ds1307.c revision 1.13.4.2
1 1.13.4.2 yamt /* $NetBSD: ds1307.c,v 1.13.4.2 2012/10/30 17:20:58 yamt Exp $ */ 2 1.1 thorpej 3 1.1 thorpej /* 4 1.1 thorpej * Copyright (c) 2003 Wasabi Systems, Inc. 5 1.1 thorpej * All rights reserved. 6 1.1 thorpej * 7 1.1 thorpej * Written by Steve C. Woodford and Jason R. Thorpe for Wasabi Systems, Inc. 8 1.1 thorpej * 9 1.1 thorpej * Redistribution and use in source and binary forms, with or without 10 1.1 thorpej * modification, are permitted provided that the following conditions 11 1.1 thorpej * are met: 12 1.1 thorpej * 1. Redistributions of source code must retain the above copyright 13 1.1 thorpej * notice, this list of conditions and the following disclaimer. 14 1.1 thorpej * 2. Redistributions in binary form must reproduce the above copyright 15 1.1 thorpej * notice, this list of conditions and the following disclaimer in the 16 1.1 thorpej * documentation and/or other materials provided with the distribution. 17 1.1 thorpej * 3. All advertising materials mentioning features or use of this software 18 1.1 thorpej * must display the following acknowledgement: 19 1.1 thorpej * This product includes software developed for the NetBSD Project by 20 1.1 thorpej * Wasabi Systems, Inc. 21 1.1 thorpej * 4. The name of Wasabi Systems, Inc. may not be used to endorse 22 1.1 thorpej * or promote products derived from this software without specific prior 23 1.1 thorpej * written permission. 24 1.1 thorpej * 25 1.1 thorpej * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND 26 1.1 thorpej * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 27 1.1 thorpej * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 28 1.1 thorpej * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL WASABI SYSTEMS, INC 29 1.1 thorpej * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 30 1.1 thorpej * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 31 1.1 thorpej * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 32 1.1 thorpej * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 33 1.1 thorpej * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 34 1.1 thorpej * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 35 1.1 thorpej * POSSIBILITY OF SUCH DAMAGE. 36 1.1 thorpej */ 37 1.1 thorpej 38 1.9 lukem #include <sys/cdefs.h> 39 1.13.4.2 yamt __KERNEL_RCSID(0, "$NetBSD: ds1307.c,v 1.13.4.2 2012/10/30 17:20:58 yamt Exp $"); 40 1.9 lukem 41 1.1 thorpej #include <sys/param.h> 42 1.1 thorpej #include <sys/systm.h> 43 1.1 thorpej #include <sys/device.h> 44 1.1 thorpej #include <sys/kernel.h> 45 1.1 thorpej #include <sys/fcntl.h> 46 1.1 thorpej #include <sys/uio.h> 47 1.1 thorpej #include <sys/conf.h> 48 1.1 thorpej #include <sys/event.h> 49 1.1 thorpej 50 1.1 thorpej #include <dev/clock_subr.h> 51 1.1 thorpej 52 1.1 thorpej #include <dev/i2c/i2cvar.h> 53 1.1 thorpej #include <dev/i2c/ds1307reg.h> 54 1.1 thorpej 55 1.13.4.1 yamt struct dsrtc_model { 56 1.13.4.1 yamt uint16_t dm_model; 57 1.13.4.1 yamt uint8_t dm_ch_reg; 58 1.13.4.1 yamt uint8_t dm_ch_value; 59 1.13.4.1 yamt uint8_t dm_rtc_start; 60 1.13.4.1 yamt uint8_t dm_rtc_size; 61 1.13.4.1 yamt uint8_t dm_nvram_start; 62 1.13.4.1 yamt uint8_t dm_nvram_size; 63 1.13.4.1 yamt uint8_t dm_flags; 64 1.13.4.1 yamt #define DSRTC_FLAG_CLOCK_HOLD 