// Foreground waits for exit of the main persistent threads // that are started here. The threads are created to manage // UNIX domain client sockets for writing, reading and // controlling the user space logger, and for any additional // logging plugins like auditd and restart control. Additional // transitory per-client threads are created for each reader. int main(int argc, char* argv[]) { // logd is written under the assumption that the timezone is UTC. // If TZ is not set, persist.sys.timezone is looked up in some time utility // libc functions, including mktime. It confuses the logd time handling, // so here explicitly set TZ to UTC, which overrides the property. setenv("TZ", "UTC", 1); // issue reinit command. KISS argument parsing. if ((argc > 1) && argv[1] && !strcmp(argv[1], "--reinit")) { return issueReinit(); } static const char dev_kmsg[] = "/dev/kmsg"; fdDmesg = android_get_control_file(dev_kmsg); if (fdDmesg < 0) { fdDmesg = TEMP_FAILURE_RETRY(open(dev_kmsg, O_WRONLY | O_CLOEXEC)); } int fdPmesg = -1; bool klogd = __android_logger_property_get_bool( "logd.kernel", BOOL_DEFAULT_TRUE | BOOL_DEFAULT_FLAG_PERSIST | BOOL_DEFAULT_FLAG_ENG | BOOL_DEFAULT_FLAG_SVELTE); if (klogd) { static const char proc_kmsg[] = "/proc/kmsg"; fdPmesg = android_get_control_file(proc_kmsg); if (fdPmesg < 0) { fdPmesg = TEMP_FAILURE_RETRY( open(proc_kmsg, O_RDONLY | O_NDELAY | O_CLOEXEC)); } if (fdPmesg < 0) android::prdebug("Failed to open %s\n", proc_kmsg); } // Reinit Thread sem_init(&reinit, 0, 0); sem_init(&uidName, 0, 0); sem_init(&sem_name, 0, 1); pthread_attr_t attr; if (!pthread_attr_init(&attr)) { struct sched_param param; memset(¶m, 0, sizeof(param)); pthread_attr_setschedparam(&attr, ¶m); pthread_attr_setschedpolicy(&attr, SCHED_BATCH); if (!pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED)) { pthread_t thread; reinit_running = true; if (pthread_create(&thread, &attr, reinit_thread_start, nullptr)) { reinit_running = false; } } pthread_attr_destroy(&attr); } bool auditd = __android_logger_property_get_bool("ro.logd.auditd", BOOL_DEFAULT_TRUE); if (drop_privs(klogd, auditd) != 0) { return -1; } // Serves the purpose of managing the last logs times read on a // socket connection, and as a reader lock on a range of log // entries. LastLogTimes* times = new LastLogTimes(); // LogBuffer is the object which is responsible for holding all // log entries. logBuf = new LogBuffer(times); signal(SIGHUP, reinit_signal_handler); if (__android_logger_property_get_bool( "logd.statistics", BOOL_DEFAULT_TRUE | BOOL_DEFAULT_FLAG_PERSIST | BOOL_DEFAULT_FLAG_ENG | BOOL_DEFAULT_FLAG_SVELTE)) { logBuf->enableStatistics(); } // LogReader listens on /dev/socket/logdr. When a client // connects, log entries in the LogBuffer are written to the client. LogReader* reader = new LogReader(logBuf); if (reader->startListener()) { exit(1); } // LogListener listens on /dev/socket/logdw for client // initiated log messages. New log entries are added to LogBuffer // and LogReader is notified to send updates to connected clients. LogListener* swl = new LogListener(logBuf, reader); // Backlog and /proc/sys/net/unix/max_dgram_qlen set to large value if (swl->startListener(600)) { exit(1); } // Command listener listens on /dev/socket/logd for incoming logd // administrative commands. CommandListener* cl = new CommandListener(logBuf, reader, swl); if (cl->startListener()) { exit(1); } // LogAudit listens on NETLINK_AUDIT socket for selinux // initiated log messages. New log entries are added to LogBuffer // and LogReader is notified to send updates to connected clients. LogAudit* al = nullptr; if (auditd) { al = new LogAudit(logBuf, reader, __android_logger_property_get_bool( "ro.logd.auditd.dmesg", BOOL_DEFAULT_TRUE) ? fdDmesg : -1); } LogKlog* kl = nullptr; if (klogd) { kl = new LogKlog(logBuf, reader, fdDmesg, fdPmesg, al != nullptr); } readDmesg(al, kl); // failure is an option ... messages are in dmesg (required by standard) if (kl && kl->startListener()) { delete kl; } if (al && al->startListener()) { delete al; } TEMP_FAILURE_RETRY(pause()); exit(0); }
