/* ** Copyright 2013-2014, 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. */ #define _GNU_SOURCE /* asprintf for x86 host */ #include #include #include #include #include #include #include #include #include #include #include #define __LOGGERIO 0xAE #define LOGGER_GET_LOG_BUF_SIZE _IO(__LOGGERIO, 1) /* size of log */ #define LOGGER_GET_LOG_LEN _IO(__LOGGERIO, 2) /* used log len */ #define LOGGER_GET_NEXT_ENTRY_LEN _IO(__LOGGERIO, 3) /* next entry len */ #define LOGGER_FLUSH_LOG _IO(__LOGGERIO, 4) /* flush log */ #define LOGGER_GET_VERSION _IO(__LOGGERIO, 5) /* abi version */ #define LOGGER_SET_VERSION _IO(__LOGGERIO, 6) /* abi version */ typedef char bool; #define false (const bool)0 #define true (const bool)1 #define LOG_FILE_DIR "/dev/log/" /* timeout in milliseconds */ #define LOG_TIMEOUT_FLUSH 5 #define LOG_TIMEOUT_NEVER -1 #define logger_for_each(logger, logger_list) \ for (logger = node_to_item((logger_list)->node.next, struct logger, node); \ logger != node_to_item(&(logger_list)->node, struct logger, node); \ logger = node_to_item((logger)->node.next, struct logger, node)) #ifndef __unused #define __unused __attribute__((unused)) #endif /* In the future, we would like to make this list extensible */ static const char *LOG_NAME[LOG_ID_MAX] = { [LOG_ID_MAIN] = "main", [LOG_ID_RADIO] = "radio", [LOG_ID_EVENTS] = "events", [LOG_ID_SYSTEM] = "system", [LOG_ID_CRASH] = "crash", [LOG_ID_KERNEL] = "kernel", }; const char *android_log_id_to_name(log_id_t log_id) { if (log_id >= LOG_ID_MAX) { log_id = LOG_ID_MAIN; } return LOG_NAME[log_id]; } static int accessmode(int mode) { if ((mode & ANDROID_LOG_ACCMODE) == ANDROID_LOG_WRONLY) { return W_OK; } if ((mode & ANDROID_LOG_ACCMODE) == ANDROID_LOG_RDWR) { return R_OK | W_OK; } return R_OK; } /* repeated fragment */ static int check_allocate_accessible(char **n, const char *b, int mode) { *n = NULL; if (!b) { return -EINVAL; } asprintf(n, LOG_FILE_DIR "%s", b); if (!*n) { return -1; } return access(*n, accessmode(mode)); } log_id_t android_name_to_log_id(const char *logName) { const char *b; char *n; int ret; if (!logName) { return -1; /* NB: log_id_t is unsigned */ } b = strrchr(logName, '/'); if (!b) { b = logName; } else { ++b; } ret = check_allocate_accessible(&n, b, ANDROID_LOG_RDONLY); free(n); if (ret) { return ret; } for(ret = LOG_ID_MIN; ret < LOG_ID_MAX; ++ret) { const char *l = LOG_NAME[ret]; if (l && !strcmp(b, l)) { return ret; } } return -1; /* should never happen */ } struct logger_list { struct listnode node; int mode; unsigned int tail; pid_t pid; unsigned int queued_lines; int timeout_ms; int error; bool flush; bool valid_entry; /* valiant(?) effort to deal with memory starvation */ struct log_msg entry; }; struct log_list { struct listnode node; struct log_msg entry; /* Truncated to event->len() + 1 to save space */ }; struct logger { struct listnode node; struct logger_list *top; int fd; log_id_t id; short *revents; struct listnode log_list; }; /* android_logger_alloc unimplemented, no use case */ /* android_logger_free not exported */ static void android_logger_free(struct logger *logger) { if (!logger) { return; } while (!list_empty(&logger->log_list)) { struct log_list *entry = node_to_item( list_head(&logger->log_list), struct log_list, node); list_remove(&entry->node); free(entry); if (logger->top->queued_lines) { logger->top->queued_lines--; } } if (logger->fd >= 0) { close(logger->fd); } list_remove(&logger->node); free(logger); } log_id_t android_logger_get_id(struct logger *logger) { return logger->id; } /* worker for sending the command to the logger */ static int logger_ioctl(struct logger *logger, int cmd, int mode) { char *n; int f, ret; if (!logger || !logger->top) { return -EFAULT; } if (((mode & ANDROID_LOG_ACCMODE) == ANDROID_LOG_RDWR) || (((mode ^ logger->top->mode) & ANDROID_LOG_ACCMODE) == 0)) { return ioctl(logger->fd, cmd); } /* We go here if android_logger_list_open got mode wrong for this ioctl */ ret = check_allocate_accessible(&n, android_log_id_to_name(logger->id), mode); if (ret) { free(n); return ret; } f = open(n, mode); free(n); if (f < 0) { return f; } ret = ioctl(f, cmd); close (f); return ret; } int android_logger_clear(struct logger *logger) { return logger_ioctl(logger, LOGGER_FLUSH_LOG, ANDROID_LOG_WRONLY); } /* returns the total size of the log's ring buffer */ long android_logger_get_log_size(struct logger *logger) { return logger_ioctl(logger, LOGGER_GET_LOG_BUF_SIZE, ANDROID_LOG_RDWR); } int android_logger_set_log_size(struct logger *logger __unused, unsigned long size __unused) { return -ENOTSUP; } /* * returns the readable size of the log's ring buffer (that is, amount of the * log consumed) */ long android_logger_get_log_readable_size(struct logger *logger) { return logger_ioctl(logger, LOGGER_GET_LOG_LEN, ANDROID_LOG_RDONLY); } /* * returns the logger version */ int android_logger_get_log_version(struct logger *logger) { int ret = logger_ioctl(logger, LOGGER_GET_VERSION, ANDROID_LOG_RDWR); return (ret < 0) ? 1 : ret; } /* * returns statistics */ static const char unsupported[] = "18\nNot Supported\n\f"; ssize_t android_logger_get_statistics(struct logger_list *logger_list __unused, char *buf, size_t len) { strncpy(buf, unsupported, len); return -ENOTSUP; } ssize_t android_logger_get_prune_list(struct logger_list *logger_list __unused, char *buf, size_t len) { strncpy(buf, unsupported, len); return -ENOTSUP; } int android_logger_set_prune_list(struct logger_list *logger_list __unused, char *buf, size_t len) { static const char unsupported_error[] = "Unsupported"; strncpy(buf, unsupported, len); return -ENOTSUP; } struct logger_list *android_logger_list_alloc(int mode, unsigned int tail, pid_t pid) { struct logger_list *logger_list; logger_list = calloc(1, sizeof(*logger_list)); if (!logger_list) { return NULL; } list_init(&logger_list->node); logger_list->mode = mode; logger_list->tail = tail; logger_list->pid = pid; return logger_list; } struct logger_list *android_logger_list_alloc_time(int mode, log_time start __unused, pid_t pid) { return android_logger_list_alloc(mode, 0, pid); } /* android_logger_list_register unimplemented, no use case */ /* android_logger_list_unregister unimplemented, no use case */ /* Open the named log and add it to the logger list */ struct logger *android_logger_open(struct logger_list *logger_list, log_id_t id) { struct listnode *node; struct logger *logger; char *n; if (!logger_list || (id >= LOG_ID_MAX)) { goto err; } logger_for_each(logger, logger_list) { if (logger->id == id) { goto ok; } } logger = calloc(1, sizeof(*logger)); if (!logger) { goto err; } if (check_allocate_accessible(&n, android_log_id_to_name(id), logger_list->mode)) { goto err_name; } logger->fd = open(n, logger_list->mode & (ANDROID_LOG_ACCMODE | ANDROID_LOG_NONBLOCK)); if (logger->fd < 0) { goto err_name; } free(n); logger->id = id; list_init(&logger->log_list); list_add_tail(&logger_list->node, &logger->node); logger->top = logger_list; logger_list->timeout_ms = LOG_TIMEOUT_FLUSH; goto ok; err_name: free(n); err_logger: free(logger); err: logger = NULL; ok: return logger; } /* Open the single named log and make it part of a new logger list */ struct logger_list *android_logger_list_open(log_id_t id, int mode, unsigned int tail, pid_t pid) { struct logger_list *logger_list = android_logger_list_alloc(mode, tail, pid); if (!logger_list) { return NULL; } if (!android_logger_open(logger_list, id)) { android_logger_list_free(logger_list); return NULL; } return logger_list; } /* prevent memory starvation when backfilling */ static unsigned int queue_threshold(struct logger_list *logger_list) { return (logger_list->tail < 64) ? 