/* * 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 #ifdef __ANDROID__ #include #endif #include "LogUtils.h" // For LOGD_SNDTIMEO. using android::base::unique_fd; #ifdef __ANDROID__ static void send_to_control(char* buf, size_t len) { int sock = socket_local_client("logd", ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_STREAM); if (sock >= 0) { if (write(sock, buf, strlen(buf) + 1) > 0) { ssize_t ret; while ((ret = read(sock, buf, len)) > 0) { if (((size_t)ret == len) || (len < PAGE_SIZE)) { break; } len -= ret; buf += ret; struct pollfd p = {.fd = sock, .events = POLLIN, .revents = 0 }; ret = poll(&p, 1, 20); if ((ret <= 0) || !(p.revents & POLLIN)) { break; } } } close(sock); } } /* * returns statistics */ static void my_android_logger_get_statistics(char* buf, size_t len) { snprintf(buf, len, "getStatistics 0 1 2 3 4"); send_to_control(buf, len); } static void alloc_statistics(char** buffer, size_t* length) { size_t len = 8192; char* buf; for (int retry = 32; (retry >= 0); delete[] buf, --retry) { buf = new char[len]; my_android_logger_get_statistics(buf, len); buf[len - 1] = '\0'; size_t ret = atol(buf) + 1; if (ret < 4) { delete[] buf; buf = nullptr; break; } bool check = ret <= len; len = ret; if (check) { break; } len += len / 8; // allow for some slop } *buffer = buf; *length = len; } static char* find_benchmark_spam(char* cp) { // liblog_benchmarks has been run designed to SPAM. The signature of // a noisiest UID statistics is: // // Chattiest UIDs in main log buffer: Size Pruned // UID PACKAGE BYTES LINES // 0 root 54164 147569 // char* benchmark = nullptr; do { static const char signature[] = "\n0 root "; benchmark = strstr(cp, signature); if (!benchmark) { break; } cp = benchmark + sizeof(signature); while (isspace(*cp)) { ++cp; } benchmark = cp; #ifdef DEBUG char* end = strstr(benchmark, "\n"); if (end == nullptr) { end = benchmark + strlen(benchmark); } fprintf(stderr, "parse for spam counter in \"%.*s\"\n", (int)(end - benchmark), benchmark); #endif // content while (isdigit(*cp)) { ++cp; } while (isspace(*cp)) { ++cp; } // optional +/- field? if ((*cp == '-') || (*cp == '+')) { while (isdigit(*++cp) || (*cp == '.') || (*cp == '%') || (*cp == 'X')) { ; } while (isspace(*cp)) { ++cp; } } // number of entries pruned unsigned long value = 0; while (isdigit(*cp)) { value = value * 10ULL + *cp - '0'; ++cp; } if (value > 10UL) { break; } benchmark = nullptr; } while (*cp); return benchmark; } #endif #ifdef LOGD_ENABLE_FLAKY_TESTS TEST(logd, statistics) { #ifdef __ANDROID__ size_t len; char* buf; // Drop cache so that any access problems can be discovered. if (!android::base::WriteStringToFile("3\n", "/proc/sys/vm/drop_caches")) { GTEST_LOG_(INFO) << "Could not open trigger dropping inode cache"; } alloc_statistics(&buf, &len); ASSERT_TRUE(nullptr != buf); // remove trailing FF char* cp = buf + len - 1; *cp = '\0'; bool truncated = *--cp != '\f'; if (!truncated) { *cp = '\0'; } // squash out the byte count cp = buf; if (!truncated) { while (isdigit(*cp) || (*cp == '\n')) { ++cp; } } fprintf(stderr, "%s", cp); EXPECT_LT((size_t)64, strlen(cp)); EXPECT_EQ(0, truncated); char* main_logs = strstr(cp, "\nChattiest UIDs in main "); EXPECT_TRUE(nullptr != main_logs); char* radio_logs = strstr(cp, "\nChattiest UIDs in radio "); if (!radio_logs) GTEST_LOG_(INFO) << "Value of: nullptr != radio_logs\n" "Actual: false\n" "Expected: false\n"; char* system_logs = strstr(cp, "\nChattiest UIDs in system "); EXPECT_TRUE(nullptr != system_logs); char* events_logs = strstr(cp, "\nChattiest UIDs in