((pattern)); \ if (!std::regex_search((str), r)) { \ FAIL() << "regex mismatch: expected " << (pattern) << " in: \n" << (str); \ } \ } while (0) #define ASSERT_NOT_MATCH(str, pattern) \ do { \ std::regex r((pattern)); \ if (std::regex_search((str), r)) { \ FAIL() << "regex mismatch: expected to not find " << (pattern) << " in: \n" << (str); \ } \ } while (0) static void tombstoned_intercept(pid_t target_pid, unique_fd* intercept_fd, unique_fd* output_fd) { intercept_fd->reset(socket_local_client(kTombstonedInterceptSocketName, ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_SEQPACKET)); if (intercept_fd->get() == -1) { FAIL() << "failed to contact tombstoned: " << strerror(errno); } InterceptRequest req = {.pid = target_pid}; unique_fd output_pipe_write; if (!Pipe(output_fd, &output_pipe_write)) { FAIL() << "failed to create output pipe: " << strerror(errno); } std::string pipe_size_str; int pipe_buffer_size; if (!android::base::ReadFileToString("/proc/sys/fs/pipe-max-size", &pipe_size_str)) { FAIL() << "failed to read /proc/sys/fs/pipe-max-size: " << strerror(errno); } pipe_size_str = android::base::Trim(pipe_size_str); if (!android::base::ParseInt(pipe_size_str.c_str(), &pipe_buffer_size, 0)) { FAIL() << "failed to parse pipe max size"; } if (fcntl(output_fd->get(), F_SETPIPE_SZ, pipe_buffer_size) != pipe_buffer_size) { FAIL() << "failed to set pipe size: " << strerror(errno); } if (send_fd(intercept_fd->get(), &req, sizeof(req), std::move(output_pipe_write)) != sizeof(req)) { FAIL() << "failed to send output fd to tombstoned: " << strerror(errno); } InterceptResponse response; ssize_t rc = TEMP_FAILURE_RETRY(read(intercept_fd->get(), &response, sizeof(response))); if (rc == -1) { FAIL() << "failed to read response from tombstoned: " << strerror(errno); } else if (rc == 0) { FAIL() << "failed to read response from tombstoned (EOF)"; } else if (rc != sizeof(response)) { FAIL() << "received packet of unexpected length from tombstoned: expected " << sizeof(response) << ", received " << rc; } ASSERT_EQ(InterceptStatus::kRegistered, response.status); } class CrasherTest : public ::testing::Test { public: pid_t crasher_pid = -1; bool previous_wait_for_gdb; unique_fd crasher_pipe; unique_fd intercept_fd; CrasherTest(); ~CrasherTest(); void StartIntercept(unique_fd* output_fd); // Returns -1 if we fail to read a response from tombstoned, otherwise the received return code. void FinishIntercept(int* result); void StartProcess(std::function function, std::function forker = fork); void StartCrasher(const std::string& crash_type); void FinishCrasher(); void AssertDeath(int signo); }; CrasherTest::CrasherTest() { previous_wait_for_gdb = android::base::GetBoolProperty(kWaitForGdbKey, false); android::base::SetProperty(kWaitForGdbKey, "0"); } CrasherTest::~CrasherTest() { if (crasher_pid != -1) { kill(crasher_pid, SIGKILL); int status; waitpid(crasher_pid, &status, WUNTRACED); } android::base::SetProperty(kWaitForGdbKey, previous_wait_for_gdb ? "1" : "0"); } void CrasherTest::StartIntercept(unique_fd* output_fd) { if (crasher_pid == -1) { FAIL() << "crasher hasn't been started"; } tombstoned_intercept(crasher_pid, &this->intercept_fd, output_fd); } void