64 : logger_list->tail; } static bool low_queue(struct listnode *node) { /* low is considered less than 2 */ return list_head(node) == list_tail(node); } /* Flush queues in sequential order, one at a time */ static int android_logger_list_flush(struct logger_list *logger_list, struct log_msg *log_msg) { int ret = 0; struct log_list *firstentry = NULL; while ((ret == 0) && (logger_list->flush || (logger_list->queued_lines > logger_list->tail))) { struct logger *logger; /* Merge sort */ bool at_least_one_is_low = false; struct logger *firstlogger = NULL; firstentry = NULL; logger_for_each(logger, logger_list) { struct listnode *node; struct log_list *oldest = NULL; /* kernel logger channels not necessarily time-sort order */ list_for_each(node, &logger->log_list) { struct log_list *entry = node_to_item(node, struct log_list, node); if (!oldest || (entry->entry.entry.sec < oldest->entry.entry.sec) || ((entry->entry.entry.sec == oldest->entry.entry.sec) && (entry->entry.entry.nsec < oldest->entry.entry.nsec))) { oldest = entry; } } if (!oldest) { at_least_one_is_low = true; continue; } else if (low_queue(&logger->log_list)) { at_least_one_is_low = true; } if (!firstentry || (oldest->entry.entry.sec < firstentry->entry.entry.sec) || ((oldest->entry.entry.sec == firstentry->entry.entry.sec) && (oldest->entry.entry.nsec < firstentry->entry.entry.nsec))) { firstentry = oldest; firstlogger = logger; } } if (!firstentry) { break; } /* when trimming list, tries to keep one entry behind in each bucket */ if (!logger_list->flush && at_least_one_is_low && (logger_list->queued_lines < queue_threshold(logger_list))) { break; } /* within tail?, send! */ if ((logger_list->tail == 0) || (logger_list->queued_lines <= logger_list->tail)) { int diff; ret = firstentry->entry.entry.hdr_size; if (!ret) { ret = sizeof(firstentry->entry.entry_v1); } /* Promote entry to v3 format */ memcpy(log_msg->buf, firstentry->entry.buf, ret); diff = sizeof(firstentry->entry.entry_v3) - ret; if (diff < 0) { diff = 0; } else if (diff > 0) { memset(log_msg->buf + ret, 0, diff); } memcpy(log_msg->buf + ret + diff, firstentry->entry.buf + ret, firstentry->entry.entry.len + 1); ret += diff; log_msg->entry.hdr_size = ret; log_msg->entry.lid = firstlogger->id; ret += firstentry->entry.entry.len; } /* next entry */ list_remove(&firstentry->node); free(firstentry); if (logger_list->queued_lines) { logger_list->queued_lines--; } } /* Flushed the list, no longer in tail mode for continuing content */ if (logger_list->flush && !firstentry) { logger_list->tail = 0; } return ret; } /* Read from the selected logs */ int android_logger_list_read(struct logger_list *logger_list, struct log_msg *log_msg) { struct logger *logger; nfds_t nfds; struct pollfd *p, *pollfds = NULL; int error = 0, ret = 0; memset(log_msg, 0, sizeof(struct log_msg)); if (!logger_list) { return -ENODEV; } if (!(accessmode(logger_list->mode) & R_OK)) { logger_list->error = EPERM; goto done; } nfds = 0; logger_for_each(logger, logger_list) { ++nfds; } if (nfds <= 0) { error = ENODEV; goto done; } /* Do we have anything to offer from the buffer or state? */ if (logger_list->valid_entry) { /* implies we are also in a flush state */ goto flush; } ret = android_logger_list_flush(logger_list, log_msg); if (ret) { goto done; } if (logger_list->error) { /* implies we are also in a flush state */ goto done; } /* Lets start grinding on metal */ pollfds = calloc(nfds, sizeof(struct pollfd)); if (!pollfds) { error = ENOMEM; goto flush; } p = pollfds; logger_for_each(logger, logger_list) { p->fd = logger->fd; p->events = POLLIN; logger->revents = &p->revents; ++p; } while (!ret && !error) { int result; /* If we oversleep it's