events "); EXPECT_TRUE(nullptr != events_logs); // Check if there is any " u0_a#### " as this means packagelistparser broken char* used_getpwuid = nullptr; int used_getpwuid_len; char* uid_name = cp; static const char getpwuid_prefix[] = " u0_a"; while ((uid_name = strstr(uid_name, getpwuid_prefix)) != nullptr) { used_getpwuid = uid_name + 1; uid_name += strlen(getpwuid_prefix); while (isdigit(*uid_name)) ++uid_name; used_getpwuid_len = uid_name - used_getpwuid; if (isspace(*uid_name)) break; used_getpwuid = nullptr; } EXPECT_TRUE(nullptr == used_getpwuid); if (used_getpwuid) { fprintf(stderr, "libpackagelistparser failed to pick up %.*s\n", used_getpwuid_len, used_getpwuid); } delete[] buf; #else GTEST_LOG_(INFO) << "This test does nothing.\n"; #endif } #endif #ifdef __ANDROID__ static void caught_signal(int /* signum */) { } static void dump_log_msg(const char* prefix, log_msg* msg, int lid) { std::cout << std::flush; std::cerr << std::flush; fflush(stdout); fflush(stderr); EXPECT_GE(msg->entry.hdr_size, sizeof(logger_entry)); fprintf(stderr, "%s: [%u] ", prefix, msg->len()); fprintf(stderr, "hdr_size=%u ", msg->entry.hdr_size); fprintf(stderr, "pid=%u tid=%u %u.%09u ", msg->entry.pid, msg->entry.tid, msg->entry.sec, msg->entry.nsec); lid = msg->entry.lid; switch (lid) { case 0: fprintf(stderr, "lid=main "); break; case 1: fprintf(stderr, "lid=radio "); break; case 2: fprintf(stderr, "lid=events "); break; case 3: fprintf(stderr, "lid=system "); break; case 4: fprintf(stderr, "lid=crash "); break; case 5: fprintf(stderr, "lid=security "); break; case 6: fprintf(stderr, "lid=kernel "); break; default: if (lid >= 0) { fprintf(stderr, "lid=%d ", lid); } } unsigned int len = msg->entry.len; fprintf(stderr, "msg[%u]={", len); unsigned char* cp = reinterpret_cast(msg->msg()); if (!cp) { static const unsigned char garbage[] = ""; cp = const_cast(garbage); len = strlen(reinterpret_cast(garbage)); } while (len) { unsigned char* p = cp; while (*p && (((' ' <= *p) && (*p < 0x7F)) || (*p == '\n'))) { ++p; } if (((p - cp) > 3) && !*p && ((unsigned int)(p - cp) < len)) { fprintf(stderr, "\""); while (*cp) { if (*cp != '\n') { fprintf(stderr, "%c", *cp); } else { fprintf(stderr, "\\n"); } ++cp; --len; } fprintf(stderr, "\""); } else { fprintf(stderr, "%02x", *cp); } ++cp; if (--len) { fprintf(stderr, ", "); } } fprintf(stderr, "}\n"); fflush(stderr); } #endif #ifdef __ANDROID__ // BAD ROBOT // Benchmark threshold are generally considered bad form unless there is // is some human love applied to the continued maintenance and whether the // thresholds are tuned on a per-target basis. Here we check if the values // are more than double what is expected. Doubling will not prevent failure // on busy or low-end systems that could have a tendency to stretch values. // // The primary goal of this test is to simulate a spammy app (benchmark // being the worst) and check to make sure the logger can deal with it // appropriately by checking all the statistics are in an expected range. // TEST(logd, benchmark) { size_t len; char* buf; alloc_statistics(&buf, &len); bool benchmark_already_run = buf && find_benchmark_spam(buf); delete[] buf; if (benchmark_already_run) { fprintf(stderr, "WARNING: spam already present and too much history\n" " false OK for prune by worst UID check\n"); } FILE* fp; // Introduce some extreme spam for the worst UID filter ASSERT_TRUE( nullptr != (fp = popen("/data/nativetest/liblog-benchmarks/liblog-benchmarks" " BM_log_maximum_retry" " BM_log_maximum" " BM_clock_overhead" " BM_log_print_overhead" " BM_log_latency" " BM_log_delay", "r"))); char