CrasherTest::FinishIntercept(int* result) { InterceptResponse response; // Timeout for tombstoned intercept is 10 seconds. ssize_t rc = TIMEOUT(20, read(intercept_fd.get(), &response, sizeof(response))); if (rc == -1) { FAIL() << "failed to read response from tombstoned: " << strerror(errno); } else if (rc == 0) { *result = -1; } else if (rc != sizeof(response)) { FAIL() << "received packet of unexpected length from tombstoned: expected " << sizeof(response) << ", received " << rc; } else { *result = response.status == InterceptStatus::kStarted ? 1 : 0; } } void CrasherTest::StartProcess(std::function function, std::function forker) { unique_fd read_pipe; unique_fd crasher_read_pipe; if (!Pipe(&crasher_read_pipe, &crasher_pipe)) { FAIL() << "failed to create pipe: " << strerror(errno); } crasher_pid = forker(); if (crasher_pid == -1) { FAIL() << "fork failed: " << strerror(errno); } else if (crasher_pid == 0) { char dummy; crasher_pipe.reset(); TEMP_FAILURE_RETRY(read(crasher_read_pipe.get(), &dummy, 1)); function(); _exit(0); } } void CrasherTest::FinishCrasher() { if (crasher_pipe == -1) { FAIL() << "crasher pipe uninitialized"; } ssize_t rc = write(crasher_pipe.get(), "\n", 1); if (rc == -1) { FAIL() << "failed to write to crasher pipe: " << strerror(errno); } else if (rc == 0) { FAIL() << "crasher pipe was closed"; } } void CrasherTest::AssertDeath(int signo) { int status; pid_t pid = TIMEOUT(5, waitpid(crasher_pid, &status, 0)); if (pid != crasher_pid) { FAIL() << "failed to wait for crasher: " << strerror(errno); } if (signo == 0) { ASSERT_TRUE(WIFEXITED(status)); ASSERT_EQ(0, WEXITSTATUS(signo)); } else { ASSERT_FALSE(WIFEXITED(status)); ASSERT_TRUE(WIFSIGNALED(status)) << "crasher didn't terminate via a signal"; ASSERT_EQ(signo, WTERMSIG(status)); } crasher_pid = -1; } static void ConsumeFd(unique_fd fd, std::string* output) { constexpr size_t read_length = PAGE_SIZE; std::string result; while (true) { size_t offset = result.size(); result.resize(result.size() + PAGE_SIZE); ssize_t rc = TEMP_FAILURE_RETRY(read(fd.get(), &result[offset], read_length)); if (rc == -1) { FAIL() << "read failed: " << strerror(errno); } else if (rc == 0) { result.resize(result.size() - PAGE_SIZE); break; } result.resize(result.size() - PAGE_SIZE + rc); } *output = std::move(result); } TEST_F(CrasherTest, smoke) { int intercept_result; unique_fd output_fd; StartProcess([]() { *reinterpret_cast(0xdead) = '1'; }); StartIntercept(&output_fd); FinishCrasher(); AssertDeath(SIGSEGV); FinishIntercept(&intercept_result); ASSERT_EQ(1, intercept_result) << "tombstoned reported failure"; std::string result; ConsumeFd(std::move(output_fd), &result); ASSERT_MATCH(result, R"(signal 11 \(SIGSEGV\), code 1 \(SEGV_MAPERR\), fault addr 0xdead)"); } TEST_F(CrasherTest, abort) { int intercept_result; unique_fd output_fd; StartProcess([]() { abort(); }); StartIntercept(&output_fd); FinishCrasher(); AssertDeath(SIGABRT); FinishIntercept(&intercept_result); ASSERT_EQ(1, intercept_result) << "tombstoned reported failure"; std::string result; ConsumeFd(std::move(output_fd), &result); ASSERT_MATCH(result, R"(#00 pc [0-9a-f]+\s+ /system/lib)" ARCH_SUFFIX R"(/libc.so \(tgkill)"); } TEST_F(CrasherTest, signal) { int intercept_result; unique_fd output_fd; StartProcess([]() { abort(); }); StartIntercept(&output_fd); // Wait for a bit, or we might end up killing the process before the signal // handler even gets a chance to be registered. std::this_thread::sleep_for(100ms); ASSERT_EQ(0, kill(crasher_pid, SIGSEGV)); AssertDeath(SIGSEGV); FinishIntercept(&intercept_result); ASSERT_EQ(1, intercept_result) << "tombstoned reported failure"; std::string result; ConsumeFd(std::move(output_fd), &result); ASSERT_MATCH(result, R"(signal 11 \(SIGSEGV\), code 0 \(SI_USER\), fault addr --------)"); ASSERT_MATCH(result, R"(backtrace:)"); } TEST_F(CrasherTest, abort_message) { int intercept_result; unique_fd output_fd; StartProcess([]() { android_set_abort_message("abort message goes here"); abort(); }); StartIntercept(&output_fd); FinishCrasher(); AssertDeath(SIGABRT); FinishIntercept(&intercept_result); ASSERT_EQ(1, intercept_result) << "tombstoned reported failure"; std::string result; ConsumeFd(std::move(output_fd), &result); ASSERT_MATCH(result, R"(Abort message: 'abort message goes here')"); } TEST_F(CrasherTest, abort_message_backtrace) { int intercept_result; unique_fd output_fd; StartProcess([]() { android_set_abort_message("not actually aborting"); raise(DEBUGGER_SIGNAL); exit(0); }); StartIntercept(&output_fd); FinishCrasher(); AssertDeath(0); FinishIntercept(&intercept_result); ASSERT_EQ(1, intercept_result) << "tombstoned reported failure"; std::string result; ConsumeFd(std::move(output_fd), &result); ASSERT_NOT_MATCH(result, R"(Abort message:)"); } TEST_F(CrasherTest, intercept_timeout) { int intercept_result; unique_fd output_fd; StartProcess([]() { abort(); }); StartIntercept(&output_fd); // Don't let crasher finish until we timeout. FinishIntercept(&intercept_result); ASSERT_NE(1, intercept_result) << "tombstoned reported success? (intercept_result = " << intercept_result << ")"; FinishCrasher(); AssertDeath(SIGABRT); } TEST_F(CrasherTest, wait_for_gdb) { if (!android::base::SetProperty(kWaitForGdbKey, "1")) { FAIL() << "failed to enable wait_for_gdb"; } sleep(1); StartProcess([]() { abort(); }); FinishCrasher(); int status; ASSERT_EQ(crasher_pid, waitpid(crasher_pid, &status, WUNTRACED)); ASSERT_TRUE(WIFSTOPPED(status)); ASSERT_EQ(SIGSTOP, WSTOPSIG(status)); ASSERT_EQ(0, kill(crasher_pid, SIGCONT)); AssertDeath(SIGABRT); } // wait_for_gdb shouldn't trigger on manually sent signals. TEST_F(CrasherTest, wait_for_gdb_signal) { if (!android::base::SetProperty(kWaitForGdbKey, "1")) { FAIL() << "failed to enable wait_for_gdb"; } StartProcess([]() { abort(); }); ASSERT_EQ(0, kill(crasher_pid, SIGSEGV)) << strerror(errno); AssertDeath(SIGSEGV); } TEST_F(CrasherTest, backtrace) { std::string result; int intercept_result; unique_fd output_fd; StartProcess([]() { abort(); }); StartIntercept(&output_fd); std::this_thread::sleep_for(500ms); sigval val; val.sival_int = 1; ASSERT_EQ(0, sigqueue(crasher_pid, DEBUGGER_SIGNAL, val)) << strerror(errno); FinishIntercept(&intercept_result); ASSERT_EQ(1, intercept_result) << "tombstoned reported failure"; ConsumeFd(std::move(output_fd), &result); ASSERT_MATCH(result, R"(#00 pc [0-9a-f]+ /system/lib)" ARCH_SUFFIX R"(/libc.so \(read\+)"); int status; ASSERT_EQ(0, waitpid(crasher_pid, &status, WNOHANG | WUNTRACED)); StartIntercept(&output_fd); FinishCrasher(); AssertDeath(SIGABRT); FinishIntercept(&intercept_result); ASSERT_EQ(1, intercept_result) << "tombstoned reported failure"; ConsumeFd(std::move(output_fd), &result); ASSERT_MATCH(result, R"(#00 pc [0-9a-f]+\s+ /system/lib)" ARCH_SUFFIX R"(/libc.so \(tgkill)"); } TEST_F(CrasherTest, PR_SET_DUMPABLE_0_crash) { int intercept_result; unique_fd output_fd; StartProcess([]() { prctl(PR_SET_DUMPABLE, 0); abort(); }); StartIntercept(&output_fd); FinishCrasher(); AssertDeath(SIGABRT); FinishIntercept(&intercept_result); ASSERT_EQ(1, intercept_result) << "tombstoned reported failure"; std::string result; ConsumeFd(std::move(output_fd), &result); ASSERT_MATCH(result, R"(#00 pc [0-9a-f]+\s+ /system/lib)" ARCH_SUFFIX R"(/libc.so \(tgkill)"); } TEST_F(CrasherTest, capabilities) { ASSERT_EQ(0U, getuid()) << "capability test requires root"; StartProcess([]() { if (prctl(PR_SET_KEEPCAPS, 1, 0, 0, 0) != 0) { err(1, "failed to set PR_SET_KEEPCAPS"); } if (setresuid(1, 1, 1) != 0) { err(1, "setresuid failed"); } __user_cap_header_struct capheader; __user_cap_data_struct capdata[2]; memset(&capheader, 0, sizeof(capheader)); memset(&capdata, 0, sizeof(capdata)); capheader.version = _LINUX_CAPABILITY_VERSION_3; capheader.pid = 0; // Turn on every third capability. static_assert(CAP_LAST_CAP > 33, "CAP_LAST_CAP <= 32"); for (int i = 0; i < CAP_LAST_CAP; i += 3) { capdata[CAP_TO_INDEX(i)].permitted |= CAP_TO_MASK(i); capdata[CAP_TO_INDEX(i)].effective |= CAP_TO_MASK(i); } // Make sure CAP_SYS_PTRACE is off. capdata[CAP_TO_INDEX(CAP_SYS_PTRACE)].permitted &= ~(CAP_TO_MASK(CAP_SYS_PTRACE)); capdata[CAP_TO_INDEX(CAP_SYS_PTRACE)].effective &= ~(CAP_TO_MASK(CAP_SYS_PTRACE)); if (capset(&capheader, &capdata[0]) != 0) { err(1, "capset failed"); } if (prctl(PR_CAP_AMBIENT, PR_CAP_AMBIENT_CLEAR_ALL, 0, 0, 0) != 0) { err(1, "failed to drop ambient capabilities"); } pthread_setname_np(pthread_self(), "thread_name"); raise(SIGSYS); }); unique_fd output_fd; StartIntercept(&output_fd); FinishCrasher(); AssertDeath(SIGSYS); std::string result; int intercept_result; FinishIntercept(&intercept_result); ASSERT_EQ(1, intercept_result) << "tombstoned reported failure"; ConsumeFd(std::move(output_fd), &result); ASSERT_MATCH(result, R"(name: thread_name\s+>>> .+debuggerd_test(32|64) <<<)"); ASSERT_MATCH(result, R"(#00 pc [0-9a-f]+\s+ /system/lib)" ARCH_SUFFIX R"(/libc.so \(tgkill)"); } TEST_F(CrasherTest, fake_pid) { int intercept_result; unique_fd output_fd; // Prime the getpid/gettid caches. UNUSED(getpid()); UNUSED(gettid()); std::function clone_fn = []() { return syscall(__NR_clone, SIGCHLD, nullptr, nullptr, nullptr, nullptr); }; StartProcess( []() { ASSERT_NE(getpid(), syscall(__NR_getpid)); ASSERT_NE(gettid(), syscall(__NR_gettid)); raise(SIGSEGV); }, clone_fn); StartIntercept(&output_fd); FinishCrasher(); AssertDeath(SIGSEGV); FinishIntercept(&intercept_result); ASSERT_EQ(1, intercept_result) << "tombstoned reported failure"; std::string result; ConsumeFd(std::move(output_fd), &result); ASSERT_MATCH(result, R"(#00 pc [0-9a-f]+\s+ /system/lib)" ARCH_SUFFIX R"(/libc.so \(tgkill)"); } TEST(crash_dump, zombie) { pid_t forkpid = fork(); pid_t rc; int status; if (forkpid == 0) { errno = 0; rc = waitpid(-1, &status, WNOHANG | __WALL | __WNOTHREAD); if (rc != -1 || errno != ECHILD) { errx(2, "first waitpid returned %d (%s), expected failure with ECHILD", rc, strerror(errno)); } raise(DEBUGGER_SIGNAL); errno = 0; rc = waitpid(-1, &status, __WALL | __WNOTHREAD); if (rc != -1 || errno != ECHILD) { errx(2, "second waitpid returned %d (%s), expected failure with ECHILD", rc, strerror(errno)); } _exit(0); } else { rc = waitpid(forkpid, &status, 0); ASSERT_EQ(forkpid, rc); ASSERT_TRUE(WIFEXITED(status)); ASSERT_EQ(0, WEXITSTATUS(status)); } } TEST(tombstoned, no_notify) { // Do this a few times. for (int i = 0; i < 3; ++i) { pid_t pid = 123'456'789 + i; unique_fd intercept_fd, output_fd; tombstoned_intercept(pid, &intercept_fd, &output_fd); { unique_fd tombstoned_socket, input_fd; ASSERT_TRUE(tombstoned_connect(pid, &tombstoned_socket, &input_fd)); ASSERT_TRUE(android::base::WriteFully(input_fd.get(), &pid, sizeof(pid))); } pid_t read_pid; ASSERT_TRUE(android::base::ReadFully(output_fd.get(), &read_pid, sizeof(read_pid))); ASSERT_EQ(read_pid, pid); } } TEST(tombstoned, stress) { // Spawn threads to simultaneously do a bunch of failing dumps and a bunch of successful dumps. static constexpr int kDumpCount = 100; std::atomic start(false); std::vector threads; threads.emplace_back([&start]() { while (!start) { continue; } // Use a way out of range pid, to avoid stomping on an actual process. pid_t pid_base = 1'000'000; for (int dump = 0; dump < kDumpCount; ++dump) { pid_t pid = pid_base + dump; unique_fd intercept_fd, output_fd; tombstoned_intercept(pid, &intercept_fd, &output_fd); // Pretend to crash, and then immediately close the socket. unique_fd sockfd(socket_local_client(kTombstonedCrashSocketName, ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_SEQPACKET)); if (sockfd == -1) { FAIL() << "failed to connect to tombstoned: " << strerror(errno); } TombstonedCrashPacket packet = {}; packet.packet_type = CrashPacketType::kDumpRequest; packet.packet.dump_request.pid = pid; if (TEMP_FAILURE_RETRY(write(sockfd, &packet, sizeof(packet))) != sizeof(packet)) { FAIL() << "failed to write to tombstoned: " << strerror(errno); } continue; } }); threads.emplace_back([&start]() { while (!start) { continue; } // Use a way out of range pid, to avoid stomping on an actual process. pid_t pid_base = 2'000'000; for (int dump = 0; dump < kDumpCount; ++dump) { pid_t pid = pid_base + dump; unique_fd intercept_fd, output_fd; tombstoned_intercept(pid, &intercept_fd, &output_fd); { unique_fd tombstoned_socket, input_fd; ASSERT_TRUE(tombstoned_connect(pid, &tombstoned_socket, &input_fd)); ASSERT_TRUE(android::base::WriteFully(input_fd.get(), &pid, sizeof(pid))); tombstoned_notify_completion(tombstoned_socket.get()); } // TODO: Fix the race that requires this sleep. std::this_thread::sleep_for(50ms); pid_t read_pid; ASSERT_TRUE(android::base::ReadFully(output_fd.get(), &read_pid, sizeof(read_pid))); ASSERT_EQ(read_pid, pid); } }); start = true; for (std::thread& thread : threads) { thread.join(); } }