/* * * Connection Manager * * Copyright (C) 2010 BMW Car IT GmbH. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include #endif #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include "connman.h" #ifdef TEMP_FAILURE_RETRY #define TFR TEMP_FAILURE_RETRY #else #define TFR #endif #define MAGIC 0xFA00B916 /* * Statistics counters are stored into a ring buffer which is stored * into a file * * File properties: * The ring buffer is mmap to a file * Initialy only the smallest possible amount of disk space is allocated * The files grow to the configured maximal size * The grows by _SC_PAGESIZE step size * For each service a file is created * Each file has a header where the indexes are stored * * Entries properties: * Each entry has a timestamp * A flag to mark if the entry is either home (0) or roaming (1) entry * The entries are fixed sized (stats_record) * * Ring buffer properties: * There are to indexes 'begin', 'end', 'home' and 'roaming' * 'begin' points to the oldest entry * 'end' points to the newest/current entry * 'home' points to the current home entry * 'roaming' points to the current roaming entry * If 'begin' == 'end' then the buffer is empty * If 'end' + 1 == 'begin then it's full * The ring buffer is valid in the range (begin, end] * If 'home' has the value UINT_MAX', 'home' is invalid * if 'roaming' has the value UINT_MAX', 'roaming' is invalid * 'first' points to the first entry in the ring buffer * 'last' points to the last entry in the ring buffer * * History file: * Same format as the ring buffer file * For a period of at least 2 months dayly records are keept * If older, then only a monthly record is keept */ struct stats_file_header { unsigned int magic; unsigned int begin; unsigned int end; unsigned int home; unsigned int roaming; }; struct stats_record { time_t ts; unsigned int roaming; struct connman_stats_data data; }; struct stats_file { int fd; char *name; char *addr; size_t len; size_t max_len; /* cached values */ struct stats_record *first; struct stats_record *last; struct stats_record *home; struct stats_record *roaming; /* history */ char *history_name; int account_period_offset; }; struct stats_iter { struct stats_file *file; struct stats_record *begin; struct stats_record *end; struct stats_record *it; }; GHashTable *stats_hash = NULL; static struct stats_file_header *get_hdr(struct stats_file *file) { return (struct stats_file_header *)file->addr; } static struct stats_record *get_begin(struct stats_file *file) { unsigned int off = get_hdr(file)->begin; return (struct stats_record *)(file->addr + off); } static struct stats_record *get_end(struct stats_file *file) { unsigned int off = get_hdr(file)->end; return (struct stats_record *)(file->addr + off); } static struct stats_record *get_home(struct stats_file *file) { struct stats_file_header *hdr; hdr = get_hdr(file); if (hdr->home == UINT_MAX) return NULL; return (struct stats_record *)(file->addr + hdr->home); } static struct stats_record *get_roaming(struct stats_file *file) { struct stats_file_header *hdr; hdr = get_hdr(file); if (hdr->roaming == UINT_MAX) return NULL; return (struct stats_record *)(file->addr + hdr->roaming); } static void set_end(struct stats_file *file, struct stats_record *end) { struct stats_file_header *hdr; hdr = get_hdr(file); hdr->end = (char *)end - file->addr; } static void set_home(struct stats_file *file, struct stats_record *home) { struct stats_file_header *hdr; hdr = get_hdr(file); hdr->home = (char *)home - file->addr; } static void set_roaming(struct stats_file *file, struct stats_record *roaming) { struct stats_file_header *hdr; hdr = get_hdr(file); hdr->roaming = (char *)roaming - file->addr; } static struct stats_record *get_next(struct stats_file *file, struct stats_record *cur) { cur++; if (cur > file->last) cur = file->first; return cur; } static struct stats_record *get_iterator_begin(struct stats_file *file) { return get_next(file, get_begin(file)); } static struct stats_record *get_iterator_end(struct stats_file *file) { return get_next(file, get_end(file)); } static void stats_free(gpointer user_data) { struct stats_file *file = user_data; msync(file->addr, file->len, MS_SYNC); munmap(file->addr, file->len); file->addr = NULL; TFR(close(file->fd)); file->fd = -1; if (file->history_name != NULL) { g_free(file->history_name); file->history_name = NULL; } if (file->name != NULL) { g_free(file->name); file->name = NULL; } if (file != NULL) g_free(file); } static void update_first(struct stats_file *file) { file->first = (struct stats_record *) (file->addr + sizeof(struct stats_file_header)); } static void update_last(struct stats_file *file) { unsigned int max_entries; max_entries = (file->len - sizeof(struct stats_file_header)) / sizeof(struct stats_record); file->last = file->first + max_entries - 1; } static void update_home(struct stats_file *file) { file->home = get_home(file); } static void update_roaming(struct stats_file *file) { file->roaming = get_roaming(file); } static