buffer[5120]; static const char* benchmarks[] = { "BM_log_maximum_retry ", "BM_log_maximum ", "BM_clock_overhead ", "BM_log_print_overhead ", "BM_log_latency ", "BM_log_delay " }; static const unsigned int log_maximum_retry = 0; static const unsigned int log_maximum = 1; static const unsigned int clock_overhead = 2; static const unsigned int log_print_overhead = 3; static const unsigned int log_latency = 4; static const unsigned int log_delay = 5; unsigned long ns[arraysize(benchmarks)]; memset(ns, 0, sizeof(ns)); while (fgets(buffer, sizeof(buffer), fp)) { for (unsigned i = 0; i < arraysize(ns); ++i) { char* cp = strstr(buffer, benchmarks[i]); if (!cp) { continue; } sscanf(cp, "%*s %lu %lu", &ns[i], &ns[i]); fprintf(stderr, "%-22s%8lu\n", benchmarks[i], ns[i]); } } int ret = pclose(fp); if (!WIFEXITED(ret) || (WEXITSTATUS(ret) == 127)) { fprintf(stderr, "WARNING: " "/data/nativetest/liblog-benchmarks/liblog-benchmarks missing\n" " can not perform test\n"); return; } EXPECT_GE(200000UL, ns[log_maximum_retry]); // 104734 user EXPECT_NE(0UL, ns[log_maximum_retry]); // failure to parse EXPECT_GE(90000UL, ns[log_maximum]); // 46913 user EXPECT_NE(0UL, ns[log_maximum]); // failure to parse EXPECT_GE(4096UL, ns[clock_overhead]); // 4095 EXPECT_NE(0UL, ns[clock_overhead]); // failure to parse EXPECT_GE(250000UL, ns[log_print_overhead]); // 126886 user EXPECT_NE(0UL, ns[log_print_overhead]); // failure to parse EXPECT_GE(10000000UL, ns[log_latency]); // 1453559 user space (background cgroup) EXPECT_NE(0UL, ns[log_latency]); // failure to parse EXPECT_GE(20000000UL, ns[log_delay]); // 10500289 user EXPECT_NE(0UL, ns[log_delay]); // failure to parse alloc_statistics(&buf, &len); bool collected_statistics = !!buf; EXPECT_EQ(true, collected_statistics); ASSERT_TRUE(nullptr != buf); char* benchmark_statistics_found = find_benchmark_spam(buf); ASSERT_TRUE(benchmark_statistics_found != nullptr); // Check how effective the SPAM filter is, parse out Now size. // 0 root 54164 147569 // ^-- benchmark_statistics_found unsigned long nowSpamSize = atol(benchmark_statistics_found); delete[] buf; ASSERT_NE(0UL, nowSpamSize); // Determine if we have the spam filter enabled int sock = socket_local_client("logd", ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_STREAM); ASSERT_TRUE(sock >= 0); static const char getPruneList[] = "getPruneList"; if (write(sock, getPruneList, sizeof(getPruneList)) > 0) { char buffer[80]; memset(buffer, 0, sizeof(buffer)); read(sock, buffer, sizeof(buffer)); char* cp = strchr(buffer, '\n'); if (!cp || (cp[1] != '~') || (cp[2] != '!')) { close(sock); fprintf(stderr, "WARNING: " "Logger has SPAM filtration turned off \"%s\"\n", buffer); return; } } else { int save_errno = errno; close(sock); FAIL() << "Can not send " << getPruneList << " to logger -- " << strerror(save_errno); } static const unsigned long expected_absolute_minimum_log_size = 65536UL; unsigned long totalSize = expected_absolute_minimum_log_size; static const char getSize[] = { 'g', 'e', 't', 'L', 'o', 'g', 'S', 'i', 'z', 'e', ' ', LOG_ID_MAIN + '0', '\0' }; if (write(sock, getSize, sizeof(getSize)) > 0) { char buffer[80]; memset(buffer, 0, sizeof(buffer)); read(sock, buffer, sizeof(buffer)); totalSize = atol(buffer); if (totalSize < expected_absolute_minimum_log_size) { fprintf(stderr, "WARNING: " "Logger had unexpected referenced size \"%s\"\n", buffer); totalSize = expected_absolute_minimum_log_size; } } close(sock); // logd allows excursions to 110% of total size totalSize = (totalSize * 11) / 10; // 50% threshold for SPAM filter (<20% typical, lots of engineering margin) ASSERT_GT(totalSize, nowSpamSize * 2); } #endif // b/26447386 confirm fixed void timeout_negative(const char* command) { #ifdef __ANDROID__ log_msg msg_wrap, msg_timeout; bool content_wrap = false, content_timeout = false, written = false; unsigned int alarm_wrap = 0, alarm_timeout = 0; // A few tries to get it right just in case wrap kicks in due to // content providers being active during the test. int i = 3; while (--i) { int fd = socket_local_client("logdr", ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_SEQPACKET); ASSERT_LT(0, fd); std::string ask(command); struct sigaction ignore, old_sigaction; memset(&ignore, 0, sizeof(ignore)); ignore.sa_handler = caught_signal; sigemptyset(&ignore.sa_mask); sigaction(SIGALRM, &ignore, &old_sigaction); unsigned int old_alarm = alarm(3); size_t len = ask.length() + 1; written = write(fd, ask.c_str(), len) == (ssize_t)len; if (!written) { alarm(old_alarm); sigaction(SIGALRM, &old_sigaction, nullptr); close(fd); continue; } // alarm triggers at 50% of the --wrap time out content_wrap = recv(fd, msg_wrap.buf, sizeof(msg_wrap), 0) > 0; alarm_wrap = alarm(5); // alarm triggers at 133% of the --wrap time out content_timeout = recv(fd, msg_timeout.buf, sizeof(msg_timeout), 0) > 0; if (!content_timeout) { // make sure we hit dumpAndClose content_timeout = recv(fd, msg_timeout.buf, sizeof(msg_timeout), 0) > 0; } if (old_alarm > 0) { unsigned int time_spent = 3 - alarm_wrap; if (old_alarm > time_spent + 1) { old_alarm -= time_spent; } else { old_alarm = 2; } } alarm_timeout = alarm(old_alarm); sigaction(SIGALRM, &old_sigaction, nullptr); close(fd); if (content_wrap && alarm_wrap && content_timeout && alarm_timeout) { break; } } if (content_wrap) { dump_log_msg("wrap", &msg_wrap, -1); } if (content_timeout) { dump_log_msg("timeout", &msg_timeout, -1); } EXPECT_TRUE(written); EXPECT_TRUE(content_wrap); EXPECT_NE(0U, alarm_wrap); EXPECT_TRUE(content_timeout); EXPECT_NE(0U, alarm_timeout); #else command = nullptr; GTEST_LOG_(INFO) << "This test does nothing.\n"; #endif } TEST(logd, timeout_no_start) { timeout_negative("dumpAndClose lids=0,1,2,3,4,5 timeout=6"); } TEST(logd, timeout_start_epoch) { timeout_negative( "dumpAndClose lids=0,1,2,3,4,5 timeout=6 start=0.000000000"); } #ifdef ENABLE_FLAKY_TESTS // b/26447386 refined behavior TEST(logd, timeout) { #ifdef __ANDROID__ // b/33962045 This test interferes with other log reader tests that // follow because of file descriptor socket persistence in the same // process. So let's fork it to isolate it from giving us pain. pid_t pid = fork(); if (pid) { siginfo_t info = {}; ASSERT_EQ(0, TEMP_FAILURE_RETRY(waitid(P_PID, pid, &info, WEXITED))); ASSERT_EQ(0, info.si_status); return; } log_msg msg_wrap, msg_timeout; bool content_wrap = false, content_timeout = false, written = false; unsigned int alarm_wrap = 0, alarm_timeout = 0; // A few tries to get it right just in case wrap kicks in due to // content providers being active during the test. int i = 5; log_time start(CLOCK_REALTIME); start.tv_sec -= 30; // reach back a moderate period of time while (--i) { int fd = socket_local_client("logdr", ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_SEQPACKET); int save_errno = errno; if (fd < 0) { fprintf(stderr, "failed to open /dev/socket/logdr %s\n", strerror(save_errno)); _exit(fd); } std::string ask = android::base::StringPrintf( "dumpAndClose lids=0,1,2,3,4,5 timeout=6 start=%" PRIu32 ".