/* * timepps.h -- PPS API main header * * Copyright (C) 2005-2007 Rodolfo Giometti * Copyright (C) 2009-2011 Alexander Gordeev * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * 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. * * Source: https://github.com/ago/pps-tools/ - Retreived Dec 2013 */ #ifndef _SYS_TIMEPPS_H_ #define _SYS_TIMEPPS_H_ #include #include #include #include #include #define LINUXPPS 1 /* signal we are using LinuxPPS */ /* * New data structures */ struct ntp_fp { unsigned int integral; unsigned int fractional; }; union pps_timeu { struct timespec tspec; struct ntp_fp ntpfp; unsigned long longpad[3]; }; struct pps_info { unsigned long assert_sequence; /* seq. num. of assert event */ unsigned long clear_sequence; /* seq. num. of clear event */ union pps_timeu assert_tu; /* time of assert event */ union pps_timeu clear_tu; /* time of clear event */ int current_mode; /* current mode bits */ }; struct pps_params { int api_version; /* API version # */ int mode; /* mode bits */ union pps_timeu assert_off_tu; /* offset compensation for assert */ union pps_timeu clear_off_tu; /* offset compensation for clear */ }; typedef int pps_handle_t; /* represents a PPS source */ typedef unsigned long pps_seq_t; /* sequence number */ typedef struct ntp_fp ntp_fp_t; /* NTP-compatible time stamp */ typedef union pps_timeu pps_timeu_t; /* generic data type for time stamps */ typedef struct pps_info pps_info_t; typedef struct pps_params pps_params_t; #define assert_timestamp assert_tu.tspec #define clear_timestamp clear_tu.tspec #define assert_timestamp_ntpfp assert_tu.ntpfp #define clear_timestamp_ntpfp clear_tu.ntpfp #define assert_offset assert_off_tu.tspec #define clear_offset clear_off_tu.tspec #define assert_offset_ntpfp assert_off_tu.ntpfp #define clear_offset_ntpfp clear_off_tu.ntpfp /* * The PPS API */ static __inline int time_pps_create(int source, pps_handle_t *handle) { int ret; struct pps_kparams dummy; if (!handle) { errno = EINVAL; return -1; } /* First we check if current device is a valid PPS one by * doing a dummy PPS_GETPARAMS... */ ret = ioctl(source, PPS_GETPARAMS, &dummy); if (ret) { errno = EOPNOTSUPP; return -1; } /* ... then since in LinuxPPS there are no differences between a * "PPS source" and a "PPS handle", we simply return the same value. */ *handle = source; return 0; } static __inline int time_pps_destroy(pps_handle_t handle) { return close(handle); } static __inline int time_pps_getparams(pps_handle_t handle, pps_params_t *ppsparams) { int ret; struct pps_kparams __ppsparams; ret = ioctl(handle, PPS_GETPARAMS, &__ppsparams); ppsparams->api_version = __ppsparams.api_version; ppsparams->mode = __ppsparams.mode; ppsparams->assert_off_tu.tspec.tv_sec = __ppsparams.assert_off_tu.sec; ppsparams->assert_off_tu.tspec.tv_nsec = __ppsparams.assert_off_tu.nsec; ppsparams->clear_off_tu.tspec.tv_sec = __ppsparams.clear_off_tu.sec; ppsparams->clear_off_tu.tspec.tv_nsec = __ppsparams.clear_off_tu.nsec; return ret; } static __inline int time_pps_setparams(pps_handle_t handle, const pps_params_t *ppsparams) { struct pps_kparams __ppsparams; __ppsparams.api_version = ppsparams->api_version; __ppsparams.mode = ppsparams->mode; __ppsparams.assert_off_tu.sec = ppsparams->assert_off_tu.tspec.tv_sec; __ppsparams.assert_off_tu.nsec = ppsparams->assert_off_tu.tspec.tv_nsec; __ppsparams.clear_off_tu.sec = ppsparams->clear_off_tu.tspec.tv_sec; __ppsparams.clear_off_tu.nsec = ppsparams->clear_off_tu.tspec.tv_nsec; return ioctl(handle, PPS_SETPARAMS, &__ppsparams); } /* Get capabilities for handle */ static __inline int time_pps_getcap(pps_handle_t handle, int *mode) { return ioctl(handle, PPS_GETCAP, mode); } static __inline int time_pps_fetch(pps_handle_t handle, const int tsformat, pps_info_t *ppsinfobuf, const struct timespec *timeout) { struct pps_fdata __fdata; int ret; /* Sanity checks */ if (tsformat != PPS_TSFMT_TSPEC) { errno = EINVAL; return -1; } if (timeout) { __fdata.timeout.sec = timeout->tv_sec; __fdata.timeout.nsec = timeout->tv_nsec; __fdata.timeout.flags = ~PPS_TIME_INVALID; } else __fdata.timeout.flags = PPS_TIME_INVALID; ret = ioctl(handle, PPS_FETCH, &__fdata); ppsinfobuf->assert_sequence = __fdata.info.assert_sequence; ppsinfobuf->clear_sequence = __fdata.info.clear_sequence; ppsinfobuf->assert_tu.tspec.tv_sec = __fdata.info.assert_tu.sec; ppsinfobuf->assert_tu.tspec.tv_nsec = __fdata.info.assert_tu.nsec; ppsinfobuf->clear_tu.tspec.tv_sec = __fdata.info.clear_tu.sec; ppsinfobuf->clear_tu.tspec.tv_nsec = __fdata.info.clear_tu.nsec; ppsinfobuf->current_mode = __fdata.info.current_mode; return ret; } #ifdef PPS_KC_BIND static __inline int time_pps_kcbind(pps_handle_t handle, const int kernel_consumer, const int edge, const int tsformat) { struct pps_bind_args __bind_args; __bind_args.tsformat = tsformat; __bind_args.edge = edge; __bind_args.consumer = kernel_consumer; return ioctl(handle, PPS_KC_BIND, &__bind_args); } #else /* !PPS_KC_BIND */ static __inline int time_pps_kcbind(pps_handle_t handle, const int kernel_consumer, const int edge, const int tsformat) { /* LinuxPPS doesn't implement kernel consumer feature */ errno = EOPNOTSUPP; return -1; } #endif /* PPS_KC_BIND */ #endif /* _SYS_TIMEPPS_H_ */