#include <stdio.h> #include <stdlib.h> #include <fcntl.h> #include <string.h> #include <errno.h> #include <time.h> #include <sys/select.h> #include <sys/inotify.h> #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) //#include <linux/input.h> // this does not compile // from <linux/input.h> struct input_event { struct timeval time; __u16 type; __u16 code; __s32 value; }; #define EVIOCGVERSION _IOR('E', 0x01, int) /* get driver version */ #define EVIOCGID _IOR('E', 0x02, struct input_id) /* get device ID */ #define EVIOCGKEYCODE _IOR('E', 0x04, int[2]) /* get keycode */ #define EVIOCSKEYCODE _IOW('E', 0x04, int[2]) /* set keycode */ #define EVIOCGNAME(len) _IOC(_IOC_READ, 'E', 0x06, len) /* get device name */ #define EVIOCGPHYS(len) _IOC(_IOC_READ, 'E', 0x07, len) /* get physical location */ #define EVIOCGUNIQ(len) _IOC(_IOC_READ, 'E', 0x08, len) /* get unique identifier */ #define EVIOCGKEY(len) _IOC(_IOC_READ, 'E', 0x18, len) /* get global keystate */ #define EVIOCGLED(len) _IOC(_IOC_READ, 'E', 0x19, len) /* get all LEDs */ #define EVIOCGSND(len) _IOC(_IOC_READ, 'E', 0x1a, len) /* get all sounds status */ #define EVIOCGSW(len) _IOC(_IOC_READ, 'E', 0x1b, len) /* get all switch states */ #define EVIOCGBIT(ev,len) _IOC(_IOC_READ, 'E', 0x20 + ev, len) /* get event bits */ #define EVIOCGABS(abs) _IOR('E', 0x40 + abs, struct input_absinfo) /* get abs value/limits */ #define EVIOCSABS(abs) _IOW('E', 0xc0 + abs, struct input_absinfo) /* set abs value/limits */ #define EVIOCSFF _IOC(_IOC_WRITE, 'E', 0x80, sizeof(struct ff_effect)) /* send a force effect to a force feedback device */ #define EVIOCRMFF _IOW('E', 0x81, int) /* Erase a force effect */ #define EVIOCGEFFECTS _IOR('E', 0x84, int) /* Report number of effects playable at the same time */ #define EVIOCGRAB _IOW('E', 0x90, int) /* Grab/Release device */ /* * Event types */ #define EV_SYN 0x00 #define EV_KEY 0x01 #define EV_REL 0x02 #define EV_ABS 0x03 #define EV_MSC 0x04 #define EV_SW 0x05 #define EV_LED 0x11 #define EV_SND 0x12 #define EV_REP 0x14 #define EV_FF 0x15 #define EV_PWR 0x16 #define EV_FF_STATUS 0x17 #define EV_MAX 0x1f #define KEY_POWER 116 #define KEY_SLEEP 142 #define SW_0 0x00 // end <linux/input.h> struct notify_entry { int id; int (*handler)(struct notify_entry *entry, struct inotify_event *event); const char *filename; }; int charging_state_notify_handler(struct notify_entry *entry, struct inotify_event *event) { static int state = -1; int last_state; char buf[40]; int read_len; int fd; last_state = state; fd = open(entry->filename, O_RDONLY); read_len = read(fd, buf, sizeof(buf)); if(read_len > 0) { //printf("charging_state_notify_handler: \"%s\"\n", buf); state = !(strncmp(buf, "Unknown", 7) == 0 || strncmp(buf, "Discharging", 11) == 0); } close(fd); //printf("charging_state_notify_handler: %d -> %d\n", last_state, state); return state > last_state; } struct notify_entry watched_files[] = { { .filename = "/sys/android_power/charging_state", .handler = charging_state_notify_handler } }; int call_notify_handler(struct inotify_event *event) { unsigned int start, i; start = event->wd - watched_files[0].id; if(start >= ARRAY_SIZE(watched_files)) start = 0; //printf("%d: %08x \"%s\"\n", event->wd, event->mask, event->len ? event->name : ""); for(i = start; i < ARRAY_SIZE(watched_files); i++) { if(event->wd == watched_files[i].id) { if(watched_files[i].handler) { return watched_files[i].handler(&watched_files[i], event); } return 1; } } for(i = 0; i < start; i++) { if(event->wd == watched_files[i].id) { if(watched_files[i].handler) { return watched_files[i].handler(&watched_files[i], event); } return 1; } } return 0; } int handle_inotify_event(int nfd) { int res; int wake_up = 0; struct inotify_event *event; char event_buf[512]; int event_pos = 0; res = read(nfd, event_buf, sizeof(event_buf)); if(res < (int)sizeof(*event)) { if(errno == EINTR) return 0; fprintf(stderr, "could not get