1 65 1.13.4.1 yamt #define DSRTC_FLAG_BCD 2 66 1.13.4.1 yamt }; 67 1.13.4.1 yamt 68 1.13.4.1 yamt static const struct dsrtc_model dsrtc_models[] = { 69 1.13.4.1 yamt { 70 1.13.4.1 yamt .dm_model = 1307, 71 1.13.4.1 yamt .dm_ch_reg = DSXXXX_SECONDS, 72 1.13.4.1 yamt .dm_ch_value = DS1307_SECONDS_CH, 73 1.13.4.1 yamt .dm_rtc_start = DS1307_RTC_START, 74 1.13.4.1 yamt .dm_rtc_size = DS1307_RTC_SIZE, 75 1.13.4.1 yamt .dm_nvram_start = DS1307_NVRAM_START, 76 1.13.4.1 yamt .dm_nvram_size = DS1307_NVRAM_SIZE, 77 1.13.4.1 yamt .dm_flags = DSRTC_FLAG_BCD | DSRTC_FLAG_CLOCK_HOLD, 78 1.13.4.1 yamt }, { 79 1.13.4.1 yamt .dm_model = 1339, 80 1.13.4.1 yamt .dm_rtc_start = DS1339_RTC_START, 81 1.13.4.1 yamt .dm_rtc_size = DS1339_RTC_SIZE, 82 1.13.4.1 yamt .dm_flags = DSRTC_FLAG_BCD, 83 1.13.4.1 yamt }, { 84 1.13.4.1 yamt .dm_model = 1672, 85 1.13.4.1 yamt .dm_rtc_start = DS1672_RTC_START, 86 1.13.4.1 yamt .dm_rtc_size = DS1672_RTC_SIZE, 87 1.13.4.1 yamt .dm_flags = 0, 88 1.13.4.1 yamt }, { 89 1.13.4.1 yamt .dm_model = 3232, 90 1.13.4.1 yamt .dm_rtc_start = DS3232_RTC_START, 91 1.13.4.1 yamt .dm_rtc_size = DS3232_RTC_SIZE, 92 1.13.4.1 yamt .dm_nvram_start = DS3232_NVRAM_START, 93 1.13.4.1 yamt .dm_nvram_size = DS3232_NVRAM_SIZE, 94 1.13.4.1 yamt .dm_flags = DSRTC_FLAG_BCD, 95 1.13.4.1 yamt }, 96 1.13.4.1 yamt }; 97 1.13.4.1 yamt 98 1.1 thorpej struct dsrtc_softc { 99 1.11 xtraeme device_t sc_dev; 100 1.1 thorpej i2c_tag_t sc_tag; 101 1.13.4.1 yamt uint8_t sc_address; 102 1.13.4.1 yamt bool sc_open; 103 1.13.4.1 yamt struct dsrtc_model sc_model; 104 1.1 thorpej struct todr_chip_handle sc_todr; 105 1.1 thorpej }; 106 1.1 thorpej 107 1.11 xtraeme static void dsrtc_attach(device_t, device_t, void *); 108 1.11 xtraeme static int dsrtc_match(device_t, cfdata_t, void *); 109 1.1 thorpej 110 1.11 xtraeme CFATTACH_DECL_NEW(dsrtc, sizeof(struct dsrtc_softc), 111 1.1 thorpej dsrtc_match, dsrtc_attach, NULL, NULL); 112 1.1 thorpej extern struct cfdriver dsrtc_cd; 113 1.1 thorpej 114 1.1 thorpej dev_type_open(dsrtc_open); 115 1.1 thorpej dev_type_close(dsrtc_close); 116 1.1 thorpej dev_type_read(dsrtc_read); 117 1.1 thorpej dev_type_write(dsrtc_write); 118 1.1 thorpej 119 1.1 thorpej const struct cdevsw dsrtc_cdevsw = { 120 1.1 thorpej dsrtc_open, dsrtc_close, dsrtc_read, dsrtc_write, noioctl, 121 1.8 cube nostop, notty, nopoll, nommap, nokqfilter, D_OTHER 122 1.1 thorpej }; 123 1.1 thorpej 124 1.13.4.1 yamt static int dsrtc_gettime_ymdhms(struct todr_chip_handle *, struct clock_ymdhms *); 125 1.13.4.1 yamt static int dsrtc_settime_ymdhms(struct todr_chip_handle *, struct clock_ymdhms *); 126 1.13.4.1 yamt static int dsrtc_clock_read_ymdhms(struct dsrtc_softc *, struct clock_ymdhms *); 127 1.13.4.1 yamt static int dsrtc_clock_write_ymdhms(struct dsrtc_softc *, struct clock_ymdhms *); 128 1.13.4.1 yamt 129 1.13.4.1 yamt static int dsrtc_gettime_timeval(struct todr_chip_handle *, struct timeval *); 130 1.13.4.1 yamt static int dsrtc_settime_timeval(struct todr_chip_handle *, struct timeval *); 131 1.13.4.1 yamt static int dsrtc_clock_read_timeval(struct dsrtc_softc *, time_t *); 132 1.13.4.1 yamt static int dsrtc_clock_write_timeval(struct dsrtc_softc *, time_t); 133 1.13.4.1 yamt 134 1.13.4.1 yamt static const struct dsrtc_model * 135 