%09" PRIu32, start.tv_sec, start.tv_nsec); struct sigaction ignore, old_sigaction; memset(&ignore, 0, sizeof(ignore)); ignore.sa_handler = caught_signal; sigemptyset(&ignore.sa_mask); sigaction(SIGALRM, &ignore, &old_sigaction); unsigned int old_alarm = alarm(3); size_t len = ask.length() + 1; written = write(fd, ask.c_str(), len) == (ssize_t)len; if (!written) { alarm(old_alarm); sigaction(SIGALRM, &old_sigaction, nullptr); close(fd); continue; } // alarm triggers at 50% of the --wrap time out content_wrap = recv(fd, msg_wrap.buf, sizeof(msg_wrap), 0) > 0; alarm_wrap = alarm(5); // alarm triggers at 133% of the --wrap time out content_timeout = recv(fd, msg_timeout.buf, sizeof(msg_timeout), 0) > 0; if (!content_timeout) { // make sure we hit dumpAndClose content_timeout = recv(fd, msg_timeout.buf, sizeof(msg_timeout), 0) > 0; } if (old_alarm > 0) { unsigned int time_spent = 3 - alarm_wrap; if (old_alarm > time_spent + 1) { old_alarm -= time_spent; } else { old_alarm = 2; } } alarm_timeout = alarm(old_alarm); sigaction(SIGALRM, &old_sigaction, nullptr); close(fd); if (!content_wrap && !alarm_wrap && content_timeout && alarm_timeout) { break; } // modify start time in case content providers are relatively // active _or_ inactive during the test. if (content_timeout) { log_time msg(msg_timeout.entry.sec, msg_timeout.entry.nsec); if (msg < start) { fprintf(stderr, "%u.%09u < %u.%09u\n", msg_timeout.entry.sec, msg_timeout.entry.nsec, (unsigned)start.tv_sec, (unsigned)start.tv_nsec); _exit(-1); } if (msg > start) { start = msg; start.tv_sec += 30; log_time now = log_time(CLOCK_REALTIME); if (start > now) { start = now; --start.tv_sec; } } } else { start.tv_sec -= 120; // inactive, reach further back! } } if (content_wrap) { dump_log_msg("wrap", &msg_wrap, -1); } if (content_timeout) { dump_log_msg("timeout", &msg_timeout, -1); } if (content_wrap || !content_timeout) { fprintf(stderr, "start=%" PRIu32 ".%09" PRIu32 "\n", start.tv_sec, start.tv_nsec); } EXPECT_TRUE(written); EXPECT_FALSE(content_wrap); EXPECT_EQ(0U, alarm_wrap); EXPECT_TRUE(content_timeout); EXPECT_NE(0U, alarm_timeout); _exit(!written + content_wrap + alarm_wrap + !content_timeout + !alarm_timeout); #else GTEST_LOG_(INFO) << "This test does nothing.\n"; #endif } #endif #ifdef LOGD_ENABLE_FLAKY_TESTS // b/27242723 confirmed fixed TEST(logd, SNDTIMEO) { #ifdef __ANDROID__ static const unsigned sndtimeo = LOGD_SNDTIMEO; // it has to be done! static const unsigned sleep_time = sndtimeo + 3; static const unsigned alarm_time = sleep_time + 5; int fd; ASSERT_TRUE( (fd = socket_local_client("logdr", ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_SEQPACKET)) > 0); struct sigaction ignore, old_sigaction; memset(&ignore, 0, sizeof(ignore)); ignore.sa_handler = caught_signal; sigemptyset(&ignore.sa_mask); sigaction(SIGALRM, &ignore, &old_sigaction); unsigned int old_alarm = alarm(alarm_time); static const char ask[] = "stream lids=0,1,2,3,4,5,6"; // all sources bool reader_requested = write(fd, ask, sizeof(ask)) == sizeof(ask); EXPECT_TRUE(reader_requested); log_msg msg; bool read_one = recv(fd, msg.buf, sizeof(msg), 0) > 0; EXPECT_TRUE(read_one); if (read_one) { dump_log_msg("user", &msg, -1); } fprintf(stderr, "Sleep for >%d seconds logd SO_SNDTIMEO ...\n", sndtimeo); sleep(sleep_time); // flush will block if we did not trigger. if it did, last entry returns 0 int recv_ret; do { recv_ret = recv(fd, msg.buf, sizeof(msg), 0); } while (recv_ret > 0); int save_errno = (recv_ret < 0) ? errno : 0; EXPECT_NE(0U, alarm(old_alarm)); sigaction(SIGALRM, &old_sigaction, nullptr); EXPECT_EQ(0, recv_ret); if (recv_ret > 0) { dump_log_msg("user", &msg, -1); } EXPECT_EQ(0, save_errno); close(fd); #else GTEST_LOG_(INFO) << "This test does nothing.