mm58167.c revision 1.6
1 1.6 he /* $NetBSD: mm58167.c,v 1.6 2005/06/04 20:14:25 he Exp $ */ 2 1.1 fredette 3 1.1 fredette /* 4 1.1 fredette * Copyright (c) 2001 The NetBSD Foundation, Inc. 5 1.1 fredette * All rights reserved. 6 1.1 fredette * 7 1.1 fredette * This code is derived from software contributed to The NetBSD Foundation 8 1.1 fredette * by Matthew Fredette. 9 1.1 fredette * 10 1.1 fredette * Redistribution and use in source and binary forms, with or without 11 1.1 fredette * modification, are permitted provided that the following conditions 12 1.1 fredette * are met: 13 1.1 fredette * 1. Redistributions of source code must retain the above copyright 14 1.1 fredette * notice, this list of conditions and the following disclaimer. 15 1.1 fredette * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 fredette * notice, this list of conditions and the following disclaimer in the 17 1.1 fredette * documentation and/or other materials provided with the distribution. 18 1.1 fredette * 3. All advertising materials mentioning features or use of this software 19 1.1 fredette * must display the following acknowledgement: 20 1.1 fredette * This product includes software developed by the NetBSD 21 1.1 fredette * Foundation, Inc. and its contributors. 22 1.1 fredette * 4. Neither the name of The NetBSD Foundation nor the names of its 23 1.1 fredette * contributors may be used to endorse or promote products derived 24 1.1 fredette * from this software without specific prior written permission. 25 1.1 fredette * 26 1.1 fredette * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 27 1.1 fredette * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 28 1.1 fredette * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 29 1.1 fredette * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 30 1.1 fredette * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 31 1.1 fredette * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 32 1.1 fredette * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 33 1.1 fredette * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 34 1.1 fredette * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 35 1.1 fredette * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 36 1.1 fredette * POSSIBILITY OF SUCH DAMAGE. 37 1.1 fredette */ 38 1.1 fredette 39 1.1 fredette /* 40 1.1 fredette * National Semiconductor MM58167 time-of-day chip subroutines. 41 1.1 fredette */ 42 1.3 lukem 43 1.3 lukem #include <sys/cdefs.h> 44 1.6 he __KERNEL_RCSID(0, "$NetBSD: mm58167.c,v 1.6 2005/06/04 20:14:25 he Exp $"); 45 1.1 fredette 46 1.1 fredette #include <sys/param.h> 47 1.1 fredette #include <sys/malloc.h> 48 1.1 fredette #include <sys/systm.h> 49 1.1 fredette #include <sys/errno.h> 50 1.1 fredette #include <sys/device.h> 51 1.1 fredette 52 1.1 fredette #include <machine/bus.h> 53 1.1 fredette #include <dev/clock_subr.h> 54 1.1 fredette #include <dev/ic/mm58167var.h> 55 1.1 fredette 56 1.6 he int mm58167_gettime(todr_chip_handle_t, volatile struct timeval *); 57 1.6 he int mm58167_settime(todr_chip_handle_t, volatile struct timeval *); 58 1.4 perry int mm58167_getcal(todr_chip_handle_t, int *); 59 1.4 perry int mm58167_setcal(todr_chip_handle_t, int); 60 1.1 fredette 61 1.1 fredette /* 62 1.1 fredette * To quote SunOS's todreg.h: 63 1.1 fredette * "This brain damaged chip insists on keeping the time in 64 1.1 fredette * MM/DD HH:MM:SS format, even though it doesn't know about 65 1.1 fredette * leap years and Feb. 29, thus making it nearly worthless." 