4 * Copyright (c) 2000 - 2011 Samsung Electronics Co., Ltd. All rights reserved.
6 * Contact: Venkatesha Sarpangala <sarpangala.v@samsung.com>, Jayoun Lee <airjany@samsung.com>,
7 * Sewook Park <sewook7.park@samsung.com>, Jaeho Lee <jaeho81.lee@samsung.com>
9 * Licensed under the Apache License, Version 2.0 (the "License");
10 * you may not use this file except in compliance with the License.
11 * You may obtain a copy of the License at
13 * http://www.apache.org/licenses/LICENSE-2.0
15 * Unless required by applicable law or agreed to in writing, software
16 * distributed under the License is distributed on an "AS IS" BASIS,
17 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
18 * See the License for the specific language governing permissions and
19 * limitations under the License.
25 #define _BSD_SOURCE /*for localtime_r*/
36 #include<dbus/dbus-glib-lowlevel.h>
38 #if !GLIB_CHECK_VERSION (2, 31, 0)
39 #include <glib/gmacros.h>
43 /*#include "global-gconf.h"*/
45 #include"alarm-internal.h"
47 /*#include"limo-event-delivery.h"*/
52 #include <security-server.h>
55 #include <vconf-keys.h>
57 #define SIG_TIMER 0x32
58 #define WAKEUP_ALARM_APP_ID "org.tizen.alarm.ALARM"
59 /* alarm ui application's alarm's dbus_service name instead of 21
60 (alarm application's app_id) value */
61 #define WAKEUP_ALARMBOOTING_APP_ID "org.tizen.alarmboot.ui.ALARM"
62 /*alrmbooting ui application's dbus_service name instead of 121(alarmbooting
63 application's app_id) value */
65 #include "tapi_misc_ext.h"
67 #include "tapi_misc_data.h"
68 #include "tapi_power.h"
73 __alarm_server_context_t alarm_context;
74 bool g_dummy_timer_is_set = FALSE;
76 GSList *g_scheduled_alarm_list = NULL;
78 GSList *g_expired_alarm_list = NULL;
80 #ifndef RTC_WKALM_BOOT_SET
81 #define RTC_WKALM_BOOT_SET _IOW('p', 0x80, struct rtc_wkalrm)
85 bool enable_power_on_alarm;
87 time_t ab_due_time = -1;
88 bool poweron_alarm_expired = false;
91 /* 2008. 6. 3 sewook7.park
92 When the alarm becoms sleeping mode, alarm timer is not expired.
93 So using RTC, phone is awaken before alarm rings.
95 #define __WAKEUP_USING_RTC__
96 #ifdef __WAKEUP_USING_RTC__
98 #include <linux/rtc.h>
99 #include <sys/ioctl.h>
102 static const char default_rtc[] = "/dev/rtc1";
103 static const char power_rtc[] = "/dev/rtc0";
105 #endif /*__WAKEUP_USING_RTC__*/
107 static bool __alarm_add_to_list(__alarm_info_t *__alarm_info,
108 alarm_id_t *alarm_id);
109 static bool __alarm_update_in_list(int pid, alarm_id_t alarm_id,
110 __alarm_info_t *__alarm_info,
112 static bool __alarm_remove_from_list(int pid, alarm_id_t alarm_id,
114 static bool __alarm_set_start_and_end_time(alarm_info_t *alarm_info,
115 __alarm_info_t *__alarm_info);
116 static bool __alarm_update_due_time_of_all_items_in_list(double diff_time);
117 static bool __alarm_create(alarm_info_t *alarm_info, alarm_id_t *alarm_id,
118 int pid, char *app_service_name, char *app_service_name_mod,
119 const char *dst_service_name, const char *dst_service_name_mod, int *error_code);
120 static bool __alarm_create_appsvc(alarm_info_t *alarm_info, alarm_id_t *alarm_id,
121 int pid, char *bundle_data, int *error_code);
123 static bool __alarm_delete(int pid, alarm_id_t alarm_id, int *error_code);
124 static bool __alarm_update(int pid, char *app_service_name, alarm_id_t alarm_id,
125 alarm_info_t *alarm_info, int *error_code);
126 static bool __alarm_power_on(int app_id, bool on_off, int *error_code);
127 static bool __alarm_power_off(int app_id, int *error_code);
128 static bool __alarm_check_next_duetime(int app_id, int *error_code);
129 static void __alarm_send_noti_to_application(const char *app_service_name,
130 alarm_id_t alarm_id);
131 static void __alarm_expired();
132 static gboolean __alarm_handler_idle();
133 static void __alarm_handler(int sigNum, siginfo_t *pSigInfo, void *pUContext);
134 static void __clean_registry();
135 static bool __alarm_manager_reset();
136 static void __on_system_time_changed(keynode_t *node, void *data);
137 static void __initialize_timer();
138 static void __initialize_alarm_list();
139 static void __initialize_scheduled_alarm_lsit();
140 static void __hibernation_leave_callback();
141 static bool __initialize_noti();
143 static bool __initialize_dbus();
144 static bool __initialize_db();
145 static void __initialize();
146 static bool __check_false_alarm();
147 static DBusHandlerResult __alarm_server_filter(DBusConnection *connection,
148 DBusMessage *message,
151 static void __rtc_set()
153 #ifdef __WAKEUP_USING_RTC__
155 const char *rtc = default_rtc;
157 struct rtc_time rtc_tm;
158 struct rtc_wkalrm rtc_wk;
161 #ifdef _SIMUL /*if build is simulator, we don't need to set
162 RTC because RTC does not work in simulator.*/
163 ALARM_MGR_EXCEPTION_PRINT("because it is simulator's mode, "
164 "we don't set RTC.\n");
168 fd = open(rtc, O_RDONLY);
170 ALARM_MGR_EXCEPTION_PRINT("RTC open failed.\n");
174 /* Read the RTC time/date */
175 int retval = ioctl(fd, RTC_RD_TIME, &rtc_tm);
177 ALARM_MGR_EXCEPTION_PRINT("RTC_RD_TIME ioctl failed");
182 ALARM_MGR_LOG_PRINT("\n\nCurrent RTC date/time is %d-%d-%d, "
183 "%02d:%02d:%02d.\n", rtc_tm.tm_mday, rtc_tm.tm_mon + 1,
184 rtc_tm.tm_year + 1900, rtc_tm.tm_hour, rtc_tm.tm_min,
187 ALARM_MGR_LOG_PRINT("alarm_context.c_due_time is %d\n", \
188 alarm_context.c_due_time);
190 if (alarm_context.c_due_time != -1) {
191 time_t due_time = alarm_context.c_due_time - 1;
192 gmtime_r(&due_time, &due_tm);
194 rtc_tm.tm_mday = due_tm.tm_mday;
195 rtc_tm.tm_mon = due_tm.tm_mon;
196 rtc_tm.tm_year = due_tm.tm_year;
197 rtc_tm.tm_hour = due_tm.tm_hour;
198 rtc_tm.tm_min = due_tm.tm_min;
199 rtc_tm.tm_sec = due_tm.tm_sec;
200 memcpy(&rtc_wk.time, &rtc_tm, sizeof(rtc_tm));
204 ALARM_MGR_LOG_PRINT("\n\nSetted RTC Alarm date/time is "
205 "%d-%d-%d, %02d:%02d:%02d.\n", rtc_tm.tm_mday,
206 rtc_tm.tm_mon + 1, rtc_tm.tm_year + 1900,
207 rtc_tm.tm_hour, rtc_tm.tm_min, rtc_tm.tm_sec);
209 retval = ioctl(fd, RTC_WKALM_SET, &rtc_wk);
211 if (errno == ENOTTY) {
212 ALARM_MGR_EXCEPTION_PRINT("\nAlarm IRQs not"
215 ALARM_MGR_EXCEPTION_PRINT("RTC_ALM_SET ioctl");
219 ALARM_MGR_LOG_PRINT("[alarm-server]RTC alarm is setted");
221 /* Enable alarm interrupts */
222 retval = ioctl(fd, RTC_AIE_ON, 0);
224 ALARM_MGR_EXCEPTION_PRINT("RTC_AIE_ON ioctl failed");
228 ALARM_MGR_LOG_PRINT("[alarm-server]RTC alarm is on");
230 ALARM_MGR_LOG_PRINT("[alarm-server]alarm_context.c_due_time is"
231 "less than 10 sec. RTC alarm does not need to be set\n");
235 #endif /* __WAKEUP_USING_RTC__ */
238 int _set_rtc_time(time_t _time)
244 struct rtc_time rtc_tm = { 0, };
245 const char *rtc0 = power_rtc;
246 const char *rtc1 = default_rtc;
247 struct tm *_tm = NULL;
248 struct tm time_r = { 0, };
250 fd0 = open(rtc0, O_RDONLY);
251 fd1 = open(rtc1, O_RDONLY);
254 ALARM_MGR_LOG_PRINT("error to open /dev/rtc0.");
259 ALARM_MGR_LOG_PRINT("error to open /dev/rtc1.");
263 memset(&rtc_tm, 0, sizeof(struct rtc_time));
266 (void) gmtime_r(&_time, &time_r);
268 /* Write the RTC time/date 2008:05:21 19:20:00 */
271 rtc_tm.tm_mday = time_r.tm_mday;
272 rtc_tm.tm_mon = time_r.tm_mon;
273 rtc_tm.tm_year = time_r.tm_year;
274 rtc_tm.tm_hour = time_r.tm_hour;
275 rtc_tm.tm_min = time_r.tm_min;
279 retval0 = ioctl(fd0, RTC_SET_TIME, &rtc_tm);
284 ALARM_MGR_LOG_PRINT("error to ioctl fd0.");
290 retval1 = ioctl(fd1, RTC_SET_TIME, &rtc_tm);
295 ALARM_MGR_LOG_PRINT("error to ioctl fd1.");
304 bool __alarm_clean_list()
308 for (iter = alarm_context.alarms; iter != NULL;
309 iter = g_slist_next(iter)) {
313 g_slist_free(alarm_context.alarms);
317 static bool __alarm_add_to_list(__alarm_info_t *__alarm_info,
318 alarm_id_t *alarm_id)
321 bool unique_id = false;
322 alarm_info_t *alarm_info = &__alarm_info->alarm_info;
323 __alarm_info_t *entry = NULL;
327 /* FIXME: alarm id must be unique. */
328 __alarm_info->alarm_id = (int)(void *)__alarm_info;