\n"; #endif } #endif TEST(logd, getEventTag_list) { #ifdef __ANDROID__ char buffer[256]; memset(buffer, 0, sizeof(buffer)); snprintf(buffer, sizeof(buffer), "getEventTag name=*"); send_to_control(buffer, sizeof(buffer)); buffer[sizeof(buffer) - 1] = '\0'; char* cp; long ret = strtol(buffer, &cp, 10); EXPECT_GT(ret, 4096); #else GTEST_LOG_(INFO) << "This test does nothing.\n"; #endif } TEST(logd, getEventTag_42) { #ifdef __ANDROID__ char buffer[256]; memset(buffer, 0, sizeof(buffer)); snprintf(buffer, sizeof(buffer), "getEventTag id=42"); send_to_control(buffer, sizeof(buffer)); buffer[sizeof(buffer) - 1] = '\0'; char* cp; long ret = strtol(buffer, &cp, 10); EXPECT_GT(ret, 16); EXPECT_TRUE(strstr(buffer, "\t(to life the universe etc|3)") != nullptr); EXPECT_TRUE(strstr(buffer, "answer") != nullptr); #else GTEST_LOG_(INFO) << "This test does nothing.\n"; #endif } TEST(logd, getEventTag_newentry) { #ifdef __ANDROID__ char buffer[256]; memset(buffer, 0, sizeof(buffer)); log_time now(CLOCK_MONOTONIC); char name[64]; snprintf(name, sizeof(name), "a%" PRIu64, now.nsec()); snprintf(buffer, sizeof(buffer), "getEventTag name=%s format=\"(new|1)\"", name); send_to_control(buffer, sizeof(buffer)); buffer[sizeof(buffer) - 1] = '\0'; char* cp; long ret = strtol(buffer, &cp, 10); EXPECT_GT(ret, 16); EXPECT_TRUE(strstr(buffer, "\t(new|1)") != nullptr); EXPECT_TRUE(strstr(buffer, name) != nullptr); // ToDo: also look for this in /data/misc/logd/event-log-tags and // /dev/event-log-tags. #else GTEST_LOG_(INFO) << "This test does nothing.\n"; #endif } TEST(logd, no_epipe) { #ifdef __ANDROID__ // Actually generating SIGPIPE in logd is racy, since we need to close the socket quicker than // logd finishes writing the data to it, so we try 5 times, which should be enough to trigger // SIGPIPE if logd isn't ignoring SIGPIPE for (int i = 0; i < 5; ++i) { unique_fd sock1( socket_local_client("logd", ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_STREAM)); ASSERT_GT(sock1, 0); unique_fd sock2( socket_local_client("logd", ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_STREAM)); ASSERT_GT(sock2, 0); std::string message = "getStatistics 0 1 2 3 4 5 6 7"; ASSERT_GT(write(sock1, message.c_str(), message.length() + 1), 0); sock1.reset(); ASSERT_GT(write(sock2, message.c_str(), message.length() + 1), 0); struct pollfd p = {.fd = sock2, .events = POLLIN, .revents = 0}; int ret = poll(&p, 1, 1000); EXPECT_EQ(ret, 1); EXPECT_TRUE(p.revents & POLLIN); EXPECT_FALSE(p.revents & POLL_ERR); } #else GTEST_LOG_(INFO) << "This test does nothing.\n"; #endif } // Only AID_ROOT, AID_SYSTEM, and AID_LOG can set log sizes. Ensure that a different user, AID_BIN, // cannot set the log size. TEST(logd, logging_permissions) { #ifdef __ANDROID__ if (getuid() != 0) { GTEST_SKIP() << "This test requires root"; } auto child_main = [] { setgroups(0, nullptr); setgid(AID_BIN); setuid(AID_BIN); std::unique_ptr logger_list{ android_logger_list_alloc(0, 0, 0), &android_logger_list_free}; if (!logger_list) { _exit(1); } auto logger = android_logger_open(logger_list.get(), LOG_ID_MAIN); if (!logger) { _exit(2); } // This line should fail, so if it returns 0, we exit with an error. if (android_logger_set_log_size(logger, 2 * 1024 * 1024) == 0) { _exit(3); } _exit(EXIT_SUCCESS); }; ASSERT_EXIT(child_main(), testing::ExitedWithCode(0), ""); #else GTEST_LOG_(INFO) << "This test does nothing.\n"; #endif }