ok, i.e. ignore EINTR. */ result = TEMP_FAILURE_RETRY( poll(pollfds, nfds, logger_list->timeout_ms)); if (result <= 0) { if (result) { error = errno; } else if (logger_list->mode & ANDROID_LOG_NONBLOCK) { error = EAGAIN; } else { logger_list->timeout_ms = LOG_TIMEOUT_NEVER; } logger_list->flush = true; goto try_flush; } logger_list->timeout_ms = LOG_TIMEOUT_FLUSH; /* Anti starvation */ if (!logger_list->flush && (logger_list->queued_lines > (queue_threshold(logger_list) / 2))) { /* Any queues with input pending that is low? */ bool starving = false; logger_for_each(logger, logger_list) { if ((*(logger->revents) & POLLIN) && low_queue(&logger->log_list)) { starving = true; break; } } /* pushback on any queues that are not low */ if (starving) { logger_for_each(logger, logger_list) { if ((*(logger->revents) & POLLIN) && !low_queue(&logger->log_list)) { *(logger->revents) &= ~POLLIN; } } } } logger_for_each(logger, logger_list) { unsigned int hdr_size; struct log_list *entry; int diff; if (!(*(logger->revents) & POLLIN)) { continue; } memset(logger_list->entry.buf, 0, sizeof(struct log_msg)); /* NOTE: driver guarantees we read exactly one full entry */ result = read(logger->fd, logger_list->entry.buf, LOGGER_ENTRY_MAX_LEN); if (result <= 0) { if (!result) { error = EIO; } else if (errno != EINTR) { error = errno; } continue; } if (logger_list->pid && (logger_list->pid != logger_list->entry.entry.pid)) { continue; } hdr_size = logger_list->entry.entry.hdr_size; if (!hdr_size) { hdr_size = sizeof(logger_list->entry.entry_v1); } if ((hdr_size > sizeof(struct log_msg)) || (logger_list->entry.entry.len > sizeof(logger_list->entry.buf) - hdr_size) || (logger_list->entry.entry.len != result - hdr_size)) { error = EINVAL; continue; } /* Promote entry to v3 format */ diff = sizeof(logger_list->entry.entry_v3) - hdr_size; if (diff > 0) { if (logger_list->entry.entry.len > sizeof(logger_list->entry.buf) - hdr_size - diff) { error = EINVAL; continue; } result += diff; memmove(logger_list->entry.buf + hdr_size + diff, logger_list->entry.buf + hdr_size, logger_list->entry.entry.len + 1); memset(logger_list->entry.buf + hdr_size, 0, diff); logger_list->entry.entry.hdr_size = hdr_size + diff; } logger_list->entry.entry.lid = logger->id; /* speedup: If not tail, and only one list, send directly */ if (!logger_list->tail && (list_head(&logger_list->node) == list_tail(&logger_list->node))) { ret = result; memcpy(log_msg->buf, logger_list->entry.buf, result + 1); break; } entry = malloc(sizeof(*entry) - sizeof(entry->entry) + result + 1); if (!entry) { logger_list->valid_entry = true; error = ENOMEM; break; } logger_list->queued_lines++; memcpy(entry->entry.buf, logger_list->entry.buf, result); entry->entry.buf[result] = '\0'; list_add_tail(&logger->log_list, &entry->node); } if (ret <= 0) { try_flush: ret = android_logger_list_flush(logger_list, log_msg); } } free(pollfds); flush: if (error) { logger_list->flush = true; } if (ret <= 0) { ret = android_logger_list_flush(logger_list, log_msg); if (!ret && logger_list->valid_entry) { ret = logger_list->entry.entry.hdr_size; if (!ret) { ret = sizeof(logger_list->entry.entry_v1); } ret += logger_list->entry.entry.len; memcpy(log_msg->buf, logger_list->entry.buf, sizeof(struct log_msg)); logger_list->valid_entry = false; } } done: if (logger_list->error) { error = logger_list->error; } if (error) { logger_list->error = error; if (!ret) { ret = -error; } } return ret; } /* Close all the logs */ void android_logger_list_free(struct logger_list *logger_list) { if (logger_list == NULL) { return; } while (!list_empty(&logger_list->node)) { struct listnode *node = list_head(&logger_list->node); struct logger *logger = node_to_item(node, struct logger, node); android_logger_free(logger); } free(logger_list); }