329 ALARM_MGR_LOG_PRINT("__alarm_info->alarm_id is %d", \
330 __alarm_info->alarm_id);
332 while (unique_id == false) {
335 for (iter = alarm_context.alarms; iter != NULL;
336 iter = g_slist_next(iter)) {
338 if (entry->alarm_id == __alarm_info->alarm_id) {
339 __alarm_info->alarm_id++;
347 ALARM_MGR_LOG_PRINT("[alarm-server]: before add\n");
348 for (iter = alarm_context.alarms; iter != NULL;
349 iter = g_slist_next(iter)) {
351 /*ALARM_MGR_LOG_PRINT("[alarm-server]: alarm_id(%d)\n",
355 alarm_context.alarms =
356 g_slist_append(alarm_context.alarms, __alarm_info);
358 ALARM_MGR_LOG_PRINT("[alarm-server]: after add\n");
359 for (iter = alarm_context.alarms; iter != NULL;
360 iter = g_slist_next(iter)) {
362 ALARM_MGR_LOG_PRINT("[alarm-server]: alarm_id(%d)\n",
366 if (!(alarm_info->alarm_type & ALARM_TYPE_VOLATILE)) {
367 _save_alarms(__alarm_info);
370 *alarm_id = __alarm_info->alarm_id;
375 static bool __alarm_update_in_list(int pid, alarm_id_t alarm_id,
376 __alarm_info_t *__alarm_info,
380 alarm_info_t *alarm_info = &__alarm_info->alarm_info;
382 __alarm_info_t *entry = NULL;
384 for (iter = alarm_context.alarms; iter != NULL;
385 iter = g_slist_next(iter)) {
387 if (entry->alarm_id == alarm_id) {
390 __alarm_info->quark_app_unique_name =
391 entry->quark_app_unique_name;
392 __alarm_info->quark_dst_service_name =
393 entry->quark_dst_service_name;
394 memcpy(entry, __alarm_info, sizeof(__alarm_info_t));
402 *error_code = ERR_ALARM_INVALID_ID;
406 if (!(alarm_info->alarm_type & ALARM_TYPE_VOLATILE)) {
407 _update_alarms(__alarm_info);
413 static bool __alarm_remove_from_list(int pid, alarm_id_t alarm_id,
418 alarm_info_t *alarm_info = NULL;
421 __alarm_info_t *entry = NULL;
424 ALARM_MGR_LOG_PRINT("[alarm-server]: before del : alarm id(%d)\n",
427 for (iter = alarm_context.alarms; iter != NULL;
428 iter = g_slist_next(iter)) {
430 if (entry->alarm_id == alarm_id) {
431 alarm_info = &entry->alarm_info;
433 ALARM_MGR_LOG_PRINT("[alarm-server]: "
434 "__alarm_remove_from_list : alarm id(%d)\n",
437 if (!(alarm_info->alarm_type & ALARM_TYPE_VOLATILE)) {
438 _delete_alarms(alarm_id);
441 alarm_context.alarms =
442 g_slist_remove(alarm_context.alarms, iter->data);
449 ALARM_MGR_LOG_PRINT("[alarm-server]: after del\n");
453 *error_code = ERR_ALARM_INVALID_ID;
460 static bool __alarm_set_start_and_end_time(alarm_info_t *alarm_info,
461 __alarm_info_t *__alarm_info)
463 alarm_date_t *start = &alarm_info->start;
464 alarm_date_t *end = &alarm_info->end;
466 struct tm alarm_tm = { 0, };
468 if (start->year != 0) {
469 alarm_tm.tm_year = start->year - 1900;
470 alarm_tm.tm_mon = start->month - 1;
471 alarm_tm.tm_mday = start->day;
473 alarm_tm.tm_hour = 0;
477 __alarm_info->start = mktime(&alarm_tm);
479 __alarm_info->start = 0;
482 if (end->year != 0) {
483 alarm_tm.tm_year = end->year - 1900;
484 alarm_tm.tm_mon = end->month - 1;
485 alarm_tm.tm_mday = end->day;
487 alarm_tm.tm_hour = 23;
488 alarm_tm.tm_min = 59;
489 alarm_tm.tm_sec = 59;
491 __alarm_info->end = mktime(&alarm_tm);
493 __alarm_info->end = 0;
500 static bool alarm_get_tz_info(int *gmt_idx, int *dst)
502 GConfValue *value1 = NULL;
503 GConfValue *value2 = NULL;
504 GConfClient* gConfClient = NULL;
507 gConfClient = gconf_client_get_default();
510 value1 = gconf_client_get(gConfClient, SETTINGS_CLOCKTIMEZONE,
513 ALARM_MGR_LOG_PRINT("__on_system_time_changed:
514 gconf_client_get() failed:
515 error:[%s]\n", err->message);
519 *gmt_idx = gconf_value_get_int(value1);
520 ALARM_MGR_LOG_PRINT("gconf return gmt_idx =%d\n ", *gmt_idx);
522 value2 = gconf_client_get(gConfClient,
523 SETTINGS_DAYLIGHTSTATUS, &err);
525 ALARM_MGR_LOG_PRINT("__on_system_time_changed:
526 gconf_client_get() failed: error:[%s]\n", err->message);
531 *dst = gconf_value_get_int(value2);
532 ALARM_MGR_LOG_PRINT("gconf return dst =%d\n ", *dst);
534 if(gConfClient != NULL) {
535 g_object_unref(gConfClient);
540 ALARM_MGR_LOG_PRINT("check the gconf setting failed!!!!! \n ");
543 gconf_value_free(value1);
547 gconf_value_free(value2);
555 static bool __alarm_update_due_time_of_all_items_in_list(double diff_time)
558 time_t min_time = -1;
561 __alarm_info_t *entry = NULL;
562 struct tm *p_time = NULL ;
563 struct tm due_time_result ;
564 struct tm fixed_time = { 0, };
566 for (iter = alarm_context.alarms; iter != NULL;
567 iter = g_slist_next(iter)) {
569 alarm_info_t *alarm_info = &(entry->alarm_info);
570 if (alarm_info->alarm_type & ALARM_TYPE_RELATIVE) {
571 /*diff_time ó¸® */
573 entry->due_time += diff_time;
575 alarm_date_t *start = &alarm_info->start; /**< start
577 alarm_date_t *end = &alarm_info->end;;
578 /**< end time of the alarm */
581 p_time = localtime_r(&entry->due_time, &due_time_result);
582 if (p_time != NULL) {
583 start->year = p_time->tm_year + 1900;
584 start->month = p_time->tm_mon + 1;
585 start->day = p_time->tm_mday;
586 start->hour = p_time->tm_hour;
587 start->min = p_time->tm_min;
588 start->sec = p_time->tm_sec;
590 end->year = p_time->tm_year + 1900;
591 end->month = p_time->tm_mon + 1;
592 end->day = p_time->tm_mday;
595 memset(&fixed_time, 0, sizeof(fixed_time));
596 fixed_time.tm_year = p_time->tm_year;
597 fixed_time.tm_mon = p_time->tm_mon;
598 fixed_time.tm_mday = p_time->tm_mday;
599 fixed_time.tm_hour = 0;
600 fixed_time.tm_min = 0;
601 fixed_time.tm_sec = 0;
603 entry->start = mktime(&fixed_time);
605 fixed_time.tm_hour = 23;
606 fixed_time.tm_min = 59;
607 fixed_time.tm_sec = 59;
609 entry->end = mktime(&fixed_time);
611 ALARM_MGR_LOG_PRINT("alarm_info->alarm_type is "
612 "ALARM_TYPE_RELATIVE\n");
614 _update_alarms(entry);
617 _alarm_next_duetime(entry);
618 ALARM_MGR_LOG_PRINT("entry->due_time is %d\n", entry->due_time);
623 for (iter = alarm_context.alarms; iter != NULL;
624 iter = g_slist_next(iter)) {
626 due_time = entry->due_time;
630 ALARM_MGR_LOG_PRINT("alarm[%d] with duetime(%u) at "
631 "current(%u)\n", entry->alarm_id, due_time, current_time);
632 if (due_time == 0) { /* 0 means this alarm has been
637 interval = difftime(due_time, current_time);
640 ALARM_MGR_LOG_PRINT("this may be error.. alarm[%d]\n", \
645 interval = difftime(due_time, min_time);
647 if ((interval < 0) || min_time == -1) {
653 alarm_context.c_due_time = min_time;
658 static bool __alarm_create_appsvc(alarm_info_t *alarm_info, alarm_id_t *alarm_id,
659 int pid,char *bundle_data, int *error_code){
664 char due_time_r[100] = { 0 };
665 char proc_file[512] = { 0 };
666 char process_name[512] = { 0 };
667 char app_name[512] = { 0 };
669 char *proc_name_ptr = NULL;
674 __alarm_info_t *__alarm_info = NULL;
676 __alarm_info = malloc(sizeof(__alarm_info_t));
677 if (__alarm_info == NULL) {
678 ALARM_MGR_EXCEPTION_PRINT("Caution!! app_pid=%d, malloc "
679 "failed. it seems to be OOM\n", pid);
680 *error_code = -1; /* -1 means that system
681 failed internally. */
684 __alarm_info->pid = pid;
685 __alarm_info->alarm_id = -1;
688 /* we should consider to check whether pid is running or Not
690 memset(process_name, '\0', 512);
691 memset(proc_file, '\0', 512);
692 snprintf(proc_file, 512, "/proc/%d/cmdline", pid);
694 fd = open(proc_file, O_RDONLY);
695 if (fd < 0) { /* failure */
696 ALARM_MGR_EXCEPTION_PRINT("Caution!! app_pid(%d) seems to be "
697 "killed, so we failed to get proc file(%s) and do not create "
698 "alarm_info\n", pid, proc_file);
699 *error_code = -1; /*-1 means that system failed
704 ret = read(fd, process_name, 512);
708 ALARM_MGR_EXCEPTION_PRINT("Unable to get application name\n");
713 while (process_name[i] != '\0') {
714 if (process_name[i] == ' ') {
715 process_name[i] = '\0';
721 word = strtok_r(process_name, "/", &proc_name_ptr);
722 while (word != NULL) {
723 memset(app_name, 0, 512);
724 snprintf(app_name, 512, "%s", word);
725 word = strtok_r(NULL, "/", &proc_name_ptr);
727 __alarm_info->quark_app_unique_name =
728 g_quark_from_string(app_name);
731 __alarm_info->quark_bundle=g_quark_from_string(bundle_data);