66 1.1 fredette */ 67 1.1 fredette #define mm58167_read(sc, r) bus_space_read_1(sc->mm58167_regt, sc->mm58167_regh, sc-> r) 68 1.1 fredette #define mm58167_write(sc, r, v) bus_space_write_1(sc->mm58167_regt, sc->mm58167_regh, sc-> r, v) 69 1.1 fredette 70 1.1 fredette todr_chip_handle_t 71 1.1 fredette mm58167_attach(sc) 72 1.1 fredette struct mm58167_softc *sc; 73 1.1 fredette { 74 1.1 fredette struct todr_chip_handle *handle; 75 1.5 perry 76 1.1 fredette printf(": mm58167"); 77 1.1 fredette 78 1.1 fredette handle = &sc->_mm58167_todr_handle; 79 1.2 thorpej memset(handle, 0, sizeof(handle)); 80 1.1 fredette handle->cookie = sc; 81 1.1 fredette handle->todr_gettime = mm58167_gettime; 82 1.1 fredette handle->todr_settime = mm58167_settime; 83 1.1 fredette handle->todr_getcal = mm58167_getcal; 84 1.1 fredette handle->todr_setcal = mm58167_setcal; 85 1.1 fredette return (handle); 86 1.1 fredette } 87 1.1 fredette 88 1.1 fredette /* 89 1.1 fredette * Set up the system's time, given a `reasonable' time value. 90 1.1 fredette */ 91 1.1 fredette int 92 1.1 fredette mm58167_gettime(handle, tv) 93 1.1 fredette todr_chip_handle_t handle; 94 1.6 he volatile struct timeval *tv; 95 1.1 fredette { 96 1.1 fredette struct mm58167_softc *sc = handle->cookie; 97 1.1 fredette struct clock_ymdhms dt_hardware; 98 1.1 fredette struct clock_ymdhms dt_reasonable; 99 1.1 fredette int s; 100 1.1 fredette u_int8_t byte_value; 101 1.1 fredette int leap_year, had_leap_day; 102 1.1 fredette 103 1.1 fredette /* First, read the date out of the chip. */ 104 1.1 fredette 105 1.1 fredette /* No interrupts while we're in the chip. */ 106 1.1 fredette s = splhigh(); 107 1.1 fredette 108 1.1 fredette /* Reset the status bit: */ 109 1.1 fredette byte_value = mm58167_read(sc, mm58167_status); 110 1.1 fredette 111 1.1 fredette /* 112 1.1 fredette * Read the date values until we get a coherent read (one 113 1.1 fredette * where the status stays zero, indicating no increment was 114 1.1 fredette * rippling through while we were reading). 115 1.1 fredette */ 116 1.1 fredette do { 117 1.1 fredette #define _MM58167_GET(dt_f, mm_f) byte_value = mm58167_read(sc, mm_f); dt_hardware.dt_f = FROMBCD(byte_value) 118 1.1 fredette _MM58167_GET(dt_mon, mm58167_mon); 119 1.1 fredette _MM58167_GET(dt_day, mm58167_day); 120 1.1 fredette _MM58167_GET(dt_hour, mm58167_hour); 121 1.1 fredette _MM58167_GET(dt_min, mm58167_min); 122 1.1 fredette _MM58167_GET(dt_sec, mm58167_sec); 123 1.1 fredette #undef _MM58167_GET 124 1.1 fredette } while ((mm58167_read(sc, mm58167_status) & 1) == 0); 125 1.1 fredette 126 1.1 fredette splx(s); 127 1.1 fredette 128 1.1 fredette /* Convert the reasonable time into a date: */ 129 1.1 fredette clock_secs_to_ymdhms(tv->tv_sec, &dt_reasonable); 130 1.1 fredette 131 1.1 fredette /* 132 1.1 fredette * We need to fake a hardware year. if the hardware