1 /* refclock_psc.c: clock driver for Brandywine PCI-SyncClock32/HP-UX 11.X */ 2 3 #ifdef HAVE_CONFIG_H 4 #include <config.h> 5 #endif /* HAVE_CONFIG_H */ 6 7 #if defined(REFCLOCK) && defined(CLOCK_GPSVME) 8 9 #include "ntpd.h" 10 #include "ntp_io.h" 11 #include "ntp_refclock.h" 12 #include "ntp_unixtime.h" 13 #include "ntp_stdlib.h" 14 15 #ifdef __hpux 16 #include <sys/rtprio.h> /* may already be included above */ 17 #include <sys/lock.h> /* NEEDED for PROCLOCK */ 18 #endif /* __hpux */ 19 20 #ifdef __linux__ 21 #include <sys/ioctl.h> /* for _IOR, ioctl */ 22 #endif /* __linux__ */ 23 24 enum { /* constants */ 25 BUFSIZE = 32, 26 PSC_SYNC_OK = 0x40, /* Sync status bit */ 27 DP_LEAPSEC_DAY10DAY1 = 0x82, /* DP RAM address */ 28 DP_LEAPSEC_DAY1000DAY100 = 0x83, 29 DELAY = 1, 30 NUNIT = 2 /* max UNITS */ 31 }; 32 33 /* clock card registers */ 34 struct psc_regs { 35 uint32_t low_time; /* card base + 0x00 */ 36 uint32_t high_time; /* card base + 0x04 */ 37 uint32_t ext_low_time; /* card base + 0x08 */ 38 uint32_t ext_high_time; /* card base + 0x0C */ 39 uint8_t device_status; /* card base + 0x10 */ 40 uint8_t device_control; /* card base + 0x11 */ 41 uint8_t reserved0; /* card base + 0x12 */ 42 uint8_t ext_100ns; /* card base + 0x13 */ 43 uint8_t match_usec; /* card base + 0x14 */ 44 uint8_t match_msec; /* card base + 0x15 */ 45 uint8_t reserved1; /* card base + 0x16 */ 46 uint8_t reserved2; /* card base + 0x17 */ 47 uint8_t reserved3; /* card base + 0x18 */ 48 uint8_t reserved4; /* card base + 0x19 */ 49 uint8_t dp_ram_addr; /* card base + 0x1A */ 50 uint8_t reserved5; /* card base + 0x1B */ 51 uint8_t reserved6; /* card base + 0x1C */ 52 uint8_t reserved7; /* card base + 0x1D */ 53 uint8_t dp_ram_data; /* card base + 0x1E */ 54 uint8_t reserved8; /* card base + 0x1F */ 55 } *volatile regp[NUNIT]; 56 57 #define PSC_REGS _IOR('K', 0, long) /* ioctl argument */ 58 59 /* Macros to swap byte order and convert BCD to binary */ 60 #define SWAP(val) ( ((val) >> 24) | (((val) & 0x00ff0000) >> 8) | \ 61 (((val) & 0x0000ff00) << 8) | (((val) & 0x000000ff) << 24) ) 62 #define BCD2INT2(val) ( ((val) >> 4 & 0x0f)*10 + ((val) & 0x0f) ) 63 #define BCD2INT3(val) ( ((val) >> 8 & 0x0f)*100 + ((val) >> 4 & 0x0f)*10 + \ 64 ((val) & 0x0f) ) 65 66 /* PSC interface definitions */ 67 #define PRECISION (-20) /* precision assumed (1 us) */ 68 #define REFID "USNO" /* reference ID */ 69 #define DESCRIPTION "Brandywine PCI-SyncClock32" 70 #define DEVICE "/dev/refclock%1d" /* device file */ 71 72 /* clock unit control structure */ 73 struct psc_unit { 74 short unit; /* NTP refclock unit number */ 75 short last_hour; /* last hour (monitor leap sec) */ 76 int msg_flag[2]; /* count error messages */ 77 }; 78 int fd[NUNIT]; /* file descriptor */ 79 80 /* Local function prototypes */ 81 static int psc_start(int, struct peer *); 82 static void psc_shutdown(int, struct peer *); 83 static void psc_poll(int, struct peer *); 84 static void check_leap_sec(struct refclockproc *, int); 85 86 /* Transfer vector */ 87 struct refclock refclock_gpsvme = { 88 psc_start, psc_shutdown, psc_poll, noentry, noentry, noentry, NOFLAGS 89 }; 90 91 /* psc_start: open device and initialize data for processing */ 92 static int 93 psc_start( 94 int unit, 95 struct peer *peer 96 ) 97 { 98 char buf[BUFSIZE]; 99 struct refclockproc *pp; 100 struct psc_unit *up = emalloc(sizeof *up); 101 102 if (unit < 0 || unit > 1) { /* support units 0 and 1 */ 103 msyslog(LOG_ERR, "psc_start: bad unit: %d", unit); 104 return 0; 105 } 106 107 memset(up, '\0', sizeof *up); 108 109 snprintf(buf, sizeof(buf), DEVICE, unit); /* dev file name */ 110 fd[unit] = open(buf, O_RDONLY); /* open device file */ 111 if (fd[unit] < 0) { 112 msyslog(LOG_ERR, "psc_start: unit: %d, open failed. %m", unit); 113 return 0; 114 } 115 116 /* get the address of the mapped regs */ 117 if (ioctl(fd[unit], PSC_REGS, ®p[unit]) < 0) { 118 msyslog(LOG_ERR, "psc_start: unit: %d, ioctl failed. %m", unit); 119 return 0; 120 } 121 122 /* initialize peer variables */ 123 pp = peer->procptr; 124 pp->io.clock_recv = noentry; 