732 __alarm_info->quark_app_service_name = g_quark_from_string("null");
733 __alarm_info->quark_dst_service_name = g_quark_from_string("null");
734 __alarm_info->quark_app_service_name_mod = g_quark_from_string("null");
735 __alarm_info->quark_dst_service_name_mod = g_quark_from_string("null");
737 __alarm_set_start_and_end_time(alarm_info, __alarm_info);
738 memcpy(&(__alarm_info->alarm_info), alarm_info, sizeof(alarm_info_t));
742 if (alarm_context.c_due_time < current_time) {
743 ALARM_MGR_EXCEPTION_PRINT("Caution!! alarm_context.c_due_time "
744 "(%d) is less than current time(%d)", alarm_context.c_due_time,
746 alarm_context.c_due_time = -1;
749 due_time = _alarm_next_duetime(__alarm_info);
750 if (__alarm_add_to_list(__alarm_info, alarm_id) == false) {
757 ALARM_MGR_EXCEPTION_PRINT("[alarm-server]:Create a new alarm: "
758 "due_time is 0, alarm(%d) \n", *alarm_id);
760 } else if (current_time == due_time) {
761 ALARM_MGR_EXCEPTION_PRINT("[alarm-server]:Create alarm: "
762 "current_time(%d) is same as due_time(%d)", current_time,
765 }else if (difftime(due_time, current_time) < 0){
766 ALARM_MGR_EXCEPTION_PRINT("[alarm-server]: Expired Due Time.[Due time=%d, Current Time=%d]!!!Do not add to schedule list\n", due_time, current_time);
769 localtime_r(&due_time, &ts_ret);
770 strftime(due_time_r, 30, "%c", &ts_ret);
771 ALARM_MGR_LOG_PRINT("[alarm-server]:Create a new alarm: "
772 "alarm(%d) due_time(%s)", *alarm_id,
776 ALARM_MGR_LOG_PRINT("[alarm-server]:alarm_context.c_due_time(%d), "
777 "due_time(%d)", alarm_context.c_due_time, due_time);
779 if (alarm_context.c_due_time == -1
780 || due_time < alarm_context.c_due_time) {
781 _clear_scheduled_alarm_list();
782 _add_to_scheduled_alarm_list(__alarm_info);
783 _alarm_set_timer(&alarm_context, alarm_context.timer, due_time,
785 alarm_context.c_due_time = due_time;
787 } else if (due_time == alarm_context.c_due_time) {
788 _add_to_scheduled_alarm_list(__alarm_info);
796 if (enable_power_on_alarm) {
797 __alarm_power_on(0, enable_power_on_alarm, NULL);
805 static bool __alarm_create(alarm_info_t *alarm_info, alarm_id_t *alarm_id,
806 int pid, char *app_service_name, char *app_service_name_mod,
807 const char *dst_service_name,const char *dst_service_name_mod, int *error_code)
812 char proc_file[256] = { 0 };
813 char process_name[512] = { 0 };
814 char app_name[256] = { 0 };
816 char *proc_name_ptr = NULL;
818 __alarm_info_t *__alarm_info = NULL;
820 __alarm_info = malloc(sizeof(__alarm_info_t));
821 if (__alarm_info == NULL) {
822 ALARM_MGR_EXCEPTION_PRINT("Caution!! app_pid=%d, malloc "
823 "failed. it seems to be OOM\n", pid);
824 *error_code = -1; /* -1 means that system
825 failed internally. */
828 __alarm_info->pid = pid;
829 __alarm_info->alarm_id = -1;
831 /* we should consider to check whether pid is running or Not
833 memset(process_name, '\0', 512);
834 memset(proc_file, '\0', 256);
835 snprintf(proc_file, 256, "/proc/%d/cmdline", pid);
840 fd = open(proc_file, O_RDONLY);
841 if (fd < 0) { /* failure */
842 __alarm_info->quark_app_unique_name =
843 g_quark_from_string("unknown");
844 ALARM_MGR_EXCEPTION_PRINT("Caution!! app_pid(%d) seems to be "
845 "killed, so we failed to get proc file(%s) and do not create "
846 "alarm_info\n", pid, proc_file);
847 *error_code = -1; /*-1 means that system failed
852 ret = read(fd, process_name, 512);
854 while (process_name[i] != '\0') {
855 if (process_name[i] == ' ') {
856 process_name[i] = '\0';
861 /* if (readlink(proc_file, process_name, 256)!=-1) */
864 word = strtok_r(process_name, "/", &proc_name_ptr);
865 while (word != NULL) {
866 memset(app_name, 0, 256);
867 snprintf(app_name, 256, "%s", word);
868 word = strtok_r(NULL, "/", &proc_name_ptr);
870 __alarm_info->quark_app_unique_name =
871 g_quark_from_string(app_name);
874 __alarm_info->quark_app_service_name =
875 g_quark_from_string(app_service_name);
876 __alarm_info->quark_app_service_name_mod =
877 g_quark_from_string(app_service_name_mod);
878 __alarm_info->quark_dst_service_name =
879 g_quark_from_string(dst_service_name);
880 __alarm_info->quark_dst_service_name_mod =
881 g_quark_from_string(dst_service_name_mod);
882 __alarm_info->quark_bundle = g_quark_from_string("null");
885 __alarm_set_start_and_end_time(alarm_info, __alarm_info);
886 memcpy(&(__alarm_info->alarm_info), alarm_info, sizeof(alarm_info_t));
890 ALARM_MGR_LOG_PRINT("[alarm-server]:pid=%d, app_unique_name=%s, "
891 "app_service_name=%s,dst_service_name=%s, c_due_time=%d", \
892 pid, g_quark_to_string(__alarm_info->quark_app_unique_name), \
893 g_quark_to_string(__alarm_info->quark_app_service_name), \
894 g_quark_to_string(__alarm_info->quark_dst_service_name), \
895 alarm_context.c_due_time);
897 if (alarm_context.c_due_time < current_time) {
898 ALARM_MGR_EXCEPTION_PRINT("Caution!! alarm_context.c_due_time "
899 "(%d) is less than current time(%d)", alarm_context.c_due_time,
901 alarm_context.c_due_time = -1;
904 due_time = _alarm_next_duetime(__alarm_info);
905 if (__alarm_add_to_list(__alarm_info, alarm_id) == false) {
911 ALARM_MGR_EXCEPTION_PRINT("[alarm-server]:Create a new alarm: "
912 "due_time is 0, alarm(%d) \n", *alarm_id);
914 } else if (current_time == due_time) {
915 ALARM_MGR_EXCEPTION_PRINT("[alarm-server]:Create alarm: "
916 "current_time(%d) is same as due_time(%d)", current_time,
919 }else if (difftime(due_time, current_time) < 0){
920 ALARM_MGR_EXCEPTION_PRINT("[alarm-server]: Expired Due Time.[Due time=%d, Current Time=%d]!!!Do not add to schedule list\n", due_time, current_time);
923 char due_time_r[100] = { 0 };
925 localtime_r(&due_time, &ts_ret);
926 strftime(due_time_r, 30, "%c", &ts_ret);
927 ALARM_MGR_LOG_PRINT("[alarm-server]:Create a new alarm: "
928 "alarm(%d) due_time(%s)", *alarm_id,
932 ALARM_MGR_LOG_PRINT("[alarm-server]:alarm_context.c_due_time(%d), "
933 "due_time(%d)", alarm_context.c_due_time, due_time);
935 if (alarm_context.c_due_time == -1
936 || due_time < alarm_context.c_due_time) {
937 _clear_scheduled_alarm_list();
938 _add_to_scheduled_alarm_list(__alarm_info);
939 _alarm_set_timer(&alarm_context, alarm_context.timer, due_time,
941 alarm_context.c_due_time = due_time;
943 } else if (due_time == alarm_context.c_due_time) {
944 _add_to_scheduled_alarm_list(__alarm_info);
952 if (enable_power_on_alarm) {
953 /* orginally first arg's value was 21(app_id, WAKEUP_ALARM_APP_ID) in a
954 * platform with app-server.because __alarm_power_on(..) fuction don't
955 * use first parameter internally, we set this value to 0(zero)
957 __alarm_power_on(0, enable_power_on_alarm, NULL);
963 static bool __alarm_update(int pid, char *app_service_name, alarm_id_t alarm_id,
964 alarm_info_t *alarm_info, int *error_code)
969 __alarm_info_t *__alarm_info = NULL;
972 __alarm_info = malloc(sizeof(__alarm_info_t));
973 if (__alarm_info == NULL) {
974 ALARM_MGR_EXCEPTION_PRINT("Caution!! app_pid=%d, "
975 "malloc failed. it seems to be OOM\n", pid);
976 *error_code = -1; /*-1 means that system failed
981 __alarm_info->pid = pid;
982 __alarm_info->alarm_id = alarm_id;
984 /* we should consider to check whether pid is running or Not
987 __alarm_info->quark_app_service_name =
988 g_quark_from_string(app_service_name);
989 __alarm_set_start_and_end_time(alarm_info, __alarm_info);
990 memcpy(&(__alarm_info->alarm_info), alarm_info, sizeof(alarm_info_t));
994 if (alarm_context.c_due_time < current_time) {
995 ALARM_MGR_EXCEPTION_PRINT("Caution!! alarm_context.c_due_time "
996 "(%d) is less than current time(%d)", alarm_context.c_due_time,
998 alarm_context.c_due_time = -1;
1001 due_time = _alarm_next_duetime(__alarm_info);
1002 if (!__alarm_update_in_list(pid, alarm_id, __alarm_info, error_code)) {
1004 ALARM_MGR_EXCEPTION_PRINT("[alarm-server]: requested alarm_id "
1005 "(%d) does not exist. so this value is invalid id.", alarm_id);
1008 /* ALARM_MGR_LOG_PRINT("[alarm-server]:request_pid=%d, alarm_id=%d,