1.13.4.1 yamt dsrtc_model(u_int model) 136 1.13.4.1 yamt { 137 1.13.4.1 yamt /* no model given, assume it's a DS1307 (the first one) */ 138 1.13.4.1 yamt if (model == 0) 139 1.13.4.1 yamt return &dsrtc_models[0]; 140 1.13.4.1 yamt 141 1.13.4.1 yamt for (const struct dsrtc_model *dm = dsrtc_models; 142 1.13.4.1 yamt dm < dsrtc_models + __arraycount(dsrtc_models); dm++) { 143 1.13.4.1 yamt if (dm->dm_model == model) 144 1.13.4.1 yamt return dm; 145 1.13.4.1 yamt } 146 1.13.4.1 yamt return NULL; 147 1.13.4.1 yamt } 148 1.1 thorpej 149 1.1 thorpej static int 150 1.11 xtraeme dsrtc_match(device_t parent, cfdata_t cf, void *arg) 151 1.1 thorpej { 152 1.1 thorpej struct i2c_attach_args *ia = arg; 153 1.1 thorpej 154 1.13 phx if (ia->ia_name) { 155 1.13 phx /* direct config - check name */ 156 1.13 phx if (strcmp(ia->ia_name, "dsrtc") == 0) 157 1.13 phx return 1; 158 1.13 phx } else { 159 1.13 phx /* indirect config - check typical address */ 160 1.13 phx if (ia->ia_addr == DS1307_ADDR) 161 1.13.4.1 yamt return dsrtc_model(cf->cf_flags & 0xffff) != NULL; 162 1.13 phx } 163 1.13 phx return 0; 164 1.1 thorpej } 165 1.1 thorpej 166 1.1 thorpej static void 167 1.11 xtraeme dsrtc_attach(device_t parent, device_t self, void *arg) 168 1.1 thorpej { 169 1.5 thorpej struct dsrtc_softc *sc = device_private(self); 170 1.1 thorpej struct i2c_attach_args *ia = arg; 171 1.13.4.1 yamt const struct dsrtc_model * const dm = 172 1.13.4.1 yamt dsrtc_model(device_cfdata(self)->cf_flags); 173 1.1 thorpej 174 1.13.4.1 yamt aprint_naive(": Real-time Clock%s\n", 175 1.13.4.1 yamt dm->dm_nvram_size > 0 ? "/NVRAM" : ""); 176 1.13.4.1 yamt aprint_normal(": DS%u Real-time Clock%s\n", dm->dm_model, 177 1.13.4.1 yamt dm->dm_nvram_size > 0 ? "/NVRAM" : ""); 178 1.1 thorpej 179 1.1 thorpej sc->sc_tag = ia->ia_tag; 180 1.1 thorpej sc->sc_address = ia->ia_addr; 181 1.13.4.1 yamt sc->sc_model = *dm; 182 1.11 xtraeme sc->sc_dev = self; 183 1.1 thorpej sc->sc_open = 0; 184 1.1 thorpej sc->sc_todr.cookie = sc; 185 1.13.4.1 yamt if (dm->dm_flags & DSRTC_FLAG_BCD) { 186 1.13.4.1 yamt sc->sc_todr.todr_gettime_ymdhms = dsrtc_gettime_ymdhms; 187 1.13.4.1 yamt sc->sc_todr.todr_settime_ymdhms = dsrtc_settime_ymdhms; 188 1.13.4.1 yamt } else { 189 1.13.4.1 yamt sc->sc_todr.todr_gettime = dsrtc_gettime_timeval; 190 1.13.4.1 yamt sc->sc_todr.todr_settime = dsrtc_settime_timeval; 191 1.13.4.1 yamt } 192 1.1 thorpej sc->sc_todr.todr_setwen = NULL; 193 1.1 thorpej 194 1.1 thorpej todr_attach(&sc->sc_todr); 195 1.1 thorpej } 196 1.1 thorpej 197 1.1 thorpej /*ARGSUSED*/ 198 1.1 thorpej int 199 1.4 abs dsrtc_open(dev_t dev, int flag, int fmt, struct lwp *l) 200 1.1 thorpej { 201 1.1 thorpej struct dsrtc_softc *sc; 202 1.1 thorpej 203 1.12 tsutsui if ((sc = device_lookup_private(&dsrtc_cd, minor(dev))) == NULL) 204 1.13.4.1 yamt return ENXIO; 205 1.1 thorpej 206 1.1 thorpej /* XXX: Locking */ 207 1.1 thorpej if (sc->sc_open) 208 1.13.4.1 yamt return EBUSY; 209 1.1 thorpej 210 1.13.4.1 yamt sc->sc_open = true; 211 1.13.4.1 yamt return 0; 212 1.1 thorpej } 213 1.1 thorpej 214 1.1 thorpej /*ARGSUSED*/ 215 1.1 thorpej int 216 1.4 abs dsrtc_close(dev_t dev, int flag, int fmt, struct lwp *l) 217 1.1 thorpej { 218 1.1 thorpej struct dsrtc_softc *sc; 219 1.1 thorpej 220 1.12 tsutsui