event, %s\n", strerror(errno)); return 0; } printf("got %d bytes of event information\n", res); while(res >= (int)sizeof(*event)) { int event_size; event = (struct inotify_event *)(event_buf + event_pos); wake_up |= call_notify_handler(event); event_size = sizeof(*event) + event->len; res -= event_size; event_pos += event_size; } return wake_up; } int powerd_main(int argc, char *argv[]) { int c; unsigned int i; int res; struct timeval tv; int eventfd; int notifyfd; int powerfd; int powerfd_is_sleep; int user_activity_fd; int acquire_partial_wake_lock_fd; int acquire_full_wake_lock_fd; int release_wake_lock_fd; char *eventdev = "/dev/input/event0"; const char *android_sleepdev = "/sys/android_power/request_sleep"; const char *android_autooff_dev = "/sys/android_power/auto_off_timeout"; const char *android_user_activity_dev = "/sys/android_power/last_user_activity"; const char *android_acquire_partial_wake_lock_dev = "/sys/android_power/acquire_partial_wake_lock"; const char *android_acquire_full_wake_lock_dev = "/sys/android_power/acquire_full_wake_lock"; const char *android_release_wake_lock_dev = "/sys/android_power/release_wake_lock"; const char *powerdev = "/sys/power/state"; const char suspendstring[] = "standby"; const char wakelockstring[] = "powerd"; fd_set rfds; struct input_event event; struct input_event light_event; struct input_event light_event2; int gotkey = 1; time_t idle_time = 5; const char *idle_time_string = "5"; time_t lcd_light_time = 0; time_t key_light_time = 0; int verbose = 1; int event_sleep = 0; int got_power_key_down = 0; struct timeval power_key_down_time = { 0, 0 }; light_event.type = EV_LED; light_event.code = 4; // bright lcd backlight light_event.value = 0; // light off -- sleep after timeout light_event2.type = EV_LED; light_event2.code = 8; // keyboard backlight light_event2.value = 0; // light off -- sleep after timeout do { c = getopt(argc, argv, "e:ni:vql:k:"); if (c == EOF) break; switch (c) { case 'e': eventdev = optarg; break; case 'n': gotkey = 0; break; case 'i': idle_time = atoi(optarg); idle_time_string = optarg; break; case 'v': verbose = 2; break; case 'q': verbose = 0; break; case 'l': lcd_light_time = atoi(optarg); break; case 'k': key_light_time = atoi(optarg); break; case '?': fprintf(stderr, "%s: invalid option -%c\n", argv[0], optopt); exit(1); } } while (1); if(optind != argc) { fprintf(stderr,"%s [-e eventdev]\n", argv[0]); return 1; } eventfd = open(eventdev, O_RDWR | O_NONBLOCK); if(eventfd < 0) { fprintf(stderr, "could not open %s, %s\n", eventdev, strerror(errno)); return 1; } if(key_light_time >= lcd_light_time) { lcd_light_time = key_light_time + 1; fprintf(stderr,"lcd bright backlight time must be longer than keyboard backlight time.\n" "Setting lcd bright backlight time to %ld seconds\n", lcd_light_time); } user_activity_fd = open(android_user_activity_dev, O_RDWR); if(user_activity_fd >= 0) { int auto_off_fd = open(android_autooff_dev, O_RDWR); write(auto_off_fd, idle_time_string, strlen(idle_time_string)); close(auto_off_fd); } powerfd = open(android_sleepdev, O_RDWR); if(powerfd >= 0) { powerfd_is_sleep = 1; if(verbose > 0) printf("Using android sleep dev: %s\n", android_sleepdev); } else { powerfd_is_sleep = 0; powerfd = open(powerdev, O_RDWR); if(powerfd >= 0) { if(verbose > 0) printf("Using linux power dev: %s\n", powerdev); } } if(powerfd < 0) { fprintf(stderr, "could not open %s, %s\n", powerdev, strerror(errno)); return 1; } notifyfd = inotify_init(); if(notifyfd < 0) { fprintf(stderr, "inotify_init failed, %s\n", strerror(errno)); return 1; } fcntl(notifyfd, F_SETFL, O_NONBLOCK | fcntl(notifyfd, F_GETFL)); for(i = 0; i < ARRAY_SIZE(watched_files); i++) { watched_files[i].id = inotify_add_watch(notifyfd, watched_files[i].filename, IN_MODIFY); printf("Watching %s, id %d\n", watched_files[i].filename, watched_files[i].id); } acquire_partial_wake_lock_fd = open(android_acquire_partial_wake_lock_dev, O_RDWR); acquire_full_wake_lock_fd = open(android_acquire_full_wake_lock_dev, O_RDWR); release_wake_lock_fd = open(android_release_wake_lock_dev, O_RDWR); if(user_activity_fd >= 0) { idle_time = 60*60*24; // driver handles real timeout } if(gotkey) { tv.tv_sec = idle_time; tv.tv_usec = 0; } else { tv.tv_sec = 0; tv.tv_usec = 500000; } while(1) { FD_ZERO(&rfds); //FD_SET(0, &rfds); FD_SET(eventfd, &rfds); FD_SET(notifyfd, &rfds); res = select(((notifyfd > eventfd) ? notifyfd : eventfd) + 1, &rfds, NULL, NULL, &tv); if(res < 0) { fprintf(stderr, "select failed, %s\n", strerror(errno)); return 1; } if(res == 0) { if(light_event2.value == 1) goto light2_off; if(light_event.value == 1) goto light_off; if(user_activity_fd < 0) { if(gotkey && verbose > 0) printf("Idle - sleep\n"); if(!gotkey && verbose > 1) printf("Reenter sleep\n"); goto sleep; } else { tv.tv_sec = 60*60*24; tv.tv_usec = 0; } } if(res > 0) { //if(FD_ISSET(0, &rfds)) { // printf("goto data on stdin quit\n"); // return 0; //} if(FD_ISSET(notifyfd, &rfds)) { write(acquire_partial_wake_lock_fd, wakelockstring, sizeof(wakelockstring) - 1); if(handle_inotify_event(notifyfd) > 0) { write(acquire_full_wake_lock_fd, wakelockstring, sizeof(wakelockstring) - 1); } write(release_wake_lock_fd, wakelockstring, sizeof(wakelockstring) - 1); } if(FD_ISSET(eventfd, &rfds)) { write(acquire_partial_wake_lock_fd, wakelockstring, sizeof(wakelockstring) - 1); res = read(eventfd, &event, sizeof(event)); if(res < (int)sizeof(event)) { fprintf(stderr, "could not get event\n"); write(release_wake_lock_fd, wakelockstring, sizeof(wakelockstring) - 1); return 1; } if(event.type == EV_PWR && event.code == KEY_SLEEP) { event_sleep = event.value; } if(event.type == EV_KEY || (event.type == EV_SW && event.code == SW_0 && event.value == 1)) { gotkey = 1; if(user_activity_fd >= 0) { char buf[32]; int len; len = sprintf(buf, "%ld%06lu000", event.time.tv_sec, event.time.tv_usec); write(user_activity_fd, buf, len); } if(lcd_light_time | key_light_time) { tv.tv_sec = key_light_time; light_event.value = 1; write(eventfd, &light_event, sizeof(light_event)); light_event2.value = 1; write(eventfd, &light_event2, sizeof(light_event2)); } else { tv.tv_sec = idle_time; } tv.tv_usec = 0; if(verbose > 1) printf("got %s %s %d%s\n", event.type == EV_KEY ? "key" : "switch", event.value ? "down" : "up", event.code, event_sleep ? " from sleep" : ""); if(event.code == KEY_POWER) { if(event.value == 0) { int tmp_got_power_key_down = got_power_key_down; got_power_key_down = 0; if(tmp_got_power_key_down) { // power key released if(verbose > 0) printf("Power key released - sleep\n"); write(release_wake_lock_fd, wakelockstring, sizeof(wakelockstring) - 1); goto sleep; } } else if(event_sleep == 0) { got_power_key_down = 1; power_key_down_time = event.time; } } } if(event.type == EV_SW && event.code == SW_0 && event.value == 0) { if(verbose > 0) printf("Flip closed - sleep\n"); power_key_down_time = event.time; write(release_wake_lock_fd, wakelockstring, sizeof(wakelockstring) - 1); goto sleep; } write(release_wake_lock_fd, wakelockstring, sizeof(wakelockstring) - 1); } } if(0) { light_off: light_event.value = 0; write(eventfd, &light_event, sizeof(light_event)); tv.tv_sec = idle_time - lcd_light_time; } if(0) { light2_off: light_event2.value = 0; write(eventfd, &light_event2, sizeof(light_event2)); tv.tv_sec = lcd_light_time - key_light_time; } if(0) { sleep: if(light_event.value == 1) { light_event.value = 0; write(eventfd, &light_event, sizeof(light_event)); light_event2.value = 0; write(eventfd, &light_event2, sizeof(light_event2)); tv.tv_sec = idle_time - lcd_light_time; } if(powerfd_is_sleep) { char buf[32]; int len; len = sprintf(buf, "%ld%06lu000", power_key_down_time.tv_sec, power_key_down_time.tv_usec); write(powerfd, buf, len); } else write(powerfd, suspendstring, sizeof(suspendstring) - 1); gotkey = 0; tv.tv_sec = 0; tv.tv_usec = 500000; } } return 0; }