1009 * app_unique_name=%s, app_service_name=%s, dst_service_name=%s,
1010 * c_due_time=%d", pid, alarm_id, g_quark_to_string
1011 * (__alarm_info->quark_app_unique_name), g_quark_to_string
1012 * (__alarm_info->quark_app_service_name), g_quark_to_string
1013 * (__alarm_info->quark_dst_service_name), alarm_context.c_due_time);
1016 result = _remove_from_scheduled_alarm_list(pid, alarm_id);
1018 if (result == true && g_slist_length(g_scheduled_alarm_list) == 0) {
1019 /*there is no scheduled alarm */
1020 _alarm_disable_timer(alarm_context);
1023 ALARM_MGR_LOG_PRINT("[alarm-server]:Update alarm: alarm(%d)\n",
1030 if (enable_power_on_alarm) {
1031 /* orginally first arg's value was 21(app_id, WAKEUP_ALARM_APP_ID) in
1032 * a platform with app-server.because __alarm_power_on(..) fuction don't
1033 * use first parameter internally, we set this value to 0(zero)
1035 __alarm_power_on(0, enable_power_on_alarm, NULL);
1039 if (due_time == 0) {
1040 ALARM_MGR_EXCEPTION_PRINT("[alarm-server]:Update alarm: "
1047 if (due_time == 0) {
1048 ALARM_MGR_EXCEPTION_PRINT("[alarm-server]:Update alarm: "
1049 "due_time is 0, alarm(%d)\n", alarm_id);
1052 } else if (current_time == due_time) {
1053 ALARM_MGR_EXCEPTION_PRINT("[alarm-server]:Update alarm: "
1054 "current_time(%d) is same as due_time(%d)", current_time,
1058 }else if (difftime(due_time, current_time)< 0){
1059 ALARM_MGR_EXCEPTION_PRINT("[alarm-server]: Expired Due Time.[Due time=%d, Current Time=%d]!!!Do not add to schedule list\n", due_time, current_time);
1063 char due_time_r[100] = { 0 };
1065 localtime_r(&due_time, &ts_ret);
1066 strftime(due_time_r, 30, "%c", &ts_ret);
1067 ALARM_MGR_LOG_PRINT("[alarm-server]:Update alarm: alarm(%d) "
1068 "due_time(%s)\n", alarm_id, due_time_r);
1071 ALARM_MGR_LOG_PRINT("[alarm-server]:alarm_context.c_due_time(%d), "
1072 "due_time(%d)", alarm_context.c_due_time, due_time);
1074 if (alarm_context.c_due_time == -1
1075 || due_time < alarm_context.c_due_time) {
1076 _clear_scheduled_alarm_list();
1077 _add_to_scheduled_alarm_list(__alarm_info);
1078 _alarm_set_timer(&alarm_context, alarm_context.timer, due_time,
1080 alarm_context.c_due_time = due_time;
1081 ALARM_MGR_LOG_PRINT("[alarm-server1]:alarm_context.c_due_time "
1082 "(%d), due_time(%d)", alarm_context.c_due_time, due_time);
1083 } else if (due_time == alarm_context.c_due_time) {
1084 _add_to_scheduled_alarm_list(__alarm_info);
1085 ALARM_MGR_LOG_PRINT("[alarm-server2]:alarm_context.c_due_time "
1086 "(%d), due_time(%d)", alarm_context.c_due_time, due_time);
1093 if (enable_power_on_alarm) {
1094 /* orginally first arg's value was 21(app_id, WAKEUP_ALARM_APP_ID)
1095 * in a platform with app-server.because __alarm_power_on(..) fuction
1096 * don't use first parameter internally, we set this value to 0(zero)
1098 __alarm_power_on(0, enable_power_on_alarm, NULL);
1106 static bool __alarm_delete(int pid, alarm_id_t alarm_id, int *error_code)
1108 bool result = false;
1110 ALARM_MGR_LOG_PRINT("[alarm-server]:delete alarm: alarm(%d) pid(%d)\n",\
1112 result = _remove_from_scheduled_alarm_list(pid, alarm_id);
1114 if (!__alarm_remove_from_list(pid, alarm_id, error_code)) {
1116 ALARM_MGR_EXCEPTION_PRINT("[alarm-server]:delete alarm: "
1117 "alarm(%d) pid(%d) has failed with error_code(%d)\n",
1118 alarm_id, pid, *error_code);
1122 if (result == true && g_slist_length(g_scheduled_alarm_list) == 0) {
1123 _alarm_disable_timer(alarm_context);
1131 if (enable_power_on_alarm) {
1132 /* orginally first arg's value was 21(app_id, WAKEUP_ALARM_APP_ID) in a
1133 * platform with app-server.because __alarm_power_on(..) fuction don't
1134 * use first parameter internally, we set this value to 0(zero)
1136 __alarm_power_on(0, enable_power_on_alarm, NULL);
1143 static bool __alarm_power_on(int app_id, bool on_off, int *error_code)
1146 time_t min_time = 0;
1147 time_t current_time = 0;
1148 struct rtc_time rtc_tm = { 0, };
1149 struct tm min_time_r = { 0, };
1153 enable_power_on_alarm = on_off;
1154 /*_update_power_on(on_off); */ /*currently its empty*/
1156 fd = open(power_rtc, O_RDONLY);
1158 ALARM_MGR_EXCEPTION_PRINT("cannot open /dev/rtc0\n");
1162 if (on_off == true) {
1163 if (_alarm_find_mintime_power_on(&min_time) == true) {
1165 ab_due_time = min_time;
1167 min_time = min_time - 60;
1169 time(¤t_time);
1171 if (min_time <= current_time)
1172 min_time = current_time + 5;
1174 gmtime_r(&min_time, &min_time_r);
1176 ALARM_MGR_LOG_PRINT("__alarm_power_on : %d %d %d %d "
1178 min_time_r.tm_year,\
1180 min_time_r.tm_mday,\
1181 min_time_r.tm_hour,\
1183 ALARM_MGR_LOG_PRINT("__alarm_power_on : %d %d %d %d "
1185 min_time_r.tm_year,\
1187 min_time_r.tm_mday,\
1188 min_time_r.tm_hour,\
1191 rtc_tm.tm_mday = min_time_r.tm_mday;
1192 rtc_tm.tm_mon = min_time_r.tm_mon;
1193 rtc_tm.tm_year = min_time_r.tm_year;
1194 rtc_tm.tm_hour = min_time_r.tm_hour;
1195 rtc_tm.tm_min = min_time_r.tm_min;
1196 rtc_tm.tm_sec = min_time_r.tm_sec;
1197 /*set_info.time_zone = 0; */
1198 /*set_info.u_interval.day_of_week = 0; */
1200 /*ALARM_MGR_LOG_PRINT("####__alarm_power_on : %d %d
1201 %d %d %d\n",set_info.year,set_info.month,set_info.day,
1202 set_info.hour,set_info.minute); */
1204 ALARM_MGR_LOG_PRINT("due_time : %d \n", ab_due_time);
1206 ALARM_MGR_LOG_PRINT("\n\nSetted RTC Alarm date/time is "
1207 "%d-%d-%d, %02d:%02d:%02d.\n",
1208 rtc_tm.tm_mday, rtc_tm.tm_mon + 1,
1209 rtc_tm.tm_year + 1900, rtc_tm.tm_hour,
1210 rtc_tm.tm_min, rtc_tm.tm_sec);
1212 retval = ioctl(fd, RTC_ALM_SET, &rtc_tm);
1214 if (errno == ENOTTY) {
1215 ALARM_MGR_EXCEPTION_PRINT(
1216 "\n...Alarm IRQs not supported.\n");
1218 ALARM_MGR_EXCEPTION_PRINT("RTC_ALM_SET ioctl");
1222 ALARM_MGR_LOG_PRINT("[alarm-server]RTC "
1223 "alarm(POWER ON) is setted");
1225 /* Enable alarm interrupts */
1226 retval = ioctl(fd, RTC_AIE_ON, 0);
1228 ALARM_MGR_EXCEPTION_PRINT(
1229 "RTC_AIE_ON ioctl failed");
1233 ALARM_MGR_LOG_PRINT("[alarm-server]RTC(POWER ON) "
1237 retval = ioctl(fd, RTC_AIE_OFF, 0);
1239 ALARM_MGR_LOG_PRINT("__alarm_power_on : off\n");
1240 retval = ioctl(fd, RTC_AIE_OFF, 0);
1244 #endif /* #ifdef __ALARM_BOOT */
1249 static bool __alarm_power_off(int app_id, int *error_code)
1253 #endif /* #ifdef __ALARM_BOOT */
1257 static bool __alarm_check_next_duetime(int app_id, int *error_code)
1260 time_t current_time;
1263 time(¤t_time);
1265 interval = ab_due_time - current_time;
1267 ALARM_MGR_LOG_PRINT("due_time : %d / current_time %d\n", ab_due_time,
1270 if (interval > 0 && interval <= 60)
1274 #else /* #ifdef __ALARM_BOOT */
1279 static void __alarm_send_noti_to_application(const char *app_service_name,
1280 alarm_id_t alarm_id)
1284 char service_name[MAX_SERVICE_NAME_LEN];
1285 char object_name[MAX_SERVICE_NAME_LEN];
1287 DBusMessage *message;
1288 DBusMessageIter iter;
1290 if (app_service_name == NULL || strlen(app_service_name) == 0) {
1291 ALARM_MGR_EXCEPTION_PRINT("This alarm destination is "
1295 memset(service_name, 0, MAX_SERVICE_NAME_LEN);
1296 memcpy(service_name, app_service_name, strlen(app_service_name));
1298 snprintf(object_name, MAX_SERVICE_NAME_LEN,
1299 "/org/tizen/alarm/client");
1301 ALARM_MGR_LOG_PRINT("[alarm server][send expired_alarm(alarm_id=%d)to"
1302 "app_service_name(%s), object_name(%s), interface_name(%s)]\n",\
1303 alarm_id, service_name, object_name, "org.tizen.alarm.client");
1305 message = dbus_message_new_method_call(service_name,
1307 "org.tizen.alarm.client",
1309 if (message == NULL) {
1310 ALARM_MGR_EXCEPTION_PRINT("[alarm server] "
1311 "dbus_message_new_method_call faild. maybe OOM!.\n");
1312 ALARM_MGR_EXCEPTION_PRINT("[alarm server] so we cannot "
1313 "send expired alarm to %s\n", service_name);
1317 dbus_message_set_no_reply(message, TRUE);
1318 /* if(service_name[0]==':') */
1319 /* we don't need auto activation in a case that
1320 destination_app_service_name starts with a charactor like (:) */
