/* * 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 "cutils/sockets.h" #include "log/log.h" #include "log/logger.h" #define __unused __attribute__((__unused__)) /* * returns statistics */ static void my_android_logger_get_statistics(char *buf, size_t len) { snprintf(buf, len, "getStatistics 0 1 2 3 4"); 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) { 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); } } 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 = NULL; 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 one of the following: // // main: UID/PID Total size/num Now UID/PID[?] Total // 0 7500306/304207 71608/3183 0/4225? 7454388/303656 // 93432/1012 // -or- // 0/gone 7454388/303656 93432/1012 // // basically if we see a *large* number of 0/????? entries unsigned long value; do { char *benchmark = strstr(cp, " 0/"); char *benchmark_newline = strstr(cp, "\n0/"); if (!benchmark) { benchmark = benchmark_newline; } if (benchmark_newline && (benchmark > benchmark_newline)) { benchmark = benchmark_newline; } cp = benchmark; if (!cp) { break; } cp += 3; while (isdigit(*cp) || (*cp == 'g') || (*cp == 'o') || (*cp == 'n')) { ++cp; } value = 0; // ###? or gone if ((*cp == '?') || (*cp == 'e')) { while (*++cp == ' '); while (isdigit(*cp)) { value = value * 10ULL + *cp - '0'; ++cp; } if (*cp != '/') { value = 0; continue; } while (isdigit(*++cp)); while (*cp == ' ') ++cp; if (!isdigit(*cp)) { value = 0; } } } while ((value < 900000ULL) && *cp); return cp; } TEST(logd, statistics) { size_t len; char *buf; alloc_statistics(&buf, &len); #ifdef TARGET_USES_LOGD ASSERT_TRUE(NULL != buf); #else if (!buf) { return; } #endif // 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); #ifdef TARGET_USES_LOGD char *main_logs = strstr(cp, "\nmain:"); EXPECT_TRUE(NULL != main_logs); char *radio_logs = strstr(cp, "\nradio:"); EXPECT_TRUE(NULL != radio_logs); char *system_logs = strstr(cp, "\nsystem:"); EXPECT_TRUE(NULL != system_logs); char *events_logs = strstr(cp, "\nevents:"); EXPECT_TRUE(NULL != events_logs); #endif // Parse timing stats cp = strstr(cp, "Minimum time between log events per dgram_qlen:"); if (cp) { while (*cp && (*cp != '\n')) { ++cp; } if (*cp == '\n') { ++cp; } char *list_of_spans = cp; EXPECT_NE('\0', *list_of_spans); unsigned short number_of_buckets = 0; unsigned short *dgram_qlen = NULL; unsigned short bucket = 0; while (*cp && (*cp != '\n')) { bucket = 0; while (isdigit(*cp)) { bucket = bucket * 10 + *cp - '0'; ++cp; } while (*cp == ' ') { ++cp; } if (!bucket) { break; } unsigned short *new_dgram_qlen = new unsigned short[number_of_buckets + 1]; EXPECT_TRUE(new_dgram_qlen != NULL); if (dgram_qlen) { memcpy(new_dgram_qlen, dgram_qlen, sizeof(*dgram_qlen) * number_of_buckets); delete [] dgram_qlen; } dgram_qlen = new_dgram_qlen; dgram_qlen[number_of_buckets++] = bucket; } char *end_of_spans = cp; EXPECT_NE('\0', *end_of_spans); EXPECT_LT(5, number_of_buckets); unsigned long long *times = new unsigned long long [number_of_buckets]; ASSERT_TRUE(times != NULL); memset(times, 0, sizeof(*times) * number_of_buckets); while (*cp == '\n') { ++cp; } unsigned short number_of_values = 0; unsigned long long value; while (*cp && (*cp != '\n')) { EXPECT_GE(number_of_buckets, number_of_values); value = 0; while (isdigit(*cp)) { value = value * 10ULL + *cp - '0'; ++cp; } switch(*cp) { case ' ': case '\n': value *= 1000ULL; /* FALLTHRU */ case 'm': value *= 1000ULL; /* FALLTHRU */ case 'u': value *= 1000ULL; /* FALLTHRU */ case 'n': default: break; } while (*++cp == ' '); if (!value) { break; } times[number_of_values] = value; ++number_of_values; } #ifdef