if ((sc = device_lookup_private(&dsrtc_cd, minor(dev))) == NULL) 221 1.13.4.1 yamt return ENXIO; 222 1.1 thorpej 223 1.13.4.1 yamt sc->sc_open = false; 224 1.13.4.1 yamt return 0; 225 1.1 thorpej } 226 1.1 thorpej 227 1.1 thorpej /*ARGSUSED*/ 228 1.1 thorpej int 229 1.1 thorpej dsrtc_read(dev_t dev, struct uio *uio, int flags) 230 1.1 thorpej { 231 1.1 thorpej struct dsrtc_softc *sc; 232 1.13.4.1 yamt int error; 233 1.1 thorpej 234 1.12 tsutsui if ((sc = device_lookup_private(&dsrtc_cd, minor(dev))) == NULL) 235 1.13.4.1 yamt return ENXIO; 236 1.1 thorpej 237 1.13.4.1 yamt const struct dsrtc_model * const dm = &sc->sc_model; 238 1.13.4.1 yamt if (uio->uio_offset >= dm->dm_nvram_size) 239 1.13.4.1 yamt return EINVAL; 240 1.1 thorpej 241 1.1 thorpej if ((error = iic_acquire_bus(sc->sc_tag, 0)) != 0) 242 1.13.4.1 yamt return error; 243 1.1 thorpej 244 1.13.4.1 yamt KASSERT(uio->uio_offset >= 0); 245 1.13.4.1 yamt while (uio->uio_resid && uio->uio_offset < dm->dm_nvram_size) { 246 1.13.4.1 yamt uint8_t ch, cmd; 247 1.13.4.1 yamt const u_int a = uio->uio_offset; 248 1.13.4.1 yamt cmd = a + dm->dm_nvram_start; 249 1.13.4.1 yamt if ((error = iic_exec(sc->sc_tag, 250 1.13.4.1 yamt uio->uio_resid > 1 ? I2C_OP_READ : I2C_OP_READ_WITH_STOP, 251 1.13.4.1 yamt sc->sc_address, &cmd, 1, &ch, 1, 0)) != 0) { 252 1.1 thorpej iic_release_bus(sc->sc_tag, 0); 253 1.11 xtraeme aprint_error_dev(sc->sc_dev, 254 1.13.4.2 yamt "%s: read failed at 0x%x: %d\n", 255 1.13.4.2 yamt __func__, a, error); 256 1.13.4.1 yamt return error; 257 1.1 thorpej } 258 1.1 thorpej if ((error = uiomove(&ch, 1, uio)) != 0) { 259 1.1 thorpej iic_release_bus(sc->sc_tag, 0); 260 1.13.4.1 yamt return error; 261 1.1 thorpej } 262 1.1 thorpej } 263 1.1 thorpej 264 1.1 thorpej iic_release_bus(sc->sc_tag, 0); 265 1.1 thorpej 266 1.13.4.1 yamt return 0; 267 1.1 thorpej } 268 1.1 thorpej 269 1.1 thorpej /*ARGSUSED*/ 270 1.1 thorpej int 271 1.1 thorpej dsrtc_write(dev_t dev, struct uio *uio, int flags) 272 1.1 thorpej { 273 1.1 thorpej struct dsrtc_softc *sc; 274 1.13.4.1 yamt int error; 275 1.1 thorpej 276 1.12 tsutsui if ((sc = device_lookup_private(&dsrtc_cd, minor(dev))) == NULL) 277 1.13.4.1 yamt return ENXIO; 278 1.1 thorpej 279 1.13.4.1 yamt const struct dsrtc_model * const dm = &sc->sc_model; 280 1.13.4.1 yamt if (uio->uio_offset >= dm->dm_nvram_size) 281 1.13.4.1 yamt return EINVAL; 282 1.1 thorpej 283 1.1 thorpej if ((error = iic_acquire_bus(sc->sc_tag, 0)) != 0) 284 1.13.4.1 yamt return error; 285 1.1 thorpej 286 1.13.4.1 yamt while (uio->uio_resid && uio->uio_offset < dm->dm_nvram_size) { 287 1.13.4.1 yamt uint8_t cmdbuf[2]; 288 1.13.4.1 yamt const u_int a = (int)uio->uio_offset; 289 1.13.4.1 yamt cmdbuf[0] = a + dm->dm_nvram_start; 290 1.1 thorpej if ((error = uiomove(&cmdbuf[1], 1, uio)) != 0) 291 1.1 thorpej break; 292 1.1 thorpej 293 1.1 thorpej if ((error = iic_exec(sc->sc_tag, 294 1.1 thorpej uio->uio_resid ? I2C_OP_WRITE : I2C_OP_WRITE_WITH_STOP, 295 1.1 thorpej sc->sc_address, cmdbuf, 1, &cmdbuf[1], 1, 0)) != 0) { 296 1.11 xtraeme aprint_error_dev(sc->sc_dev, 297 1.13.4.2 yamt "%s: write failed at 0x%x: %d\n", 298 1.13.4.2 yamt __func__, a, error); 299 1.1 thorpej break; 300 1.1 thorpej } 301 1.1 thorpej } 302 1.1 thorpej 303 1.1 thorpej