void stats_file_update_cache(struct stats_file *file) { update_first(file); update_last(file); update_home(file); update_roaming(file); } static int stats_file_remap(struct stats_file *file, size_t size) { size_t page_size, new_size; void *addr; int err; page_size = sysconf(_SC_PAGESIZE); new_size = (size + page_size - 1) & ~(page_size - 1); err = ftruncate(file->fd, new_size); if (err < 0) { connman_error("ftrunctate error %s for %s", strerror(errno), file->name); return -errno; } if (file->addr == NULL) { addr = mmap(NULL, new_size, PROT_READ | PROT_WRITE, MAP_SHARED, file->fd, 0); } else { addr = mremap(file->addr, file->len, new_size, MREMAP_MAYMOVE); } if (addr == MAP_FAILED) { connman_error("mmap error %s for %s", strerror(errno), file->name); return -errno; } file->addr = addr; file->len = new_size; stats_file_update_cache(file); return 0; } static int stats_open(struct stats_file *file, const char *name) { file->name = g_strdup(name); file->fd = TFR(open(file->name, O_RDWR | O_CREAT, 0644)); if (file->fd < 0) { connman_error("open error %s for %s", strerror(errno), file->name); g_free(file->name); return -errno; } return 0; } static int stats_open_temp(struct stats_file *file) { file->name = g_strdup_printf("%s/stats/stats.XXXXXX.tmp", STORAGEDIR); file->fd = g_mkstemp_full(file->name, O_RDWR | O_CREAT, 0644); if (file->fd < 0) { connman_error("create tempory file error %s for %s", strerror(errno), file->name); g_free(file->name); return -errno; } return 0; } static int stats_file_setup(struct stats_file *file) { struct stats_file_header *hdr; struct stat st; size_t size = 0; int err; err = fstat(file->fd, &st); if (err < 0) { connman_error("fstat error %s for %s\n", strerror(errno), file->name); TFR(close(file->fd)); g_free(file->name); return -errno; } size = (size_t)st.st_size; file->max_len = STATS_MAX_FILE_SIZE; if (size < (size_t)sysconf(_SC_PAGESIZE)) size = sysconf(_SC_PAGESIZE); err = stats_file_remap(file, size); if (err < 0) { TFR(close(file->fd)); g_free(file->name); return err; } hdr = get_hdr(file); if (hdr->magic != MAGIC || hdr->begin < sizeof(struct stats_file_header) || hdr->end < sizeof(struct stats_file_header) || hdr->home < sizeof(struct stats_file_header) || hdr->roaming < sizeof(struct stats_file_header) || hdr->begin > file->len || hdr->end > file->len) { hdr->magic = MAGIC; hdr->begin = sizeof(struct stats_file_header); hdr->end = sizeof(struct stats_file_header); hdr->home = UINT_MAX; hdr->roaming = UINT_MAX; stats_file_update_cache(file); } return 0; } static struct stats_record *get_next_record(struct stats_iter *iter) { if (iter->it != iter->end) { struct stats_record *tmp; tmp = iter->it; iter->it = get_next(iter->file, iter->it); return tmp; } return NULL; } static int append_record(struct stats_file *file, struct stats_record *rec) { struct stats_record *cur, *next; int err; if (file->last == get_end(file)) { err = stats_file_remap(file, file->len + sysconf(_SC_PAGESIZE)); if (err < 0) return err; stats_file_update_cache(file); } cur = get_end(file); next = get_next(file, cur); memcpy(next, rec, sizeof(struct stats_record)); set_end(file, next); return 0; } static struct stats_record *process_file(struct stats_iter *iter, struct stats_file *temp_file, struct stats_record *cur, GDate *date_change_step_size, int account_period_offset) { struct stats_record *home, *roaming; struct stats_record *next; home = NULL; roaming = NULL; if (cur == NULL) cur = get_next_record(iter); next = get_next_record(iter); while (next != NULL) { GDate date_cur; GDate date_next; int append; append = FALSE; if (cur->roaming == TRUE) roaming = cur; else home = cur; g_date_set_time_t(&date_cur, cur->ts); g_date_set_time_t(&date_next, next->ts); if (g_date_compare(&date_cur, date_change_step_size) < 0) { /* month period size */ GDateDay day_cur, day_next; GDateMonth month_cur, month_next; month_cur = g_date_get_month(&date_cur); month_next = g_date_get_month(&date_next); day_cur = g_date_get_day(&date_cur); day_next = g_date_get_day(&date_next); if (day_cur == day_next && month_cur != month_next) { append = TRUE; } else if (day_cur < account_period_offset && day_next >= account_period_offset) { append = TRUE; } } else { /* day period size */ if (g_date_days_between(&date_cur, &date_next) > 0) append = TRUE; } if (append == TRUE) { if (home != NULL) { append_record(temp_file, home); home = NULL; } if (roaming != NULL) { append_record(temp_file, roaming); roaming = NULL; } } cur = next; next = get_next_record(iter); } return cur; } static int summarize(struct stats_file *data_file, struct stats_file *history_file, struct stats_file *temp_file) { struct stats_iter data_iter; struct stats_iter history_iter; struct stats_record *cur, *next; GDate today, date_change_step_size; /* * First calculate the date when switch from monthly * accounting period size to daily size */ g_date_set_time_t(&today, time(NULL)); date_change_step_size = today; if (g_date_get_day(&today) - data_file->account_period_offset >= 