125 pp->io.srcclock = peer; 126 pp->io.datalen = 0; 127 pp->io.fd = -1; 128 pp->unitptr = up; 129 get_systime(&pp->lastrec); 130 memcpy(&pp->refid, REFID, 4); 131 peer->precision = PRECISION; 132 pp->clockdesc = DESCRIPTION; 133 up->unit = unit; 134 #ifdef __hpux 135 rtprio(0,120); /* set real time priority */ 136 plock(PROCLOCK); /* lock process in memory */ 137 #endif /* __hpux */ 138 return 1; 139 } 140 141 /* psc_shutdown: shut down the clock */ 142 static void 143 psc_shutdown( 144 int unit, 145 struct peer *peer 146 ) 147 { 148 if (NULL != peer->procptr->unitptr) 149 free(peer->procptr->unitptr); 150 if (fd[unit] > 0) 151 close(fd[unit]); 152 } 153 154 /* psc_poll: read, decode, and record device time */ 155 static void 156 psc_poll( 157 int unit, 158 struct peer *peer 159 ) 160 { 161 struct refclockproc *pp = peer->procptr; 162 struct psc_unit *up; 163 unsigned tlo, thi; 164 unsigned char status; 165 166 up = (struct psc_unit *) pp->unitptr; 167 tlo = regp[unit]->low_time; /* latch and read first 4 bytes */ 168 thi = regp[unit]->high_time; /* read 4 higher order bytes */ 169 status = regp[unit]->device_status; /* read device status byte */ 170 171 if (!(status & PSC_SYNC_OK)) { 172 refclock_report(peer, CEVNT_BADTIME); 173 if (!up->msg_flag[unit]) { /* write once to system log */ 174 msyslog(LOG_WARNING, 175 "SYNCHRONIZATION LOST on unit %1d, status %02x\n", 176 unit, status); 177 up->msg_flag[unit] = 1; 178 } 179 return; 180 } 181 182 get_systime(&pp->lastrec); 183 pp->polls++; 184 185 tlo = SWAP(tlo); /* little to big endian swap on */ 186 thi = SWAP(thi); /* copy of data */ 187 /* convert the BCD time to broken down time used by refclockproc */ 188 pp->day = BCD2INT3((thi & 0x0FFF0000) >> 16); 189 pp->hour = BCD2INT2((thi & 0x0000FF00) >> 8); 190 pp->minute = BCD2INT2(thi & 0x000000FF); 191 pp->second = BCD2INT2(tlo >> 24); 192 /* ntp_process() in ntp_refclock.c appears to use usec as fraction of 193 second in microseconds if usec is nonzero. */ 194 pp->nsec = 1000000*BCD2INT3((tlo & 0x00FFF000) >> 12) + 195 BCD2INT3(tlo & 0x00000FFF); 196 197 snprintf(pp->a_lastcode, sizeof(pp->a_lastcode), 198 "%3.3d %2.2d:%2.2d:%2.2d.%09ld %02x %08x %08x", pp->day, 199 pp->hour, pp->minute, pp->second, pp->nsec, status, thi, 200 tlo); 201 pp->lencode = strlen(pp->a_lastcode); 202 203 /* compute the timecode timestamp */ 204 if (!refclock_process(pp)) { 205 refclock_report(peer, CEVNT_BADTIME); 206 return; 207 } 208 /* simulate the NTP receive and packet procedures */ 209 refclock_receive(peer); 210 /* write clock statistics to file */ 211 record_clock_stats(&peer->srcadr, pp->a_lastcode); 212 213 /* With the first timecode beginning the day, check for a GPS 214 leap second notification. */ 215 if (pp->hour < up->last_hour) { 216 check_leap_sec(pp, unit); 217 up->msg_flag[0] = up->msg_flag[1] = 0; /* reset flags */ 218 } 219 up->last_hour = pp->hour; 220 } 221 222 /* check_leap_sec: read the Dual Port RAM leap second day registers. The 223 onboard GPS receiver should write the hundreds digit of day of year in 224 DP_LeapSec_Day1000Day100 and the tens and ones digits in 225 DP_LeapSec_Day10Day1. If these values are nonzero and today, we have 226 a leap second pending, so we set the pp->leap flag to LEAP_ADDSECOND. 227 If the BCD data are zero or a date other than today, set pp->leap to 228 LEAP_NOWARNING. */ 229 static void 230 check_leap_sec(struct refclockproc *pp, int unit) 231 { 232 unsigned char dhi, dlo; 233 int leap_day; 234 235 regp[unit]->dp_ram_addr = DP_LEAPSEC_DAY10DAY1; 236 usleep(DELAY); 237 dlo = regp[unit]->dp_ram_data; 238 regp[unit]->dp_ram_addr = DP_LEAPSEC_DAY1000DAY100; 239 usleep(DELAY); 240 dhi = regp[unit]->dp_ram_data; 241 leap_day = BCD2INT2(dlo) + 100*(dhi & 0x0F); 242 243 pp->leap = LEAP_NOWARNING; /* default */ 244 if (leap_day && leap_day == pp->day) { 245 pp->leap = LEAP_ADDSECOND; /* leap second today */ 246 msyslog(LOG_ERR, "LEAP_ADDSECOND flag set, day %d (%x %x).", 247 leap_day, dhi, dlo); 248 } 249 } 250 251 #else 252 int refclock_gpsvme_bs; 253 #endif /* REFCLOCK */ 254