iic_release_bus(sc->sc_tag, 0); 304 1.1 thorpej 305 1.13.4.1 yamt return error; 306 1.1 thorpej } 307 1.1 thorpej 308 1.1 thorpej static int 309 1.13.4.1 yamt dsrtc_gettime_ymdhms(struct todr_chip_handle *ch, struct clock_ymdhms *dt) 310 1.1 thorpej { 311 1.1 thorpej struct dsrtc_softc *sc = ch->cookie; 312 1.7 gdamore struct clock_ymdhms check; 313 1.1 thorpej int retries; 314 1.1 thorpej 315 1.7 gdamore memset(dt, 0, sizeof(*dt)); 316 1.1 thorpej memset(&check, 0, sizeof(check)); 317 1.1 thorpej 318 1.1 thorpej /* 319 1.1 thorpej * Since we don't support Burst Read, we have to read the clock twice 320 1.1 thorpej * until we get two consecutive identical results. 321 1.1 thorpej */ 322 1.1 thorpej retries = 5; 323 1.1 thorpej do { 324 1.13.4.1 yamt dsrtc_clock_read_ymdhms(sc, dt); 325 1.13.4.1 yamt dsrtc_clock_read_ymdhms(sc, &check); 326 1.7 gdamore } while (memcmp(dt, &check, sizeof(check)) != 0 && --retries); 327 1.1 thorpej 328 1.13.4.1 yamt return 0; 329 1.1 thorpej } 330 1.1 thorpej 331 1.1 thorpej static int 332 1.13.4.1 yamt dsrtc_settime_ymdhms(struct todr_chip_handle *ch, struct clock_ymdhms *dt) 333 1.1 thorpej { 334 1.1 thorpej struct dsrtc_softc *sc = ch->cookie; 335 1.1 thorpej 336 1.13.4.1 yamt if (dsrtc_clock_write_ymdhms(sc, dt) == 0) 337 1.13.4.1 yamt return -1; 338 1.1 thorpej 339 1.13.4.1 yamt return 0; 340 1.1 thorpej } 341 1.1 thorpej 342 1.1 thorpej static int 343 1.13.4.1 yamt dsrtc_clock_read_ymdhms(struct dsrtc_softc *sc, struct clock_ymdhms *dt) 344 1.1 thorpej { 345 1.13.4.1 yamt struct dsrtc_model * const dm = &sc->sc_model; 346 1.13.4.1 yamt uint8_t bcd[DSXXXX_RTC_SIZE], cmdbuf[1]; 347 1.13.4.2 yamt int error; 348 1.13.4.1 yamt 349 1.13.4.1 yamt KASSERT(DSXXXX_RTC_SIZE >= dm->dm_rtc_size); 350 1.1 thorpej 351 1.13.4.2 yamt if ((error = iic_acquire_bus(sc->sc_tag, I2C_F_POLL)) != 0) { 352 1.11 xtraeme aprint_error_dev(sc->sc_dev, 353 1.13.4.2 yamt "%s: failed to acquire I2C bus: %d\n", 354 1.13.4.2 yamt __func__, error); 355 1.13.4.1 yamt return 0; 356 1.1 thorpej } 357 1.1 thorpej 358 1.1 thorpej /* Read each RTC register in order. */ 359 1.13.4.2 yamt for (u_int i = 0; !error && i < dm->dm_rtc_size; i++) { 360 1.13.4.1 yamt cmdbuf[0] = dm->dm_rtc_start + i; 361 1.1 thorpej 362 1.13.4.2 yamt error = iic_exec(sc->sc_tag, I2C_OP_READ_WITH_STOP, 363 1.13.4.2 yamt sc->sc_address, cmdbuf, 1, &bcd[i], 1, I2C_F_POLL); 364 1.1 thorpej } 365 1.1 thorpej 366 1.1 thorpej /* Done with I2C */ 367 1.1 thorpej iic_release_bus(sc->sc_tag, I2C_F_POLL); 368 1.1 thorpej 369 1.13.4.2 yamt if (error != 0) { 370 1.13.4.2 yamt aprint_error_dev(sc->sc_dev, 371 1.13.4.2 yamt "%s: failed to read rtc at 0x%x: %d\n", 372 1.13.4.2 yamt __func__, cmdbuf[0], error); 373 1.13.4.2 yamt return 0; 374 1.13.4.2 yamt } 375 1.13.4.2 yamt 376 1.1 thorpej /* 377 1.13.4.1 yamt * Convert the RTC's register values into something useable 378 1.1 thorpej */ 379 1.13.4.1 yamt dt->dt_sec = FROMBCD(bcd[DSXXXX_SECONDS] & DSXXXX_SECONDS_MASK); 380 1.13.4.1 yamt dt->dt_min = FROMBCD(bcd[DSXXXX_MINUTES] & DSXXXX_MINUTES_MASK); 381 1.1 thorpej 382 1.13.4.1 yamt if ((bcd[DSXXXX_HOURS] & DSXXXX_HOURS_12HRS_MODE) != 0) { 383 1.13.4.1 yamt dt->dt_hour = FROMBCD(bcd[DSXXXX_HOURS] & 384 1.13.4.1 yamt DSXXXX_HOURS_12MASK) % 12; /* 12AM -> 0, 12PM -> 12 */ 