// Foreground waits for exit of the main persistent threads // that are started here. The threads are created to manage // UNIX domain client sockets for writing, reading and // controlling the user space logger, and for any additional // logging plugins like auditd and restart control. Additional // transitory per-client threads are created for each reader. int main(int argc, char *argv[]) { fdDmesg = open("/dev/kmsg", O_WRONLY); // issue reinit command. KISS argument parsing. if ((argc > 1) && argv[1] && !strcmp(argv[1], "--reinit")) { int sock = TEMP_FAILURE_RETRY( socket_local_client("logd", ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_STREAM)); if (sock < 0) { return -errno; } static const char reinit[] = "reinit"; ssize_t ret = TEMP_FAILURE_RETRY(write(sock, reinit, sizeof(reinit))); if (ret < 0) { return -errno; } struct pollfd p; memset(&p, 0, sizeof(p)); p.fd = sock; p.events = POLLIN; ret = TEMP_FAILURE_RETRY(poll(&p, 1, 100)); if (ret < 0) { return -errno; } if ((ret == 0) || !(p.revents & POLLIN)) { return -ETIME; } static const char success[] = "success"; char buffer[sizeof(success) - 1]; memset(buffer, 0, sizeof(buffer)); ret = TEMP_FAILURE_RETRY(read(sock, buffer, sizeof(buffer))); if (ret < 0) { return -errno; } return strncmp(buffer, success, sizeof(success) - 1) != 0; } // Reinit Thread sem_init(&reinit, 0, 0); sem_init(&uidName, 0, 0); pthread_attr_t attr; if (!pthread_attr_init(&attr)) { struct sched_param param; memset(¶m, 0, sizeof(param)); pthread_attr_setschedparam(&attr, ¶m); pthread_attr_setschedpolicy(&attr, SCHED_BATCH); if (!pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED)) { pthread_t thread; reinit_running = true; if (pthread_create(&thread, &attr, reinit_thread_start, NULL)) { reinit_running = false; } } pthread_attr_destroy(&attr); } if (drop_privs() != 0) { return -1; } // Serves the purpose of managing the last logs times read on a // socket connection, and as a reader lock on a range of log // entries. LastLogTimes *times = new LastLogTimes(); // LogBuffer is the object which is responsible for holding all // log entries. logBuf = new LogBuffer(times); signal(SIGHUP, reinit_signal_handler); { char property[PROPERTY_VALUE_MAX]; property_get("ro.build.type", property, ""); if (property_get_bool("logd.statistics", !!strcmp(property, "user") && !property_get_bool("ro.config.low_ram", false))) { logBuf->enableStatistics(); } } // LogReader listens on /dev/socket/logdr. When a client // connects, log entries in the LogBuffer are written to the client. LogReader *reader = new LogReader(logBuf); if (reader->startListener()) { exit(1); } // LogListener listens on /dev/socket/logdw for client // initiated log messages. New log entries are added to LogBuffer // and LogReader is notified to send updates to connected clients. LogListener *swl = new LogListener(logBuf, reader); // Backlog and /proc/sys/net/unix/max_dgram_qlen set to large value if (swl->startListener(300)) { exit(1); } // Command listener listens on /dev/socket/logd for incoming logd // administrative commands. CommandListener *cl = new CommandListener(logBuf, reader, swl); if (cl->startListener()) { exit(1); } // LogAudit listens on NETLINK_AUDIT socket for selinux // initiated log messages. New log entries are added to LogBuffer // and LogReader is notified to send updates to connected clients. bool auditd = property_get_bool("logd.auditd", true); if (auditd) { bool dmesg = property_get_bool("logd.auditd.dmesg", true); // failure is an option ... messages are in dmesg (required by standard) LogAudit *al = new LogAudit(logBuf, reader, dmesg ? fdDmesg : -1); int len = klogctl(KLOG_SIZE_BUFFER, NULL, 0); if (len > 0) { len++; char buf[len]; int rc = klogctl(KLOG_READ_ALL, buf, len); if (rc >= 0) { buf[len - 1] = '\0'; for (char *ptr, *tok = buf; (tok = strtok_r(tok, "\r\n", &ptr)); tok = NULL) { al->log(tok); } } } if (al->startListener()) { delete al; } } TEMP_FAILURE_RETRY(pause()); exit(0); }
// Foreground waits for exit of the main persistent threads // that are started here. The threads are created to manage // UNIX domain client sockets for writing, reading and // controlling the user space logger, and for any additional // logging plugins like auditd and restart control. Additional // transitory per-client threads are created for each reader. int main(int argc, char *argv[]) { int fdPmesg = -1; bool klogd = property_get_bool("logd.kernel", BOOL_DEFAULT_TRUE | BOOL_DEFAULT_FLAG_PERSIST | BOOL_DEFAULT_FLAG_ENG | BOOL_DEFAULT_FLAG_SVELTE); if (klogd) { fdPmesg = open("/proc/kmsg", O_RDONLY | O_NDELAY); } fdDmesg = open("/dev/kmsg", O_WRONLY); // issue reinit command. KISS argument parsing. if ((argc > 1) && argv[1] && !strcmp(argv[1], "--reinit")) { int sock = TEMP_FAILURE_RETRY( socket_local_client("logd", ANDROID_SOCKET_NAMESPACE_RESERVED, SOCK_STREAM)); if (sock < 0) { return -errno; } static const char reinit[] = "reinit"; ssize_t ret = TEMP_FAILURE_RETRY(write(sock, reinit, sizeof(reinit))); if (ret < 0) { return -errno; } struct pollfd p; memset(&p, 0, sizeof(p)); p.fd = sock; p.events = POLLIN; ret = TEMP_FAILURE_RETRY(poll(&p, 1, 1000)); if (ret < 0) { return -errno; } if ((ret == 0) || !(p.revents & POLLIN)) { return -ETIME; } static const char success[] = "success"; char buffer[sizeof(success) - 1]; memset(buffer, 0, sizeof(buffer)); ret = TEMP_FAILURE_RETRY(read(sock, buffer, sizeof(buffer))); if (ret < 0) { return -errno; } return strncmp(buffer, success, sizeof(success) - 1) != 0; } // Reinit Thread sem_init(&reinit, 0, 0); sem_init(&uidName, 0, 0); sem_init(&sem_name, 0, 1); pthread_attr_t attr; if (!pthread_attr_init(&attr)) { struct sched_param param; memset(¶m, 0, sizeof(param)); pthread_attr_setschedparam(&attr, ¶m); pthread_attr_setschedpolicy(&attr, SCHED_BATCH); if (!pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED)) { pthread_t thread; reinit_running = true; if (pthread_create(&thread, &attr, reinit_thread_start, NULL)) { reinit_running = false; } } pthread_attr_destroy(&attr); } if (drop_privs() != 0) { return -1; } // Serves the purpose of managing the last logs times read on a // socket connection, and as a reader lock on a range of log // entries. LastLogTimes *times = new LastLogTimes(); // LogBuffer is the object which is responsible for holding all // log entries. logBuf = new LogBuffer(times); signal(SIGHUP, reinit_signal_handler); if (property_get_bool("logd.statistics", BOOL_DEFAULT_TRUE | BOOL_DEFAULT_FLAG_PERSIST | BOOL_DEFAULT_FLAG_ENG | BOOL_DEFAULT_FLAG_SVELTE)) { logBuf->enableStatistics(); } // LogReader listens on /dev/socket/logdr. When a client // connects, log entries in the LogBuffer are written