/* rtcwake.c - enter sleep state until given time. * * Copyright 2020 The Android Open Source Project USE_RTCWAKE(NEWTOY(rtcwake, "(list-modes);(auto)a(device)d:(local)l(mode)m:(seconds)s#(time)t#(utc)u(verbose)v[!alu]", TOYFLAG_USR|TOYFLAG_BIN)) config RTCWAKE bool "rtcwake" default y help usage: rtcwake [-aluv] [-d FILE] [-m MODE] [-s SECS] [-t UNIX] Enter the given sleep state until the given time. -a RTC uses time specified in /etc/adjtime -d FILE Device to use (default /dev/rtc) -l RTC uses local time -m Mode (--list-modes to see those supported by your kernel): standby S1: default mem S3: suspend to RAM disk S4: suspend to disk off S5: power off disable Cancel current alarm freeze stop processes/processors no just set wakeup time on just poll RTC for alarm show just show current alarm -s SECS Wake SECS seconds from now -t UNIX Wake UNIX seconds from epoch -u RTC uses UTC -v Verbose */ #define FOR_rtcwake #include "toys.h" #include GLOBALS( long t, s; char *m, *d; ) void rtcwake_main(void) { struct rtc_wkalrm *alarm = (void *)(toybuf+2048); struct tm rtc_tm; time_t now, rtc_now, then; int fd, utc; if (FLAG(list_modes)) { printf("off no on disable show %s", xreadfile("/sys/power/state", toybuf, 2048)); return; } // util-linux defaults to "suspend", even though I don't have anything that // supports that (testing everything from a ~2010 laptop to a 2019 desktop). if (!TT.m) TT.m = "suspend"; if (FLAG(u)) utc = 1; else if (FLAG(l)) utc = 0; else utc = !readfile("/etc/adjtime", toybuf, 2048) || !!strstr(toybuf, "UTC"); if (FLAG(v)) xprintf("RTC time: %s\n", utc ? "UTC" : "local"); if (!TT.d) TT.d = "/dev/rtc0"; if (FLAG(v)) xprintf("Device: %s\n", TT.d); fd = xopen(TT.d, O_RDWR); now = time(0); xioctl(fd, RTC_RD_TIME, &rtc_tm); rtc_now = xmktime(&rtc_tm, utc); if (FLAG(v)) { xprintf("System time:\t%lld / %s", (long long)now, ctime(&now)); xprintf("RTC time:\t%lld / %s", (long long)rtc_now, ctime(&rtc_now)); } if (!strcmp(TT.m, "show")) { // Don't suspend, just show current alarm. xioctl(fd, RTC_WKALM_RD, alarm); if (!alarm->enabled) xputs("alarm: off"); else { if ((then = mktime((void *)&alarm->time)) < 0) perror_exit("mktime"); xprintf("alarm: on %s", ctime(&then)); } return; } else if (!strcmp(TT.m, "disable")) { // Cancel current alarm. xioctl(fd, RTC_WKALM_RD, alarm); alarm->enabled = 0; xioctl(fd, RTC_WKALM_SET, alarm); return; } if (FLAG(s)) then = rtc_now + TT.s + 1; // strace shows util-linux adds 1. else if (FLAG(t)) { then = TT.t + (rtc_now - now); if (then<=rtc_now) error_exit("rtc %lld >= %ld", (long long)rtc_now, TT.t); } else help_exit("-m %s needs -s or -t", TT.m); if (FLAG(v)) xprintf("Wake time:\t%lld / %s", (long long)then, ctime(&then)); if (!(utc ? gmtime_r : localtime_r)(&then, (void *)&alarm->time)) error_exit("%s failed", utc ? "gmtime_r" : "localtime_r"); alarm->enabled = 1; xioctl(fd, RTC_WKALM_SET, alarm); sync(); xprintf("wakeup using \"%s\" from %s at %s", TT.m, TT.d, ctime(&then)); msleep(10); if (!strcmp(TT.m, "no")); // Don't suspend, just set wakeup time. else if (!strcmp(TT.m, "on")) { // Don't suspend, poll RTC for alarm. unsigned long data = 0; if (FLAG(v)) xputs("Reading RTC..."); while (!(data & RTC_AF)) { if (read(fd, &data, sizeof(data)) != sizeof(data)) perror_exit("read"); if (FLAG(v)) xprintf("... %s: %lx\n", TT.d, data); } } else if (!strcmp(TT.m, "off")) xexec((char *[]){"poweroff", 0}); // Everything else lands here for one final step. The write will fail with // EINVAL if the mode is not supported. else xwrite(xopen("/sys/power/state", O_WRONLY), TT.m, strlen(TT.m)); }