1321 dbus_message_set_auto_start(message, FALSE);
1323 dbus_message_iter_init_append(message, &iter);
1324 if (!dbus_message_iter_append_basic
1325 (&iter, DBUS_TYPE_INT32, &alarm_id)) {
1326 dbus_message_unref(message);
1327 ALARM_MGR_EXCEPTION_PRINT("[alarm server] "
1328 "dbus_message_iter_append_basic faild. maybe OOM!.\n");
1332 dbus_connection_send(dbus_g_connection_get_connection
1333 (alarm_context.bus), message, NULL);
1334 dbus_connection_flush(dbus_g_connection_get_connection
1335 (alarm_context.bus));
1336 dbus_message_unref(message);
1340 static void __alarm_expired()
1342 const char *destination_app_service_name = NULL;
1343 alarm_id_t alarm_id = -1;
1345 __alarm_info_t *__alarm_info = NULL;
1346 char alarm_id_val[32]={0,};
1350 ALARM_MGR_LOG_PRINT("[alarm-server]: Enter \n");
1352 time_t current_time;
1355 time(¤t_time);
1357 interval = difftime(alarm_context.c_due_time, current_time);
1358 ALARM_MGR_LOG_PRINT("[alarm-server]: c_due_time(%d), "
1359 "current_time(%d), interval(%d)\n", alarm_context.c_due_time,
1360 current_time, interval);
1362 if (alarm_context.c_due_time > current_time) {
1363 ALARM_MGR_LOG_PRINT("[alarm-server]: False Alarm\n");
1367 GSList *iter = NULL;
1368 __scheduled_alarm_t *alarm = NULL;
1370 for (iter = g_scheduled_alarm_list; iter != NULL;
1371 iter = g_slist_next(iter)) {
1373 alarm_id = alarm->alarm_id;
1375 __alarm_info = alarm->__alarm_info;
1377 app_pid = __alarm_info->pid;
1380 (g_quark_to_string(__alarm_info->quark_bundle),
1383 b_len = strlen(g_quark_to_string(__alarm_info->quark_bundle));
1385 b = bundle_decode((bundle_raw *)g_quark_to_string(__alarm_info->quark_bundle), b_len);
1389 ALARM_MGR_EXCEPTION_PRINT("Error!!!..Unable to decode the bundle!!\n");
1393 snprintf(alarm_id_val,31,"%d",alarm_id);
1395 if (bundle_add(b,"http://tizen.org/appcontrol/data/alarm_id", alarm_id_val)){
1396 ALARM_MGR_EXCEPTION_PRINT("Unable to add alarm id to the bundle\n");
1400 if ( appsvc_run_service(b, 0, NULL, NULL) < 0)
1402 ALARM_MGR_EXCEPTION_PRINT("Unable to run app svc\n");
1406 ALARM_MGR_LOG_PRINT("Successfuly ran app svc\n");
1416 (g_quark_to_string(__alarm_info->quark_dst_service_name),
1418 ALARM_MGR_LOG_PRINT("[alarm-server]:destination is "
1419 "null, so we send expired alarm to %s(%u)\n",\
1421 __alarm_info->quark_app_service_name),
1422 __alarm_info->quark_app_service_name);
1423 destination_app_service_name = g_quark_to_string(
1424 __alarm_info->quark_app_service_name_mod);
1426 ALARM_MGR_LOG_PRINT("[alarm-server]:destination "
1429 __alarm_info->quark_dst_service_name),
1430 __alarm_info->quark_dst_service_name);
1431 destination_app_service_name = g_quark_to_string(
1432 __alarm_info->quark_dst_service_name_mod);
1436 /* orginally this code had if(__alarm_info->app_id==21) in a
1437 platform with app-server. */
1438 /*if(__alarm_info->quark_dst_service_name ==
1439 g_quark_from_string (WAKEUP_ALARM_APP_ID)) */
1441 (g_quark_to_string(__alarm_info->quark_dst_service_name),
1442 WAKEUP_ALARM_APP_ID) == 0) {
1444 fd = open(power_rtc, O_RDONLY);
1446 ALARM_MGR_LOG_PRINT("cannot open /dev/rtc0\n");
1448 ioctl(fd, RTC_AIE_OFF, 0);
1455 * we should consider a situation that
1456 * destination_app_service_name is owner_name like (:xxxx) and
1457 * application's pid which registered this alarm was killed.In that case,
1458 * we don't need to send the expire event because the process was killed.
1459 * this causes needless message to be sent.
1461 ALARM_MGR_LOG_PRINT("[alarm-server]: "
1462 "destination_app_service_name :%s, app_pid=%d\n",
1463 destination_app_service_name, app_pid);
1464 /* the following is a code that checks the above situation.
1465 please verify this code. */
1467 if (dbus_bus_name_has_owner(
1468 dbus_g_connection_get_connection(alarm_context.bus),
1469 destination_app_service_name, NULL) == FALSE) {
1470 __expired_alarm_t *expire_info;
1471 char appid[MAX_SERVICE_NAME_LEN] = { 0, };
1472 char alarm_id_str[32] = { 0, };
1474 expire_info = malloc(sizeof(__expired_alarm_t));
1475 if (G_UNLIKELY(NULL == expire_info)){
1476 ALARM_MGR_ASSERT_PRINT("[alarm-server]:Malloc failed!Can't notify alarm expiry info\n");
1479 memset(expire_info, '\0', MAX_SERVICE_NAME_LEN);
1480 strncpy(expire_info->service_name,
1481 destination_app_service_name,
1482 MAX_SERVICE_NAME_LEN-1);
1483 expire_info->alarm_id = alarm_id;
1484 g_expired_alarm_list =
1485 g_slist_append(g_expired_alarm_list, expire_info);
1489 (g_quark_to_string(__alarm_info->quark_dst_service_name),
1491 strncpy(appid,g_quark_to_string(__alarm_info->quark_app_service_name),strlen(g_quark_to_string(__alarm_info->quark_app_service_name))-6);
1495 strncpy(appid,g_quark_to_string(__alarm_info->quark_dst_service_name),strlen(g_quark_to_string(__alarm_info->quark_dst_service_name))-6);
1498 snprintf(alarm_id_str, 31, "%d", alarm_id);
1500 ALARM_MGR_LOG_PRINT("before aul_launch appid(%s) "
1501 "alarm_id_str(%s)\n", appid, alarm_id_str);
1504 kb = bundle_create();
1505 bundle_add(kb, "__ALARM_MGR_ID", alarm_id_str);
1506 aul_launch_app(appid, kb);
1509 ALARM_MGR_LOG_PRINT(
1510 "before alarm_send_noti_to_application\n");
1511 __alarm_send_noti_to_application(
1512 destination_app_service_name, alarm_id);
1515 ALARM_MGR_LOG_PRINT("after __alarm_send_noti_to_application\n");
1517 /* if( !(__alarm_info->alarm_info.alarm_type
1518 & ALARM_TYPE_VOLATILE) ) {
1519 __alarm_remove_from_list(__alarm_info->pid,
1523 if (__alarm_info->alarm_info.mode.repeat
1524 == ALARM_REPEAT_MODE_ONCE) {
1525 /* _alarm_next_duetime(__alarm_info);*/
1526 /* _update_alarms(__alarm_info);*/
1527 __alarm_remove_from_list(__alarm_info->pid, alarm_id,
1531 _alarm_next_duetime(__alarm_info);
1532 /* _update_alarms(__alarm_info);*/
1538 _clear_scheduled_alarm_list();
1539 alarm_context.c_due_time = -1;
1541 ALARM_MGR_LOG_PRINT("[alarm-server]: Leave \n");
1544 static gboolean __alarm_handler_idle()
1546 if (g_dummy_timer_is_set == true) {
1547 ALARM_MGR_LOG_PRINT("dummy alarm timer has expired\n");
1549 ALARM_MGR_LOG_PRINT("__alarm_handler \n");
1550 ALARM_MGR_LOG_PRINT("__alarm_handler \n");
1562 if (enable_power_on_alarm) {
1563 /* orginally first arg's value was 21(app_id, WAKEUP_ALARM_APP_ID)
1564 *in a platform with app-server.because __alarm_power_on(..) fuction
1565 *don't use first parameter internally, we set this value to 0(zero)
1567 __alarm_power_on(0, enable_power_on_alarm, NULL);
1570 pm_unlock_state(LCD_OFF, PM_SLEEP_MARGIN);
1575 static void __alarm_handler(int sigNum, siginfo_t *pSigInfo, void *pUContext)
1578 pm_lock_state(LCD_OFF, STAY_CUR_STATE, 0);
1580 /* we moved __alarm_expired() function to __alarm_handler_idle GSource
1581 because of signal safety. */
1582 g_idle_add_full(G_PRIORITY_HIGH_IDLE, __alarm_handler_idle, NULL, NULL);
1585 static void __clean_registry()
1588 /*TODO:remove all db entries */
1591 static bool __alarm_manager_reset()
1594 _alarm_disable_timer(alarm_context);
1596 __alarm_clean_list();
1598 _clear_scheduled_alarm_list();
1604 static void __on_system_time_changed(keynode_t *node, void *data)
1610 _alarm_disable_timer(alarm_context);
1613 _time = vconf_keynode_get_int(node);
1615 vconf_get_int(VCONFKEY_SYSTEM_TIMECHANGE, (int *)&_time);
1619 diff_time = difftime(_time, before);
1623 ALARM_MGR_ASSERT_PRINT("diff_time is %f\n", diff_time);
1625 ALARM_MGR_LOG_PRINT("[alarm-server] System time has been changed\n");
1626 ALARM_MGR_LOG_PRINT("1.alarm_context.c_due_time is %d\n",
1627 alarm_context.c_due_time);
1631 vconf_set_dbl(VCONFKEY_SYSTEM_TIMEDIFF, diff_time);
1632 vconf_set_int(VCONFKEY_SYSTEM_TIME_CHANGED,(int)diff_time);
1634 __alarm_update_due_time_of_all_items_in_list(diff_time);
1636 ALARM_MGR_LOG_PRINT("2.alarm_context.c_due_time is %d\n",
1637 alarm_context.c_due_time);
1638 _clear_scheduled_alarm_list();
1643 if (enable_power_on_alarm) {
1644 /* orginally first arg's value was 21(app_id, WAKEUP_ALARM_