0) g_date_subtract_months(&date_change_step_size, 2); else g_date_subtract_months(&date_change_step_size, 3); g_date_set_day(&date_change_step_size, data_file->account_period_offset); /* Now process history file */ cur = NULL; if (history_file != NULL) { history_iter.file = history_file; history_iter.begin = get_iterator_begin(history_iter.file); history_iter.end = get_iterator_end(history_iter.file); history_iter.it = history_iter.begin; cur = process_file(&history_iter, temp_file, NULL, &date_change_step_size, data_file->account_period_offset); } data_iter.file = data_file; data_iter.begin = get_iterator_begin(data_iter.file); data_iter.end = get_iterator_end(data_iter.file); data_iter.it = data_iter.begin; /* * Ensure date_file records are newer than the history_file * record */ if (cur != NULL) { next = get_next_record(&data_iter); while (next != NULL && cur->ts > next->ts) next = get_next_record(&data_iter); } /* And finally process the new data records */ cur = process_file(&data_iter, temp_file, cur, &date_change_step_size, data_file->account_period_offset); if (cur != NULL) append_record(temp_file, cur); return 0; } static void stats_file_unmap(struct stats_file *file) { msync(file->addr, file->len, MS_SYNC); munmap(file->addr, file->len); file->addr = NULL; } static void stats_file_cleanup(struct stats_file *file) { file->fd = -1; g_free(file->name); } static int stats_file_close_swap(struct stats_file *history_file, struct stats_file *temp_file) { int err; stats_file_unmap(history_file); stats_file_unmap(temp_file); TFR(close(temp_file->fd)); unlink(history_file->name); err = link(temp_file->name, history_file->name); unlink(temp_file->name); TFR(close(history_file->fd)); stats_file_cleanup(history_file); stats_file_cleanup(temp_file); return err; } static int stats_file_history_update(struct stats_file *data_file) { struct stats_file _history_file, *history_file; struct stats_file _temp_file, *temp_file; int err; history_file = &_history_file; temp_file = &_temp_file; bzero(history_file, sizeof(struct stats_file)); bzero(temp_file, sizeof(struct stats_file)); err = stats_open(history_file, data_file->history_name); if (err < 0) return err; stats_file_setup(history_file); err = stats_open_temp(temp_file); if (err < 0) { stats_free(history_file); return err; } stats_file_setup(temp_file); summarize(data_file, history_file, temp_file); err = stats_file_close_swap(history_file, temp_file); return err; } int __connman_stats_service_register(struct connman_service *service) { struct stats_file *file; char *name; int err; DBG("service %p", service); file = g_hash_table_lookup(stats_hash, service); if (file == NULL) { file = g_try_new0(struct stats_file, 1); if (file == NULL) return -ENOMEM; g_hash_table_insert(stats_hash, service, file); } else { return -EALREADY; } name = g_strdup_printf("%s/stats/%s.data", STORAGEDIR, __connman_service_get_ident(service)); file->history_name = g_strdup_printf("%s/stats/%s.history", STORAGEDIR, __connman_service_get_ident(service)); /* TODO: Use a global config file instead of hard coded value. */ file->account_period_offset = 1; err = stats_open(file, name); g_free(name); if (err < 0) goto err; err = stats_file_setup(file); if (err < 0) goto err; return 0; err: g_hash_table_remove(stats_hash, service); return err; } void __connman_stats_service_unregister(struct connman_service *service) { DBG("service %p", service); g_hash_table_remove(stats_hash, service); } int __connman_stats_update(struct connman_service *service, connman_bool_t roaming, struct connman_stats_data *data) { struct stats_file *file; struct stats_record *next; int err; file = g_hash_table_lookup(stats_hash, service); if (file == NULL) return -EEXIST; if (file->len < file->max_len && file->last == get_end(file)) { DBG("grow file %s", file->name); err = stats_file_remap(file, file->len + sysconf(_SC_PAGESIZE)); if (err < 0) return err; } next = get_next(file, get_end(file)); if (next == get_begin(file)) { DBG("ring buffer is full, update history file"); if (stats_file_history_update(file) < 0) { connman_warn("history file update failed %s", file->history_name); } } next->ts = time(NULL); next->roaming = roaming; memcpy(&next->data, data, sizeof(struct connman_stats_data)); if (roaming != TRUE) set_home(file, next); else set_roaming(file, next); set_end(file, next); return 0; } int __connman_stats_get(struct connman_service *service, connman_bool_t roaming, struct connman_stats_data *data) { struct stats_file *file; struct stats_record *rec; file = g_hash_table_lookup(stats_hash, service); if (file == NULL) return -EEXIST; if (roaming != TRUE) rec = file->home; else rec = file->roaming; if (rec != NULL) { memcpy(data, &rec->data, sizeof(struct connman_stats_data)); } return 0; } int __connman_stats_init(void) { DBG(""); stats_hash = g_hash_table_new_full(g_direct_hash, g_direct_equal, NULL, stats_free); return 0; } void __connman_stats_cleanup(void) { DBG(""); g_hash_table_destroy(stats_hash); stats_hash = NULL; }