385 1.13.4.1 yamt if (bcd[DSXXXX_HOURS] & DSXXXX_HOURS_12HRS_PM) 386 1.1 thorpej dt->dt_hour += 12; 387 1.13.4.1 yamt } else 388 1.13.4.1 yamt dt->dt_hour = FROMBCD(bcd[DSXXXX_HOURS] & 389 1.13.4.1 yamt DSXXXX_HOURS_24MASK); 390 1.1 thorpej 391 1.13.4.1 yamt dt->dt_day = FROMBCD(bcd[DSXXXX_DATE] & DSXXXX_DATE_MASK); 392 1.13.4.1 yamt dt->dt_mon = FROMBCD(bcd[DSXXXX_MONTH] & DSXXXX_MONTH_MASK); 393 1.1 thorpej 394 1.1 thorpej /* XXX: Should be an MD way to specify EPOCH used by BIOS/Firmware */ 395 1.13.4.1 yamt dt->dt_year = FROMBCD(bcd[DSXXXX_YEAR]) + POSIX_BASE_YEAR; 396 1.13.4.1 yamt if (bcd[DSXXXX_MONTH] & DSXXXX_MONTH_CENTURY) 397 1.13.4.1 yamt dt->dt_year += 100; 398 1.1 thorpej 399 1.13.4.1 yamt return 1; 400 1.1 thorpej } 401 1.1 thorpej 402 1.1 thorpej static int 403 1.13.4.1 yamt dsrtc_clock_write_ymdhms(struct dsrtc_softc *sc, struct clock_ymdhms *dt) 404 1.1 thorpej { 405 1.13.4.1 yamt struct dsrtc_model * const dm = &sc->sc_model; 406 1.13.4.1 yamt uint8_t bcd[DSXXXX_RTC_SIZE], cmdbuf[2]; 407 1.13.4.2 yamt int error; 408 1.13.4.1 yamt 409 1.13.4.1 yamt KASSERT(DSXXXX_RTC_SIZE >= dm->dm_rtc_size); 410 1.1 thorpej 411 1.1 thorpej /* 412 1.13.4.1 yamt * Convert our time representation into something the DSXXXX 413 1.1 thorpej * can understand. 414 1.1 thorpej */ 415 1.13.4.1 yamt bcd[DSXXXX_SECONDS] = TOBCD(dt->dt_sec); 416 1.13.4.1 yamt bcd[DSXXXX_MINUTES] = TOBCD(dt->dt_min); 417 1.13.4.1 yamt bcd[DSXXXX_HOURS] = TOBCD(dt->dt_hour); /* DSXXXX_HOURS_12HRS_MODE=0 */ 418 1.13.4.1 yamt bcd[DSXXXX_DATE] = TOBCD(dt->dt_day); 419 1.13.4.1 yamt bcd[DSXXXX_DAY] = TOBCD(dt->dt_wday); 420 1.13.4.1 yamt bcd[DSXXXX_MONTH] = TOBCD(dt->dt_mon); 421 1.13.4.1 yamt bcd[DSXXXX_YEAR] = TOBCD((dt->dt_year - POSIX_BASE_YEAR) % 100); 422 1.13.4.1 yamt if (dt->dt_year - POSIX_BASE_YEAR >= 100) 423 1.13.4.1 yamt bcd[DSXXXX_MONTH] |= DSXXXX_MONTH_CENTURY; 424 1.1 thorpej 425 1.13.4.2 yamt if ((error = iic_acquire_bus(sc->sc_tag, I2C_F_POLL)) != 0) { 426 1.11 xtraeme aprint_error_dev(sc->sc_dev, 427 1.13.4.2 yamt "%s: failed to acquire I2C bus: %d\n", 428 1.13.4.2 yamt __func__, error); 429 1.13.4.1 yamt return 0; 430 1.1 thorpej } 431 1.1 thorpej 432 1.1 thorpej /* Stop the clock */ 433 1.13.4.1 yamt cmdbuf[0] = dm->dm_ch_reg; 434 1.13.4.1 yamt 435 1.13.4.2 yamt if ((error = iic_exec(sc->sc_tag, I2C_OP_READ, sc->sc_address, 436 1.13.4.2 yamt cmdbuf, 1, &cmdbuf[1], 1, I2C_F_POLL)) != 0) { 437 1.13.4.1 yamt iic_release_bus(sc->sc_tag, I2C_F_POLL); 438 1.13.4.1 yamt aprint_error_dev(sc->sc_dev, 439 1.13.4.2 yamt "%s: failed to read Hold Clock: %d\n", 440 1.13.4.2 yamt __func__, error); 441 1.13.4.1 yamt return 0; 442 1.13.4.1 yamt } 443 1.13.4.1 yamt 444 1.13.4.1 yamt cmdbuf[1] |= dm->dm_ch_value; 445 1.1 thorpej 446 1.13.4.2 yamt if ((error = iic_exec(sc->sc_tag, I2C_OP_WRITE, sc->sc_address, 447 1.13.4.2 yamt cmdbuf, 1, &cmdbuf[1], 1, I2C_F_POLL)) != 0) { 448 1.1 thorpej iic_release_bus(sc->sc_tag, I2C_F_POLL); 449 1.11 xtraeme aprint_error_dev(sc->sc_dev, 450 1.13.4.2 yamt "%s: failed to write Hold Clock: %d\n", 451 1.13.4.2 yamt __func__, error); 452 1.13.4.1 yamt return 0; 453 1.1 thorpej } 454 1.1 thorpej 455 1.1 thorpej /* 456 1.1 thorpej * Write registers in reverse order. The last write (to the Seconds 457 1.1 thorpej * register) will undo the Clock Hold, above. 