MM/DD 133 1.1 fredette * HH:MM:SS date is less than the reasonable MM/DD 134 1.1 fredette * HH:MM:SS, call it the reasonable year plus one, else call 135 1.1 fredette * it the reasonable year. 136 1.1 fredette */ 137 1.1 fredette if (dt_hardware.dt_mon < dt_reasonable.dt_mon || 138 1.1 fredette (dt_hardware.dt_mon == dt_reasonable.dt_mon && 139 1.1 fredette (dt_hardware.dt_day < dt_reasonable.dt_day || 140 1.1 fredette (dt_hardware.dt_day == dt_reasonable.dt_day && 141 1.1 fredette (dt_hardware.dt_hour < dt_reasonable.dt_hour || 142 1.1 fredette (dt_hardware.dt_hour == dt_reasonable.dt_hour && 143 1.1 fredette (dt_hardware.dt_min < dt_reasonable.dt_min || 144 1.1 fredette (dt_hardware.dt_min == dt_reasonable.dt_min && 145 1.1 fredette (dt_hardware.dt_sec < dt_reasonable.dt_sec))))))))) { 146 1.1 fredette dt_hardware.dt_year = dt_reasonable.dt_year + 1; 147 1.1 fredette } else { 148 1.1 fredette dt_hardware.dt_year = dt_reasonable.dt_year; 149 1.1 fredette } 150 1.1 fredette 151 1.1 fredette /* convert the hardware date into a time: */ 152 1.1 fredette tv->tv_sec = clock_ymdhms_to_secs(&dt_hardware); 153 1.1 fredette tv->tv_usec = 0; 154 1.5 perry 155 1.1 fredette /* 156 1.1 fredette * Make a reasonable effort to see if a leap day has passed 157 1.1 fredette * that we need to account for. This does the right thing 158 1.1 fredette * only when the system was shut down before a leap day, and 159 1.1 fredette * it is now after that leap day. It doesn't do the right 160 1.1 fredette * thing when a leap day happened while the machine was last 161 1.1 fredette * up. When that happens, the hardware clock becomes 162 1.1 fredette * instantly wrong forever, until it gets fixed for some 163 1.1 fredette * reason. Use NTP to deal. 164 1.1 fredette */ 165 1.1 fredette 166 1.1 fredette /* 167 1.1 fredette * This may have happened if the hardware says we're into 168 1.1 fredette * March in the following year. Check that following year for 169 1.1 fredette * a leap day. 170 1.1 fredette */ 171 1.1 fredette if (dt_hardware.dt_year > dt_reasonable.dt_year && 172 1.1 fredette dt_hardware.dt_mon >= 3) { 173 1.1 fredette leap_year = dt_hardware.dt_year; 174 1.1 fredette } 175 1.1 fredette 176 1.1 fredette /* 177 1.1 fredette * This may have happened if the hardware says we're in the 178 1.1 fredette * following year, and the system was shut down before March 179 1.1 fredette * the previous year. check that previous year for a leap 180 1.1 fredette * day. 181 1.1 fredette */ 182 1.1 fredette else if (dt_hardware.dt_year > dt_reasonable.dt_year && 183 1.1 fredette dt_reasonable.dt_mon < 3) { 184 1.1 fredette leap_year = dt_reasonable.dt_year; 185 1.1 fredette } 186 1.1 fredette 187 1.1 fredette /* 188 1.1 fredette * This may have happened if the hardware says we're in the 189 1.1 fredette * same year, but we weren't to March before, and we're in or 190 1.1 fredette * past March now. Check this year for a leap day. 191 1.1 fredette */ 192 1.1 fredette else if (dt_hardware.dt_year == dt_reasonable.dt_year 193 1.1 fredette && dt_reasonable.dt_mon < 3 194 1.1 fredette && dt_hardware.dt_mon >= 3) { 195 1.1 fredette leap_year = dt_reasonable.dt_year; 196 1.1 fredette } 197 1.1 fredette 198 1.1 fredette /* 199 1.1 fredette * Otherwise, no leap year to check. 