to the client. LogReader *reader = new LogReader(logBuf); if (reader->startListener()) { exit(1); } // LogListener listens on /dev/socket/logdw for client // initiated log messages. New log entries are added to LogBuffer // and LogReader is notified to send updates to connected clients. LogListener *swl = new LogListener(logBuf, reader); // Backlog and /proc/sys/net/unix/max_dgram_qlen set to large value if (swl->startListener(600)) { exit(1); } // Command listener listens on /dev/socket/logd for incoming logd // administrative commands. CommandListener *cl = new CommandListener(logBuf, reader, swl); if (cl->startListener()) { exit(1); } // LogAudit listens on NETLINK_AUDIT socket for selinux // initiated log messages. New log entries are added to LogBuffer // and LogReader is notified to send updates to connected clients. bool auditd = property_get_bool("logd.auditd", BOOL_DEFAULT_TRUE | BOOL_DEFAULT_FLAG_PERSIST); LogAudit *al = NULL; if (auditd) { al = new LogAudit(logBuf, reader, property_get_bool("logd.auditd.dmesg", BOOL_DEFAULT_TRUE | BOOL_DEFAULT_FLAG_PERSIST) ? fdDmesg : -1); } LogKlog *kl = NULL; if (klogd) { kl = new LogKlog(logBuf, reader, fdDmesg, fdPmesg, al != NULL); } readDmesg(al, kl); // failure is an option ... messages are in dmesg (required by standard) if (kl && kl->startListener()) { delete kl; } if (al && al->startListener()) { delete al; } TEMP_FAILURE_RETRY(pause()); exit(0); }
// Foreground waits for exit of the three main persistent threads that // are started here. The three threads are created to manage UNIX // domain client sockets for writing, reading and controlling the user // space logger. Additional transitory per-client threads are created // for each reader once they register. int main() { int fdDmesg = -1; char dmesg[PROPERTY_VALUE_MAX]; property_get("logd.auditd.dmesg", dmesg, "1"); if (atol(dmesg)) { fdDmesg = open("/dev/kmsg", O_WRONLY); } if (drop_privs() != 0) { return -1; } // Serves the purpose of managing the last logs times read on a // socket connection, and as a reader lock on a range of log // entries. LastLogTimes *times = new LastLogTimes(); // LogBuffer is the object which is responsible for holding all // log entries. LogBuffer *logBuf = new LogBuffer(times); char dgram_qlen_statistics[PROPERTY_VALUE_MAX]; property_get("logd.dgram_qlen.statistics", dgram_qlen_statistics, ""); if (atol(dgram_qlen_statistics)) { logBuf->enableDgramQlenStatistics(); } // LogReader listens on /dev/socket/logdr. When a client // connects, log entries in the LogBuffer are written to the client. LogReader *reader = new LogReader(logBuf); if (reader->startListener()) { exit(1); } // LogListener listens on /dev/socket/logdw for client // initiated log messages. New log entries are added to LogBuffer // and LogReader is notified to send updates to connected clients. LogListener *swl = new LogListener(logBuf, reader); // Backlog and /proc/sys/net/unix/max_dgram_qlen set to large value if (swl->startListener(300)) { exit(1); } // Command listener listens on /dev/socket/logd for incoming logd // administrative commands. CommandListener *cl = new CommandListener(logBuf, reader, swl); if (cl->startListener()) { exit(1); } // LogAudit listens on NETLINK_AUDIT socket for selinux // initiated log messages. New log entries are added to LogBuffer // and LogReader is notified to send updates to connected clients. // failure is an option ... messages are in dmesg (required by standard) LogAudit *al = new LogAudit(logBuf, reader, fdDmesg); if (al->startListener()) { delete al; close(fdDmesg); } pause(); exit(0); }