458 1.1 thorpej */ 459 1.13.4.1 yamt uint8_t op = I2C_OP_WRITE; 460 1.13.4.1 yamt for (signed int i = dm->dm_rtc_size - 1; i >= 0; i--) { 461 1.13.4.1 yamt cmdbuf[0] = dm->dm_rtc_start + i; 462 1.13.4.1 yamt if (dm->dm_rtc_start + i == dm->dm_ch_reg) { 463 1.13.4.1 yamt op = I2C_OP_WRITE_WITH_STOP; 464 1.13.4.1 yamt } 465 1.13.4.2 yamt if ((error = iic_exec(sc->sc_tag, op, sc->sc_address, 466 1.13.4.2 yamt cmdbuf, 1, &bcd[i], 1, I2C_F_POLL)) != 0) { 467 1.1 thorpej iic_release_bus(sc->sc_tag, I2C_F_POLL); 468 1.11 xtraeme aprint_error_dev(sc->sc_dev, 469 1.13.4.2 yamt "%s: failed to write rtc at 0x%x: %d\n", 470 1.13.4.2 yamt __func__, i, error); 471 1.1 thorpej /* XXX: Clock Hold is likely still asserted! */ 472 1.13.4.1 yamt return 0; 473 1.1 thorpej } 474 1.1 thorpej } 475 1.13.4.1 yamt /* 476 1.13.4.1 yamt * If the clock hold register isn't the same register as seconds, 477 1.13.4.1 yamt * we need to reeanble the clock. 478 1.13.4.1 yamt */ 479 1.13.4.1 yamt if (op != I2C_OP_WRITE_WITH_STOP) { 480 1.13.4.1 yamt cmdbuf[0] = dm->dm_ch_reg; 481 1.13.4.1 yamt cmdbuf[1] &= ~dm->dm_ch_value; 482 1.13.4.1 yamt 483 1.13.4.2 yamt if ((error = iic_exec(sc->sc_tag, I2C_OP_WRITE_WITH_STOP, 484 1.13.4.2 yamt sc->sc_address, cmdbuf, 1, &cmdbuf[1], 1, 485 1.13.4.2 yamt I2C_F_POLL)) != 0) { 486 1.13.4.1 yamt iic_release_bus(sc->sc_tag, I2C_F_POLL); 487 1.13.4.1 yamt aprint_error_dev(sc->sc_dev, 488 1.13.4.2 yamt "%s: failed to Hold Clock: %d\n", 489 1.13.4.2 yamt __func__, error); 490 1.13.4.1 yamt return 0; 491 1.13.4.1 yamt } 492 1.13.4.1 yamt } 493 1.13.4.1 yamt 494 1.13.4.1 yamt iic_release_bus(sc->sc_tag, I2C_F_POLL); 495 1.13.4.1 yamt 496 1.13.4.1 yamt return 1; 497 1.13.4.1 yamt } 498 1.13.4.1 yamt 499 1.13.4.1 yamt static int 500 1.13.4.1 yamt dsrtc_gettime_timeval(struct todr_chip_handle *ch, struct timeval *tv) 501 1.13.4.1 yamt { 502 1.13.4.1 yamt struct dsrtc_softc *sc = ch->cookie; 503 1.13.4.1 yamt struct timeval check; 504 1.13.4.1 yamt int retries; 505 1.13.4.1 yamt 506 1.13.4.1 yamt memset(tv, 0, sizeof(*tv)); 507 1.13.4.1 yamt memset(&check, 0, sizeof(check)); 508 1.13.4.1 yamt 509 1.13.4.1 yamt /* 510 1.13.4.1 yamt * Since we don't support Burst Read, we have to read the clock twice 511 1.13.4.1 yamt * until we get two consecutive identical results. 512 1.13.4.1 yamt */ 513 1.13.4.1 yamt retries = 5; 514 1.13.4.1 yamt do { 515 1.13.4.1 yamt dsrtc_clock_read_timeval(sc, &tv->tv_sec); 516 1.13.4.1 yamt dsrtc_clock_read_timeval(sc, &check.tv_sec); 517 1.13.4.1 yamt } while (memcmp(tv, &check, sizeof(check)) != 0 && --retries); 518 1.13.4.1 yamt 519 1.13.4.1 yamt return 0; 520 1.13.4.1 yamt } 521 1.13.4.1 yamt 522 1.13.4.1 yamt static int 523 1.13.4.1 yamt dsrtc_settime_timeval(struct todr_chip_handle *ch, struct timeval *tv) 524 1.13.4.1 yamt { 525 1.13.4.1 yamt struct dsrtc_softc *sc = ch->cookie; 526 1.13.4.1 yamt 527 1.13.4.1 yamt if (dsrtc_clock_write_timeval(sc, tv->tv_sec) == 0) 528 1.13.4.1 yamt return -1; 529 1.13.4.1 yamt 530 1.13.4.1 yamt return 0; 531 1.13.4.1 yamt } 532 1.13.4.1 yamt 533 1.13.4.1 yamt /* 534 1.13.4.1 yamt * The RTC probably has a nice Clock Burst Read/Write command, but we can't use 535 1.13.4.1 yamt * it, since some I2C controllers don't support anything other than single-byte 536 1.13.4.1 yamt * transfers. 