1645 APP_ID) in a platform with app-server. because _alarm_power_
1646 on(..) fuction don't use first parameter internally, we set
1647 this value to 0(zero)
1649 __alarm_power_on(0, enable_power_on_alarm, NULL);
1655 gboolean alarm_manager_alarm_set_rtc_time(void *pObject, int pid,
1656 int year, int mon, int day,
1657 int hour, int min, int sec, char *e_cookie,
1659 guchar *cookie = NULL;
1662 gboolean result = true;
1665 const char *rtc = power_rtc;
1667 struct rtc_time rtc_tm = {0,};
1668 struct rtc_wkalrm rtc_wk;
1669 struct tm *alarm_tm = NULL;
1670 struct tm due_tm = {0,};
1674 *return_code = ALARMMGR_RESULT_SUCCESS;
1677 cookie = g_base64_decode(e_cookie, &size);
1681 *return_code = ERR_ALARM_NO_PERMISSION;
1682 ALARM_MGR_EXCEPTION_PRINT("Unable to decode cookie!!!\n");
1686 call_gid = security_server_get_gid("alarm");
1688 ALARM_MGR_LOG_PRINT("call_gid : %d\n", call_gid);
1690 retval = security_server_check_privilege((const char *)cookie, call_gid);
1692 if (retval == SECURITY_SERVER_API_ERROR_ACCESS_DENIED) {
1693 ALARM_MGR_EXCEPTION_PRINT(
1694 "%s", "access has been denied\n");
1696 ALARM_MGR_EXCEPTION_PRINT("Error has occurred in security_server_check_privilege()\n");
1698 *return_code = ERR_ALARM_NO_PERMISSION;
1702 /*extract day of the week, day in the year &
1703 daylight saving time from system*/
1706 alarm_tm = localtime(&ctime);
1708 alarm_tm->tm_year = year;
1709 alarm_tm->tm_mon = mon;
1710 alarm_tm->tm_mday = day;
1711 alarm_tm->tm_hour = hour;
1712 alarm_tm->tm_min = min;
1713 alarm_tm->tm_sec = sec;
1715 /*convert to calendar time representation*/
1716 time_t rtc_time = mktime(alarm_tm);
1718 /*convert to Coordinated Universal Time (UTC)*/
1719 gmtime_r(&rtc_time, &due_tm);
1721 fd = open(rtc, O_RDONLY);
1723 ALARM_MGR_EXCEPTION_PRINT("RTC open failed.\n");
1725 *return_code = ERR_ALARM_SYSTEM_FAIL;
1729 /* Read the RTC time/date */
1730 retval = ioctl(fd, RTC_RD_TIME, &rtc_tm);
1732 ALARM_MGR_EXCEPTION_PRINT("RTC_RD_TIME ioctl failed");
1735 *return_code = ERR_ALARM_SYSTEM_FAIL;
1739 rtc_tm.tm_mday = due_tm.tm_mday;
1740 rtc_tm.tm_mon = due_tm.tm_mon;
1741 rtc_tm.tm_year = due_tm.tm_year;
1742 rtc_tm.tm_hour = due_tm.tm_hour;
1743 rtc_tm.tm_min = due_tm.tm_min;
1744 rtc_tm.tm_sec = due_tm.tm_sec;
1746 memcpy(&rtc_wk.time, &rtc_tm, sizeof(rtc_tm));
1751 retval = ioctl(fd, RTC_WKALM_BOOT_SET, &rtc_wk);
1753 if (errno == ENOTTY) {
1754 ALARM_MGR_EXCEPTION_PRINT("\nAlarm IRQs not"
1757 ALARM_MGR_EXCEPTION_PRINT("RTC_ALM_SET ioctl");
1760 *return_code = ERR_ALARM_SYSTEM_FAIL;
1763 ALARM_MGR_LOG_PRINT("[alarm-server]RTC alarm is setted");
1764 /* Enable alarm interrupts */
1765 retval = ioctl(fd, RTC_AIE_ON, 0);
1767 ALARM_MGR_EXCEPTION_PRINT("RTC_AIE_ON ioctl failed");
1769 *return_code = ERR_ALARM_SYSTEM_FAIL;
1784 gboolean alarm_manager_alarm_create_appsvc(void *pObject, int pid,
1786 int start_month, int start_day,
1787 int start_hour, int start_min,
1788 int start_sec, int end_year, int end_month,
1789 int end_day, int mode_day_of_week,
1790 int mode_repeat, int alarm_type,
1792 char *bundle_data, char *e_cookie,
1793 int *alarm_id, int *return_code)
1795 alarm_info_t alarm_info;
1796 guchar *cookie = NULL;
1800 gboolean result = true;
1802 alarm_info.start.year = start_year;
1803 alarm_info.start.month = start_month;
1804 alarm_info.start.day = start_day;
1805 alarm_info.start.hour = start_hour;
1806 alarm_info.start.min = start_min;
1807 alarm_info.start.sec = start_sec;
1809 alarm_info.end.year = end_year;
1810 alarm_info.end.month = end_month;
1811 alarm_info.end.day = end_day;
1813 alarm_info.mode.u_interval.day_of_week = mode_day_of_week;
1814 alarm_info.mode.repeat = mode_repeat;
1816 alarm_info.alarm_type = alarm_type;
1817 alarm_info.reserved_info = reserved_info;
1821 cookie = g_base64_decode(e_cookie, &size);
1825 ALARM_MGR_EXCEPTION_PRINT("Unable to decode cookie!!!\n");
1829 call_gid = security_server_get_gid("alarm");
1831 ALARM_MGR_LOG_PRINT("call_gid : %d\n", call_gid);
1833 retval = security_server_check_privilege((const char *)cookie, call_gid);
1835 if (retval == SECURITY_SERVER_API_ERROR_ACCESS_DENIED) {
1836 ALARM_MGR_EXCEPTION_PRINT(
1837 "%s", "access has been denied\n");
1839 ALARM_MGR_EXCEPTION_PRINT("Error has occurred in security_server_check_privilege()\n");
1844 result = __alarm_create_appsvc(&alarm_info, alarm_id, pid,
1845 bundle_data, return_code);
1846 if (false == result)
1848 ALARM_MGR_EXCEPTION_PRINT("Unable to create alarm!\n");
1860 gboolean alarm_manager_alarm_create(void *pObject, int pid,
1861 char *app_service_name, char *app_service_name_mod, int start_year,
1862 int start_month, int start_day,
1863 int start_hour, int start_min,
1864 int start_sec, int end_year, int end_month,
1865 int end_day, int mode_day_of_week,
1866 int mode_repeat, int alarm_type,
1868 char *reserved_service_name, char *reserved_service_name_mod, char *e_cookie,
1869 int *alarm_id, int *return_code)
1871 alarm_info_t alarm_info;
1877 alarm_info.start.year = start_year;
1878 alarm_info.start.month = start_month;
1879 alarm_info.start.day = start_day;
1880 alarm_info.start.hour = start_hour;
1881 alarm_info.start.min = start_min;
1882 alarm_info.start.sec = start_sec;
1884 alarm_info.end.year = end_year;
1885 alarm_info.end.month = end_month;
1886 alarm_info.end.day = end_day;
1888 alarm_info.mode.u_interval.day_of_week = mode_day_of_week;
1889 alarm_info.mode.repeat = mode_repeat;
1891 alarm_info.alarm_type = alarm_type;
1892 alarm_info.reserved_info = reserved_info;
1896 cookie = g_base64_decode(e_cookie, &size);
1897 call_gid = security_server_get_gid("alarm");
1899 ALARM_MGR_LOG_PRINT("call_gid : %d\n", call_gid);
1901 retval = security_server_check_privilege((const char *)cookie, call_gid);
1903 if (retval == SECURITY_SERVER_API_ERROR_ACCESS_DENIED) {
1904 ALARM_MGR_EXCEPTION_PRINT(
1905 "%s", "access has been denied\n");
1907 ALARM_MGR_EXCEPTION_PRINT("%s", "Error has occurred\n");
1913 /* return valule and return_code should be checked */
1914 __alarm_create(&alarm_info, alarm_id, pid, app_service_name,app_service_name_mod,
1915 reserved_service_name, reserved_service_name_mod, return_code);
1923 gboolean alarm_manager_alarm_delete(void *pObject, int pid, alarm_id_t alarm_id,
1924 char *e_cookie, int *return_code)
1931 cookie = g_base64_decode(e_cookie, &size);
1932 call_gid = security_server_get_gid("alarm");
1934 ALARM_MGR_LOG_PRINT("call_gid : %d\n", call_gid);
1936 retval = security_server_check_privilege((const char *)cookie, call_gid);
1938 if (retval == SECURITY_SERVER_API_ERROR_ACCESS_DENIED) {
1939 ALARM_MGR_EXCEPTION_PRINT("%s",
1940 "access has been denied\n");
1942 ALARM_MGR_EXCEPTION_PRINT("%s", "Error has occurred\n");
1948 __alarm_delete(pid, alarm_id, return_code);
1956 gboolean alarm_manager_alarm_power_on(void *pObject, int pid, bool on_off,
1960 return __alarm_power_on(pid, on_off, return_code);
1963 gboolean alarm_manager_alarm_power_off(void *pObject, int pid, int *return_code)
1966 return __alarm_power_off(pid, return_code);
1969 bool alarm_manager_alarm_check_next_duetime(void *pObject, int pid,
1972 return __alarm_check_next_duetime(pid, return_code);
1975 gboolean alarm_manager_alarm_update(void *pObject, int pid,
1976 char *app_service_name, alarm_id_t alarm_id,
1977 int start_year, int start_month,
1978 int start_day, int start_hour,
1979 int start_min, int start_sec, int end_year,
1980 int end_month, int end_day,
1981 int mode_day_of_week, int mode_repeat,
1982 int alarm_type, int reserved_info,
1985 alarm_info_t alarm_info;
1986 alarm_info.start.year = start_year;
1987 alarm_info.start.month = start_month;
1988 alarm_info.start.day = start_day;
1989 alarm_info.start.hour = start_hour;
1990 alarm_info.start.min = start_min;
1991 alarm_info.start.sec = start_sec;
1993 alarm_info.end.year = end_year;
1994 alarm_info.end.month = end_month;
1995 alarm_info.end.day = end_day;