200 1.1 fredette */ 201 1.1 fredette else { 202 1.1 fredette leap_year = 0; 203 1.1 fredette } 204 1.1 fredette 205 1.1 fredette /* Do the real leap day check. */ 206 1.1 fredette had_leap_day = 0; 207 1.1 fredette if (leap_year > 0) { 208 1.1 fredette if ((leap_year & 3) == 0) { 209 1.1 fredette had_leap_day = 1; 210 1.1 fredette if ((leap_year % 100) == 0) { 211 1.1 fredette had_leap_day = 0; 212 1.1 fredette if ((leap_year % 400) == 0) 213 1.1 fredette had_leap_day = 1; 214 1.1 fredette } 215 1.1 fredette } 216 1.1 fredette } 217 1.1 fredette 218 1.1 fredette /* 219 1.1 fredette * If we had a leap day, adjust the value we will return, and 220 1.1 fredette * also update the hardware clock. 221 1.5 perry */ 222 1.5 perry /* 223 1.1 fredette * XXX - Since this update just writes back a corrected 224 1.5 perry * version of what we read out above, we lose whatever 225 1.1 fredette * amount of time the clock has advanced since that read. 226 1.1 fredette * Use NTP to deal. 227 1.1 fredette */ 228 1.1 fredette if (had_leap_day) { 229 1.1 fredette tv->tv_sec += SECDAY; 230 1.1 fredette todr_settime(handle, tv); 231 1.1 fredette } 232 1.1 fredette 233 1.1 fredette return (0); 234 1.1 fredette } 235 1.1 fredette 236 1.1 fredette int 237 1.1 fredette mm58167_settime(handle, tv) 238 1.1 fredette todr_chip_handle_t handle; 239 1.6 he volatile struct timeval *tv; 240 1.1 fredette { 241 1.1 fredette struct mm58167_softc *sc = handle->cookie; 242 1.1 fredette struct clock_ymdhms dt_hardware; 243 1.1 fredette int s; 244 1.1 fredette u_int8_t byte_value; 245 1.1 fredette 246 1.1 fredette /* Convert the seconds into ymdhms. */ 247 1.1 fredette clock_secs_to_ymdhms(tv->tv_sec, &dt_hardware); 248 1.1 fredette 249 1.1 fredette /* No interrupts while we're in the chip. */ 250 1.1 fredette s = splhigh(); 251 1.1 fredette 252 1.5 perry /* 253 1.1 fredette * Issue a GO command to reset everything less significant 254 1.1 fredette * than the minutes to zero. 255 1.1 fredette */ 256 1.1 fredette mm58167_write(sc, mm58167_go, 0xFF); 257 1.5 perry 258 1.1 fredette /* Load everything. */ 259 1.1 fredette #define _MM58167_PUT(dt_f, mm_f) byte_value = TOBCD(dt_hardware.dt_f); mm58167_write(sc, mm_f, byte_value) 260 1.1 fredette _MM58167_PUT(dt_mon, mm58167_mon); 261 1.1 fredette _MM58167_PUT(dt_day, mm58167_day); 262 1.1 fredette _MM58167_PUT(dt_hour, mm58167_hour); 263 1.1 fredette _MM58167_PUT(dt_min, mm58167_min); 264 1.1 fredette _MM58167_PUT(dt_sec, mm58167_sec); 265 1.1 fredette #undef _MM58167_PUT 266 1.1 fredette 267 1.1 fredette splx(s); 268 1.1 fredette return (0); 269 1.1 fredette } 270 1.1 fredette 271 1.1 fredette int 272 1.1 fredette mm58167_getcal(handle, vp) 273 1.1 fredette todr_chip_handle_t handle; 274 1.1 fredette int *vp; 275 1.1 fredette { 276 1.1 fredette return (EOPNOTSUPP); 277 1.1 fredette } 278 1.1 fredette 279 1.1 fredette int 280 1.1 fredette mm58167_setcal(handle, v) 281 1.1 fredette todr_chip_handle_t handle; 282 1.1 fredette int v; 283 1.1 fredette { 284 1.1 fredette return (EOPNOTSUPP); 285 1.1 fredette } 286
Indexes created Fri Sep 26 20:09:58 GMT 2025