TARGET_USES_LOGD EXPECT_EQ(number_of_values, number_of_buckets); #endif FILE *fp; ASSERT_TRUE(NULL != (fp = fopen("/proc/sys/net/unix/max_dgram_qlen", "r"))); unsigned max_dgram_qlen = 0; fscanf(fp, "%u", &max_dgram_qlen); fclose(fp); // Find launch point unsigned short launch = 0; unsigned long long total = 0; do { total += times[launch]; } while (((++launch < number_of_buckets) && ((total / launch) >= (times[launch] / 8ULL))) || (launch == 1)); // too soon bool failure = number_of_buckets <= launch; if (!failure) { unsigned short l = launch; if (l >= number_of_buckets) { l = number_of_buckets - 1; } failure = max_dgram_qlen < dgram_qlen[l]; } // We can get failure if at any time liblog_benchmarks has been run // because designed to overload /proc/sys/net/unix/max_dgram_qlen even // at excessive values like 20000. It does so to measure the raw processing // performance of logd. if (failure) { cp = find_benchmark_spam(cp); } if (cp) { // Fake a failure, but without the failure code if (number_of_buckets <= launch) { printf ("Expected: number_of_buckets > launch, actual: %u vs %u\n", number_of_buckets, launch); } if (launch >= number_of_buckets) { launch = number_of_buckets - 1; } if (max_dgram_qlen < dgram_qlen[launch]) { printf ("Expected: max_dgram_qlen >= dgram_qlen[%d]," " actual: %u vs %u\n", launch, max_dgram_qlen, dgram_qlen[launch]); } } else #ifndef TARGET_USES_LOGD if (total) #endif { EXPECT_GT(number_of_buckets, launch); if (launch >= number_of_buckets) { launch = number_of_buckets - 1; } EXPECT_GE(max_dgram_qlen, dgram_qlen[launch]); } delete [] dgram_qlen; delete [] times; } delete [] buf; } static void caught_signal(int signum __unused) { } static void dump_log_msg(const char *prefix, log_msg *msg, unsigned int version, int lid) { switch(msg->entry.hdr_size) { case 0: version = 1; break; case sizeof(msg->entry_v2): if (version == 0) { version = 2; } break; } fprintf(stderr, "%s: v%u[%u] ", prefix, version, msg->len()); if (version != 1) { 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); switch(version) { case 1: break; case 2: fprintf(stderr, "euid=%u ", msg->entry_v2.euid); break; case 3: default: lid = msg->entry.lid; break; } 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; 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()); 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) { fprintf(stderr, (*cp != '\n') ? "%c" : "\\n", *cp); ++cp; --len; } fprintf(stderr, "\""); } else { fprintf(stderr, "%02x", *cp); } ++cp; if (--len) { fprintf(stderr, ", "); } } fprintf(stderr, "}\n"); } TEST(logd, both) { log_msg msg; // check if we can read any logs from logd bool user_logger_available = false; bool user_logger_content = false; int fd = socket_local_client("logdr", ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_SEQPACKET); if (fd >= 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(10); static const char ask[] = "dumpAndClose lids=0,1,2,3"; user_logger_available = write(fd, ask, sizeof(ask)) == sizeof(ask); user_logger_content = recv(fd, msg.buf, sizeof(msg), 0) > 0; if (user_logger_content) { dump_log_msg("user", &msg, 3, -1); } alarm(old_alarm); sigaction(SIGALRM, &old_sigaction, NULL); close(fd); } // check if we can read any logs from kernel logger bool kernel_logger_available = false; bool kernel_logger_content = false; static const char *loggers[] = { "/dev/log/main", "/dev/log_main", "/dev/log/radio", "/dev/log_radio", "/dev/log/events", "/dev/log_events", "/dev/log/system", "/dev/log_system", }; for (unsigned int i = 0; i < (sizeof(loggers) / sizeof(loggers[0])); ++i) { fd = open(loggers[i], O_RDONLY); if (fd < 0) { continue; } kernel_logger_available = true; fcntl(fd, F_SETFL, O_RDONLY | O_NONBLOCK); int result = TEMP_FAILURE_RETRY(read(fd, msg.buf, sizeof(msg))); if (result > 0) { kernel_logger_content = true; dump_log_msg("kernel", &msg, 0, i / 2); } close(fd); } static const char yes[] = "\xE2\x9C\x93"; static const char no[] = "\xE2\x9c\x98"; fprintf(stderr, "LOGGER Available Content\n" "user %-13s%s\n" "kernel %-13s%s\n" " status %-11s%s\n", (user_logger_available) ? yes : no, (user_logger_content) ? yes : no, (kernel_logger_available) ? yes : no, (kernel_logger_content) ? yes : no, (user_logger_available && kernel_logger_available) ? "WARNING" : "ok", (user_logger_content && kernel_logger_content) ? "ERROR" : "ok"); if (user_logger_available && kernel_logger_available) { printf("WARNING: kernel & user logger; both consuming resources!!!\n"); } EXPECT_EQ(0, user_logger_content && kernel_logger_content); EXPECT_EQ(0, !user_logger_content && !kernel_logger_content); } // 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(NULL != (fp = popen( "/data/nativetest/liblog-benchmarks/liblog-benchmarks", "r"))); char buffer[5120]; static const char *benchmarks[] = { "BM_log_maximum_retry ", "BM_log_maximum ", "BM_clock_overhead ", "BM_log_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_overhead = 3; static const unsigned int log_latency = 4; static const unsigned int log_delay = 5; unsigned long ns[sizeof(benchmarks) / sizeof(benchmarks[0])]; memset(ns, 0, sizeof(ns)); while (fgets(buffer, sizeof(buffer), fp)) { for (unsigned i = 0; i < sizeof(ns) / sizeof(ns[0]); ++i) { if (strncmp(benchmarks[i], buffer, strlen(benchmarks[i]))) { continue; } sscanf(buffer, "%*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; } #ifdef TARGET_USES_LOGD EXPECT_GE(100000UL, ns[log_maximum_retry]); // 42777 user #else EXPECT_GE(10000UL, ns[log_maximum_retry]); // 5636 kernel #endif #ifdef TARGET_USES_LOGD EXPECT_GE(25000UL, ns[log_maximum]); // 14055 user #else EXPECT_GE(10000UL, ns[log_maximum]); // 5637 kernel #endif EXPECT_GE(4000UL, ns[clock_overhead]); // 2008 #ifdef TARGET_USES_LOGD EXPECT_GE(250000UL, ns[log_overhead]); // 113219 user #else EXPECT_GE(100000UL, ns[log_overhead]); // 50945 kernel #endif #ifdef TARGET_USES_LOGD EXPECT_GE(7500UL, ns[log_latency]); // 3718 user space #else EXPECT_GE(500000UL, ns[log_latency]); // 254200 kernel #endif #ifdef TARGET_USES_LOGD EXPECT_GE(20000000UL, ns[log_delay]); // 9542541 user #else EXPECT_GE(55000UL, ns[log_delay]); // 27341 kernel #endif for (unsigned i = 0; i < sizeof(ns) / sizeof(ns[0]); ++i) { EXPECT_NE(0UL, ns[i]); } alloc_statistics(&buf, &len); #ifdef TARGET_USES_LOGD bool collected_statistics = !!buf; EXPECT_EQ(true, collected_statistics); #else if (!buf) { return; } #endif ASSERT_TRUE(NULL != buf); char *benchmark_statistics_found = find_benchmark_spam(buf); ASSERT_TRUE(benchmark_statistics_found != NULL); // Check how effective the SPAM filter is, parse out Now size. // Total Now // 0/4225? 7454388/303656 31488/755 // ^-- benchmark_statistics_found unsigned long nowSize = atol(benchmark_statistics_found); delete [] buf; ASSERT_NE(0UL, nowSize); int sock = socket_local_client("logd", ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_STREAM); static const unsigned long expected_absolute_minimum_log_size = 65536UL; unsigned long totalSize = expected_absolute_minimum_log_size; if (sock >= 0) { 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) { 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, nowSize * 2); }