537 1.13.4.1 yamt */ 538 1.13.4.1 yamt static int 539 1.13.4.1 yamt dsrtc_clock_read_timeval(struct dsrtc_softc *sc, time_t *tp) 540 1.13.4.1 yamt { 541 1.13.4.1 yamt const struct dsrtc_model * const dm = &sc->sc_model; 542 1.13.4.1 yamt uint8_t buf[4]; 543 1.13.4.2 yamt int error; 544 1.13.4.1 yamt 545 1.13.4.2 yamt if ((error = iic_acquire_bus(sc->sc_tag, I2C_F_POLL)) != 0) { 546 1.13.4.2 yamt aprint_error_dev(sc->sc_dev, 547 1.13.4.2 yamt "%s: failed to acquire I2C bus: %d\n", 548 1.13.4.2 yamt __func__, error); 549 1.13.4.2 yamt return 0; 550 1.13.4.1 yamt } 551 1.13.4.1 yamt 552 1.13.4.1 yamt /* read all registers: */ 553 1.13.4.1 yamt uint8_t reg = dm->dm_rtc_start; 554 1.13.4.2 yamt error = iic_exec(sc->sc_tag, I2C_OP_READ_WITH_STOP, sc->sc_address, 555 1.13.4.2 yamt ®, 1, buf, 4, I2C_F_POLL); 556 1.13.4.1 yamt 557 1.13.4.1 yamt /* Done with I2C */ 558 1.13.4.1 yamt iic_release_bus(sc->sc_tag, I2C_F_POLL); 559 1.13.4.1 yamt 560 1.13.4.2 yamt if (error != 0) { 561 1.13.4.2 yamt aprint_error_dev(sc->sc_dev, 562 1.13.4.2 yamt "%s: failed to read rtc at 0x%x: %d\n", 563 1.13.4.2 yamt __func__, reg, error); 564 1.13.4.2 yamt return 0; 565 1.13.4.2 yamt } 566 1.13.4.2 yamt 567 1.13.4.1 yamt uint32_t v = (buf[3] << 24) | (buf[2] << 16) | (buf[1] << 8) | buf[0]; 568 1.13.4.1 yamt *tp = v; 569 1.13.4.1 yamt 570 1.13.4.1 yamt aprint_debug_dev(sc->sc_dev, "%s: cntr=0x%08"PRIx32"\n", 571 1.13.4.1 yamt __func__, v); 572 1.13.4.1 yamt 573 1.13.4.2 yamt return 1; 574 1.13.4.1 yamt } 575 1.13.4.1 yamt 576 1.13.4.1 yamt static int 577 1.13.4.1 yamt dsrtc_clock_write_timeval(struct dsrtc_softc *sc, time_t t) 578 1.13.4.1 yamt { 579 1.13.4.1 yamt const struct dsrtc_model * const dm = &sc->sc_model; 580 1.13.4.1 yamt size_t buflen = dm->dm_rtc_size + 2; 581 1.13.4.1 yamt uint8_t buf[buflen]; 582 1.13.4.2 yamt int error; 583 1.13.4.1 yamt 584 1.13.4.1 yamt KASSERT((dm->dm_flags & DSRTC_FLAG_CLOCK_HOLD) == 0); 585 1.13.4.1 yamt KASSERT(dm->dm_ch_reg == dm->dm_rtc_start + 4); 586 1.13.4.1 yamt 587 1.13.4.1 yamt buf[0] = dm->dm_rtc_start; 588 1.13.4.1 yamt buf[1] = (t >> 0) & 0xff; 589 1.13.4.1 yamt buf[2] = (t >> 8) & 0xff; 590 1.13.4.1 yamt buf[3] = (t >> 16) & 0xff; 591 1.13.4.1 yamt buf[4] = (t >> 24) & 0xff; 592 1.13.4.1 yamt buf[5] = 0; 593 1.13.4.1 yamt 594 1.13.4.2 yamt if ((error = iic_acquire_bus(sc->sc_tag, I2C_F_POLL)) != 0) { 595 1.13.4.2 yamt aprint_error_dev(sc->sc_dev, 596 1.13.4.2 yamt "%s: failed to acquire I2C bus: %d\n", 597 1.13.4.2 yamt __func__, error); 598 1.13.4.2 yamt return 0; 599 1.13.4.1 yamt } 600 1.13.4.1 yamt 601 1.13.4.2 yamt error = iic_exec(sc->sc_tag, I2C_OP_WRITE_WITH_STOP, sc->sc_address, 602 1.13.4.2 yamt &buf, buflen, NULL, 0, I2C_F_POLL); 603 1.1 thorpej 604 1.13.4.2 yamt /* Done with I2C */ 605 1.1 thorpej iic_release_bus(sc->sc_tag, I2C_F_POLL); 606 1.1 thorpej 607 1.13.4.2 yamt /* send data */ 608 1.13.4.2 yamt if (error != 0) { 609 1.13.4.2 yamt aprint_error_dev(sc->sc_dev, 610 1.13.4.2 yamt "%s: failed to set time: %d\n", 611 1.13.4.2 yamt __func__, error); 612 1.13.4.2 yamt return 0; 613 1.13.4.2 yamt } 614 1.13.4.2 yamt 615 1.13.4.2 yamt return 1; 616 1.1 thorpej } 617
Indexes created Thu Oct 02 10:09:58 GMT 2025