1997 alarm_info.mode.u_interval.day_of_week = mode_day_of_week;
1998 alarm_info.mode.repeat = mode_repeat;
2000 alarm_info.alarm_type = alarm_type;
2001 alarm_info.reserved_info = reserved_info;
2005 __alarm_update(pid, app_service_name, alarm_id, &alarm_info,
2011 gboolean alarm_manager_alarm_get_number_of_ids(void *pObject, int pid,
2015 GSList *gs_iter = NULL;
2016 GQuark quark_app_unique_name; /* the fullpath of pid(pid) is
2017 converted to quark value. */
2018 char proc_file[256] = { 0 };
2019 char process_name[512] = { 0 };
2020 char app_name[256] = { 0 };
2022 __alarm_info_t *entry = NULL;
2023 char *proc_name_ptr = NULL;
2028 /* we should consider to check whether pid is running or Not
2030 memset(process_name, '\0', 512);
2031 memset(proc_file, '\0', 256);
2032 snprintf(proc_file, 256, "/proc/%d/cmdline", pid);
2037 fd = open(proc_file, O_RDONLY);
2038 if (fd < 0) { /* failure */
2039 quark_app_unique_name = g_quark_from_string("unknown");
2040 memcpy(app_name, "unknown", strlen("unknown") + 1);
2042 ALARM_MGR_EXCEPTION_PRINT("Caution!! app_pid(%d) seems to be "
2043 "killed, so we failed to get proc file(%s) \n",
2045 *return_code = -1; /* -1 means that system
2046 failed internally. */
2049 ret = read(fd, process_name, 512);
2051 while (process_name[i] != '\0') {
2052 if (process_name[i] == ' ') {
2053 process_name[i] = '\0';
2058 /*if (readlink(proc_file, process_name, 256)!=-1) */
2061 word = strtok_r(process_name, "/", &proc_name_ptr);
2062 while (word != NULL) {
2063 memset(app_name, 0, 256);
2064 snprintf(app_name, 256, "%s", word);
2065 word = strtok_r(NULL, "/", &proc_name_ptr);
2067 quark_app_unique_name = g_quark_from_string(app_name);
2070 ALARM_MGR_LOG_PRINT("called for app(pid:%d, name=%s)\n",
2073 for (gs_iter = alarm_context.alarms; gs_iter != NULL;
2074 gs_iter = g_slist_next(gs_iter)) {
2075 entry = gs_iter->data;
2076 ALARM_MGR_LOG_PRINT("alarm_manager_alarm_get_number_of_ids(): "
2077 "app_name=%s,quark_app_unique_name=%s\n",
2078 app_name, g_quark_to_string(entry->quark_app_unique_name));
2081 g_quark_to_string(entry->quark_app_unique_name)) == 0
2082 && strcmp(app_name, "unknown") != 0) {
2084 ALARM_MGR_LOG_PRINT("inc number of alarms of app "
2085 "(pid:%d, name:%s) is %d\n",
2086 pid, app_name, *num_of_ids);
2090 ALARM_MGR_LOG_PRINT("number of alarms of app(pid:%d, name:%s) is %d\n",
2091 pid, app_name, *num_of_ids);
2095 gboolean alarm_manager_alarm_get_list_of_ids(void *pObject, int pid,
2096 int max_number_of_ids,
2097 GArray **arr, int *num_of_ids,
2100 GSList *gs_iter = NULL;
2101 GQuark quark_app_unique_name; /* the fullpath of pid(pid) is converted
2103 char proc_file[256] = { 0 };
2104 char process_name[512] = { 0 };
2105 char app_name[256] = { 0 };
2107 __alarm_info_t *entry = NULL;
2109 char *proc_name_ptr = NULL;
2113 GArray *garray = NULL;
2117 garray = g_array_new(false, true, sizeof(alarm_id_t));
2119 /* we should check that there is a resource leak.
2120 * Now we don't have free code for g_array_new().
2122 if (max_number_of_ids <= 0) {
2124 ALARM_MGR_EXCEPTION_PRINT("called for pid(%d), but "
2125 "max_number_of_ids(%d) is less than 0.\n",
2126 pid, max_number_of_ids);
2130 /* we should consider to check whether pid is running or Not
2132 memset(process_name, '\0', 512);
2133 memset(proc_file, '\0', 256);
2134 snprintf(proc_file, 256, "/proc/%d/cmdline", pid);
2136 fd = open(proc_file, O_RDONLY);
2137 if (fd < 0) { /* failure */
2138 quark_app_unique_name = g_quark_from_string("unknown");
2139 memcpy(app_name, "unknown", strlen("unknown") + 1);
2141 ALARM_MGR_EXCEPTION_PRINT("Caution!! app_pid(%d) seems to be "
2142 "killed, so we failed to get proc file(%s)\n", pid, proc_file);
2144 /* -1 means that system failed internally. */
2147 ret = read(fd, process_name, 512);
2149 while (process_name[i] != '\0') {
2150 if (process_name[i] == ' ') {
2151 process_name[i] = '\0';
2156 /* if (readlink(proc_file, process_name, 256)!=-1) */
2159 word = strtok_r(process_name, "/", &proc_name_ptr);
2160 while (word != NULL) {
2161 memset(app_name, 0, 256);
2162 snprintf(app_name, 256, "%s", word);
2163 word = strtok_r(NULL, "/", &proc_name_ptr);
2165 quark_app_unique_name = g_quark_from_string(app_name);
2168 ALARM_MGR_LOG_PRINT("called for app(pid:%d, name=%s)\n",
2171 for (gs_iter = alarm_context.alarms; gs_iter != NULL;
2172 gs_iter = g_slist_next(gs_iter)) {
2173 entry = gs_iter->data;
2176 g_quark_to_string(entry->quark_app_unique_name)) == 0
2177 && strcmp(app_name, "unknown") != 0) {
2178 g_array_append_val(garray, entry->alarm_id);
2182 *num_of_ids = index;
2189 gboolean alarm_manager_alarm_get_appsvc_info(void *pObject, int pid, alarm_id_t alarm_id,
2190 char *e_cookie, gchar **b_data, int *return_code)
2194 GSList *gs_iter = NULL;
2195 __alarm_info_t *entry = NULL;
2197 guchar *cookie = NULL;
2202 ALARM_MGR_LOG_PRINT("called for pid(%d) and alarm_id(%d)\n", pid,
2205 cookie = g_base64_decode(e_cookie, &size);
2209 *return_code = ERR_ALARM_SYSTEM_FAIL;
2210 ALARM_MGR_EXCEPTION_PRINT("Unable to decode cookie!!!\n");
2213 call_gid = security_server_get_gid("alarm");
2215 ALARM_MGR_LOG_PRINT("call_gid : %d\n", call_gid);
2217 retval = security_server_check_privilege((const char *)cookie, call_gid);
2219 if (retval == SECURITY_SERVER_API_ERROR_ACCESS_DENIED) {
2220 ALARM_MGR_EXCEPTION_PRINT(
2221 "%s", "access has been denied\n");
2223 ALARM_MGR_EXCEPTION_PRINT("%s", "Error has occurred\n");
2226 *return_code = ERR_ALARM_NO_PERMISSION;
2237 for (gs_iter = alarm_context.alarms; gs_iter != NULL;
2238 gs_iter = g_slist_next(gs_iter)) {
2239 entry = gs_iter->data;
2240 if (entry->alarm_id == alarm_id) {
2242 *b_data = g_strdup(g_quark_to_string(entry->quark_bundle));
2248 if ( *b_data && strlen(*b_data) == 4 && strncmp(*b_data,"null",4) == 0){
2249 ALARM_MGR_EXCEPTION_PRINT("Regular alarm,not svc alarm");
2251 *return_code = ERR_ALARM_INVALID_TYPE;
2255 *return_code = ERR_ALARM_INVALID_ID;
2264 gboolean alarm_manager_alarm_get_info(void *pObject, int pid,
2265 alarm_id_t alarm_id, int *start_year,
2266 int *start_month, int *start_day,
2267 int *start_hour, int *start_min,
2268 int *start_sec, int *end_year,
2269 int *end_month, int *end_day,
2270 int *mode_day_of_week, int *mode_repeat,
2271 int *alarm_type, int *reserved_info,
2274 ALARM_MGR_LOG_PRINT("called for pid(%d) and alarm_id(%d)\n", pid,
2277 GSList *gs_iter = NULL;
2278 __alarm_info_t *entry = NULL;
2280 alarm_info_t *alarm_info = NULL;
2283 for (gs_iter = alarm_context.alarms; gs_iter != NULL;
2284 gs_iter = g_slist_next(gs_iter)) {
2285 entry = gs_iter->data;
2286 if (entry->alarm_id == alarm_id) {
2287 alarm_info = &(entry->alarm_info);
2292 if (alarm_info == NULL)
2294 ALARM_MGR_EXCEPTION_PRINT("alarm id(%d) was not found\n",
2296 *return_code = ERR_ALARM_INVALID_ID;
2298 ALARM_MGR_LOG_PRINT("alarm was found\n");
2299 *start_year = alarm_info->start.year;
2300 *start_month = alarm_info->start.month;
2301 *start_day = alarm_info->start.day;
2302 *start_hour = alarm_info->start.hour;
2303 *start_min = alarm_info->start.min;
2304 *start_sec = alarm_info->start.sec;
2306 *end_year = alarm_info->end.year;
2307 *end_year = alarm_info->end.month;
2308 *end_year = alarm_info->end.day;
2310 *mode_day_of_week = alarm_info->mode.u_interval.day_of_week;
2311 *mode_repeat = alarm_info->mode.repeat;
2313 *alarm_type = alarm_info->alarm_type;
2314 *reserved_info = alarm_info->reserved_info;
2321 #include "alarm-skeleton.h"
2323 typedef struct AlarmManagerObject AlarmManagerObject;
2324 typedef struct AlarmManagerObjectClass AlarmManagerObjectClass;
2325 GType Server_Object_get_type(void);
2326 struct AlarmManagerObject {
2329 struct AlarmManagerObjectClass {
2330 GObjectClass parent;
2333 #define DBUS_NAME_FLAG_PROHIBIT_REPLACEMENT 0
2335 #define ALARM_MANAGER_TYPE_OBJECT (Server_Object_get_type())
2336 #define ALARM_MANAGER_OBJECT(object) (G_TYPE_CHECK_INSTANCE_CAST \
