/* chronyd/chronyc - Programs for keeping computer clocks accurate. ********************************************************************** * Copyright (C) Richard P. Curnow 1997-2003 * * This program is free software; you can redistribute it and/or modify * it under the terms of version 2 of the GNU General Public License 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 Street, Fifth Floor, Boston, MA 02110-1301, USA. * ********************************************************************** ======================================================================= */ #include "config.h" #include "sysincl.h" #include "rtc.h" #include "local.h" #include "logging.h" #include "conf.h" #if defined LINUX && defined FEAT_RTC #include "rtc_linux.h" #endif /* defined LINUX */ /* ================================================== */ static int driver_initialised = 0; static int driver_preinit_ok = 0; static struct { int (*init)(void); void (*fini)(void); int (*time_pre_init)(time_t driftfile_time); void (*time_init)(void (*after_hook)(void*), void *anything); void (*start_measurements)(void); int (*write_parameters)(void); int (*get_report)(RPT_RTC_Report *report); int (*trim)(void); } driver = { #if defined LINUX && defined FEAT_RTC RTC_Linux_Initialise, RTC_Linux_Finalise, RTC_Linux_TimePreInit, RTC_Linux_TimeInit, RTC_Linux_StartMeasurements, RTC_Linux_WriteParameters, RTC_Linux_GetReport, RTC_Linux_Trim #else NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL #endif }; /* ================================================== */ /* Get the last modification time of the driftfile */ static time_t get_driftfile_time(void) { struct stat buf; char *drift_file; drift_file = CNF_GetDriftFile(); if (!drift_file) return 0; if (stat(drift_file, &buf)) return 0; return buf.st_mtime; } /* ================================================== */ /* Set the system time to the driftfile time if it's in the future */ static void apply_driftfile_time(time_t t) { struct timespec now; LCL_ReadCookedTime(&now, NULL); if (now.tv_sec < t) { if (LCL_ApplyStepOffset(now.tv_sec - t)) LOG(LOGS_INFO, "System time restored from driftfile"); } } /* ================================================== */ void RTC_Initialise(int initial_set) { time_t driftfile_time; char *file_name; /* If the -s option was specified, try to do an initial read of the RTC and set the system time to it. Also, read the last modification time of the driftfile (i.e. system time when chronyd was previously stopped) and set the system time to it if it's in the future to bring the clock closer to the true time when the RTC is broken (e.g. it has no battery), is missing, or there is no RTC driver. */ if (initial_set) { driftfile_time = get_driftfile_time(); if (driver.time_pre_init && driver.time_pre_init(driftfile_time)) { driver_preinit_ok = 1; } else { driver_preinit_ok = 0; if (driftfile_time) apply_driftfile_time(driftfile_time); } } driver_initialised = 0; /* This is how we tell whether the user wants to load the RTC driver, if he is on a machine where it is an option. */ file_name = CNF_GetRtcFile(); if (file_name) { if (CNF_GetRtcSync()) { LOG_FATAL("rtcfile directive cannot be used with rtcsync"); } if (driver.init) { if ((driver.init)()) { driver_initialised = 1; } else { LOG(LOGS_ERR, "RTC driver could not be initialised"); } } else { LOG(LOGS_ERR, "RTC not supported on this operating system"); } } } /* ================================================== */ void RTC_Finalise(void) { if (driver_initialised) { (driver.fini)(); } } /* ================================================== */ /* Start the processing to get a single measurement from the real time clock, and use it to trim the system time, based on knowing the drift rate of the RTC and the error the last time we set it. If the TimePreInit routine has succeeded, we can be sure that the trim required is not *too* large. We are called with a hook to a function to be called after the initialisation is complete. We also call this if we cannot do the initialisation. */ void RTC_TimeInit(void (*after_hook)(void *), void *anything) { if (driver_initialised && driver_preinit_ok) { (driver.time_init)(after_hook, anything); } else { (after_hook)(anything); } } /* ================================================== */ /* Start the RTC measurement process */ void RTC_StartMeasurements(void) { if (driver_initialised) { (driver.start_measurements)(); } /* Benign if driver not present */ } /* ================================================== */ /* Write RTC information out to RTC file. Return 0 for success, 1 if RTC driver not running, or 2 if the file cannot be written. */ int RTC_WriteParameters(void) { if (driver_initialised) { return (driver.write_parameters)(); } else { return RTC_ST_NODRV; } } /* ================================================== */ int RTC_GetReport(RPT_RTC_Report *report) { if (driver_initialised) { return (driver.get_report)(report); } else { return 0; } } /* ================================================== */ int RTC_Trim(void) { if (driver_initialised) { return (driver.trim)(); } else { return 0; } } /* ================================================== */