2337 ((object), ALARM_MANAGER_TYPE_OBJECT, AlarmManagerObject))
2338 #define ALARM_MANAGER_OBJECT_CLASS(klass) (G_TYPE_CHECK_CLASS_CAST \
2339 ((klass), ALARM_MANAGER_TYPE_OBJECT, AlarmManagerObjectClass))
2340 #define ALARM_MANAGER_IS_OBJECT(object) (G_TYPE_CHECK_INSTANCE_TYPE \
2341 ((object), ALARM_MANAGER_TYPE_OBJECT))
2342 #define ALARM_MANAGER_IS_OBJECT_CLASS(klass) (G_TYPE_CHECK_CLASS_TYPE \
2343 ((klass), ALARM_MANAGER_TYPE_OBJECT))
2344 #define ALARM_MANAGER_OBJECT_GET_CLASS(obj) (G_TYPE_INSTANCE_GET_CLASS \
2345 ((obj), ALARM_MANAGER_TYPE_OBJECT, AlarmManagerObjectClass))
2346 G_DEFINE_TYPE(AlarmManagerObject, Server_Object, G_TYPE_OBJECT)
2347 static void Server_Object_init(AlarmManagerObject * obj)
2352 static void Server_Object_class_init(AlarmManagerObjectClass *klass)
2357 static void __initialize_timer()
2359 struct sigaction sig_timer;
2360 sigemptyset(&sig_timer.sa_mask);
2361 sig_timer.sa_flags = SA_SIGINFO;
2362 sig_timer.sa_sigaction = (void *)__alarm_handler;
2363 sigaction(SIG_TIMER, &sig_timer, NULL);
2365 alarm_context.timer = _alarm_create_timer();
2369 static void __initialize_alarm_list()
2372 alarm_context.alarms = NULL;
2373 alarm_context.c_due_time = -1;
2375 _load_alarms_from_registry();
2377 __rtc_set(); /*Set RTC1 Alarm with alarm due time for alarm-manager initialization*/
2382 if (enable_power_on_alarm) {
2383 /* orginally first arg's value was 21(app_id, WAKEUP_ALARM_APP_ID) in a
2384 * platform with app-server. because __alarm_power_on(..) fuction don't
2385 * use first parameter internally, we set this value to 0(zero)
2387 __alarm_power_on(0, enable_power_on_alarm, NULL);
2392 static void __initialize_scheduled_alarm_lsit()
2394 _init_scheduled_alarm_list();
2398 static void __hibernation_leave_callback()
2401 __initialize_scheduled_alarm_lsit();
2403 __alarm_clean_list();
2405 __initialize_alarm_list();
2408 static bool __initialize_noti()
2411 int fd = heynoti_init();
2413 ALARM_MGR_EXCEPTION_PRINT("fail to heynoti_init\n");
2416 heynoti_subscribe(fd, "HIBERNATION_LEAVE", __hibernation_leave_callback,
2418 ret = heynoti_attach_handler(fd);
2420 ALARM_MGR_EXCEPTION_PRINT("heynoti_attach_handler fail");
2423 if (vconf_notify_key_changed
2424 (VCONFKEY_SYSTEM_TIMECHANGE, __on_system_time_changed, NULL) < 0) {
2425 ALARM_MGR_LOG_PRINT(
2426 "Failed to add callback for time changing event\n");
2428 /*system state change noti ó¸® */
2434 static DBusHandlerResult __alarm_server_filter(DBusConnection *connection,
2435 DBusMessage *message,
2439 if (dbus_message_is_signal
2440 (message, DBUS_INTERFACE_DBUS, "NameOwnerChanged")) {
2445 __expired_alarm_t *expire_info;
2447 dbus_message_get_args(message,
2449 DBUS_TYPE_STRING, &service,
2450 DBUS_TYPE_STRING, &old_owner,
2451 DBUS_TYPE_STRING, &new_owner,
2454 for (entry = g_expired_alarm_list; entry; entry = entry->next) {
2456 expire_info = (__expired_alarm_t *) entry->data;
2458 if (strcmp(expire_info->service_name, service)
2460 ALARM_MGR_EXCEPTION_PRINT(
2461 "__alarm_server_filter : "
2462 "service name(%s) alarm_id (%d)\n",
2463 expire_info->service_name,\
2464 expire_info->alarm_id);
2466 __alarm_send_noti_to_application(
2467 expire_info->service_name,
2468 expire_info->alarm_id);
2469 g_expired_alarm_list =
2470 g_slist_remove(g_expired_alarm_list,
2477 return DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
2480 return DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
2483 static bool __initialize_dbus()
2485 GError *error = NULL;
2486 GObject *obj = NULL;
2487 DBusGConnection *connection = NULL;
2489 int request_name_result = 0;
2491 dbus_g_object_type_install_info(ALARM_MANAGER_TYPE_OBJECT,
2492 &dbus_glib_alarm_manager_object_info);
2494 connection = dbus_g_bus_get(DBUS_BUS_SYSTEM, &error);
2497 ALARM_MGR_EXCEPTION_PRINT("dbus_g_bus_get failed\n");
2501 dbus_error_init(&derror);
2503 request_name_result =
2504 dbus_bus_request_name(dbus_g_connection_get_connection(connection),
2505 "org.tizen.alarm.manager",
2506 DBUS_NAME_FLAG_PROHIBIT_REPLACEMENT, &derror);
2507 if (dbus_error_is_set(&derror)) { /* failure */
2508 ALARM_MGR_EXCEPTION_PRINT("Failed to dbus_bus_request_name "
2509 "(org.tizen.alarm.manager): %s\n", derror.message);
2510 dbus_error_free(&derror);
2514 if (!(obj = g_object_new(ALARM_MANAGER_TYPE_OBJECT, NULL))) {
2515 ALARM_MGR_EXCEPTION_PRINT("Could not allocate new object\n");
2519 dbus_g_connection_register_g_object(connection,
2520 "/org/tizen/alarm/manager",
2523 /*dbus_bus_add_match (dbus_g_connection_get_connection(connection),
2524 "type='signal',member='NameOwnerChanged'",NULL); */
2526 dbus_bus_add_match(dbus_g_connection_get_connection(connection),
2527 "type='signal',sender='" DBUS_SERVICE_DBUS
2528 "',path='" DBUS_PATH_DBUS
2529 "',interface='" DBUS_INTERFACE_DBUS
2530 "',member='NameOwnerChanged'", NULL);
2532 if (!dbus_connection_add_filter
2533 (dbus_g_connection_get_connection(connection),
2534 __alarm_server_filter, NULL, NULL)) {
2535 ALARM_MGR_EXCEPTION_PRINT("add __expire_alarm_filter failed\n");
2540 alarm_context.bus = connection;
2544 #define ALARMMGR_DB_FILE "/opt/dbspace/.alarmmgr.db"
2545 sqlite3 *alarmmgr_db;
2546 #define QUERY_CREATE_TABLE_ALARMMGR "create table alarmmgr \
2547 (alarm_id integer primary key,\
2551 app_unique_name text,\
2552 app_service_name text,\
2553 app_service_name_mod text,\
2561 day_of_week integer,\
2563 alarm_type integer,\
2564 reserved_info integer,\
2565 dst_service_name text, \
2566 dst_service_name_mod text \
2569 static bool __initialize_db()
2571 char *error_message = NULL;
2574 if (access("/opt/dbspace/.alarmmgr.db", F_OK) == 0) {
2576 db_util_open(ALARMMGR_DB_FILE, &alarmmgr_db,
2577 DB_UTIL_REGISTER_HOOK_METHOD);
2579 if (ret != SQLITE_OK) {
2580 ALARM_MGR_EXCEPTION_PRINT(
2581 "====>>>> connect menu_db [%s] failed!\n",
2590 db_util_open(ALARMMGR_DB_FILE, &alarmmgr_db,
2591 DB_UTIL_REGISTER_HOOK_METHOD);
2593 if (ret != SQLITE_OK) {
2594 ALARM_MGR_EXCEPTION_PRINT(
2595 "====>>>> connect menu_db [%s] failed!\n",
2601 sqlite3_exec(alarmmgr_db, QUERY_CREATE_TABLE_ALARMMGR, NULL, NULL,\
2603 ALARM_MGR_EXCEPTION_PRINT("Don't execute query = %s, "
2604 "error message = %s\n", QUERY_CREATE_TABLE_ALARMMGR,
2612 static void __initialize()
2621 fp = fopen("/proc/alarm_boot", "r");
2626 size = fread(&temp, 1, 1, fp);
2631 alarm_boot = atoi(temp);
2639 struct rtc_time rtc_tm;
2642 fd = open(power_rtc, O_RDONLY);
2644 ALARM_MGR_EXCEPTION_PRINT("cannot open /dev/rtc0\n");
2647 retval = ioctl(fd, RTC_RD_TIME, &rtc_tm);
2650 fd2 = open(default_rtc, O_RDWR);
2652 ALARM_MGR_EXCEPTION_PRINT("cannot open /dev/rtc1\n");
2655 retval = ioctl(fd2, RTC_SET_TIME, &rtc_tm);
2658 __initialize_timer();
2659 if (__initialize_dbus() == false) { /* because dbus's initialize
2660 failed, we cannot continue any more. */
2661 ALARM_MGR_EXCEPTION_PRINT("because __initialize_dbus failed, "
2662 "alarm-server cannot be runned.\n");
2665 __initialize_scheduled_alarm_lsit();
2667 __initialize_alarm_list();
2668 __initialize_noti();
2673 static bool __check_false_alarm()
2675 time_t current_time;
2678 time(¤t_time);
2680 interval = ab_due_time - current_time;
2682 ALARM_MGR_LOG_PRINT("due_time : %d / current_time %d\n", \
2683 alarm_context.c_due_time, current_time);
2685 if (interval > 0 && interval <= 30) {
2687 } else if (!poweron_alarm_expired) {
2688 /* originally, first arguement's value was 121(app_id) which means
2689 * alarm_booting ui application.and this application's dbus-service
2690 * name had a org.tizen.alarmboot.ui in a platform with app-server.
2691 * so we set "org.tizen.alarmboot.ui.ALARM" instead of 121.
2693 __alarm_send_noti_to_application(
2694 WAKEUP_ALARMBOOTING_APP_ID, -1);
2704 GMainLoop *mainloop = NULL;
2706 ALARM_MGR_LOG_PRINT("Enter main loop\n");
2708 mainloop = g_main_loop_new(NULL, FALSE);
2714 __check_false_alarm();
2718 g_main_loop_run(mainloop);