tx39clock.c revision 1.17 1 1.17 he /* $NetBSD: tx39clock.c,v 1.17 2005/06/07 12:10:44 he Exp $ */
2 1.1 uch
3 1.6 uch /*-
4 1.11 uch * Copyright (c) 1999-2002 The NetBSD Foundation, Inc.
5 1.1 uch * All rights reserved.
6 1.1 uch *
7 1.6 uch * This code is derived from software contributed to The NetBSD Foundation
8 1.6 uch * by UCHIYAMA Yasushi.
9 1.6 uch *
10 1.1 uch * Redistribution and use in source and binary forms, with or without
11 1.1 uch * modification, are permitted provided that the following conditions
12 1.1 uch * are met:
13 1.1 uch * 1. Redistributions of source code must retain the above copyright
14 1.1 uch * notice, this list of conditions and the following disclaimer.
15 1.6 uch * 2. Redistributions in binary form must reproduce the above copyright
16 1.6 uch * notice, this list of conditions and the following disclaimer in the
17 1.6 uch * documentation and/or other materials provided with the distribution.
18 1.6 uch * 3. All advertising materials mentioning features or use of this software
19 1.6 uch * must display the following acknowledgement:
20 1.6 uch * This product includes software developed by the NetBSD
21 1.6 uch * Foundation, Inc. and its contributors.
22 1.6 uch * 4. Neither the name of The NetBSD Foundation nor the names of its
23 1.6 uch * contributors may be used to endorse or promote products derived
24 1.6 uch * from this software without specific prior written permission.
25 1.1 uch *
26 1.6 uch * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
27 1.6 uch * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
28 1.6 uch * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
29 1.6 uch * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
30 1.6 uch * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
31 1.6 uch * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
32 1.6 uch * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
33 1.6 uch * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
34 1.6 uch * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
35 1.6 uch * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
36 1.6 uch * POSSIBILITY OF SUCH DAMAGE.
37 1.1 uch */
38 1.14 lukem
39 1.14 lukem #include <sys/cdefs.h>
40 1.17 he __KERNEL_RCSID(0, "$NetBSD: tx39clock.c,v 1.17 2005/06/07 12:10:44 he Exp $");
41 1.6 uch
42 1.11 uch #include "opt_tx39clock_debug.h"
43 1.1 uch
44 1.1 uch #include <sys/param.h>
45 1.1 uch #include <sys/systm.h>
46 1.1 uch
47 1.3 uch #include <dev/clock_subr.h>
48 1.3 uch
49 1.1 uch #include <machine/bus.h>
50 1.10 uch #include <machine/sysconf.h>
51 1.1 uch
52 1.1 uch #include <hpcmips/tx/tx39var.h>
53 1.3 uch #include <hpcmips/tx/tx39icureg.h>
54 1.5 uch #include <hpcmips/tx/tx39clockvar.h>
55 1.1 uch #include <hpcmips/tx/tx39clockreg.h>
56 1.1 uch #include <hpcmips/tx/tx39timerreg.h>
57 1.3 uch
58 1.11 uch #ifdef TX39CLOCK_DEBUG
59 1.11 uch #define DPRINTF_ENABLE
60 1.11 uch #define DPRINTF_DEBUG tx39clock_debug
61 1.3 uch #endif
62 1.11 uch #include <machine/debug.h>
63 1.3 uch
64 1.11 uch #define ISSETPRINT(r, m) \
65 1.11 uch dbg_bitmask_print(r, TX39_CLOCK_EN ## m ## CLK, #m)
66 1.1 uch
67 1.6 uch void tx39clock_init(struct device *);
68 1.10 uch void tx39clock_get(struct device *, time_t, struct clock_ymdhms *);
69 1.10 uch void tx39clock_set(struct device *, struct clock_ymdhms *);
70 1.3 uch
71 1.10 uch struct platform_clock tx39_clock = {
72 1.10 uch #define CLOCK_RATE 100
73 1.10 uch CLOCK_RATE, tx39clock_init, tx39clock_get, tx39clock_set,
74 1.3 uch };
75 1.1 uch
76 1.3 uch struct txtime {
77 1.3 uch u_int32_t t_hi;
78 1.3 uch u_int32_t t_lo;
79 1.3 uch };
80 1.3 uch
81 1.3 uch struct tx39clock_softc {
82 1.3 uch struct device sc_dev;
83 1.3 uch tx_chipset_tag_t sc_tc;
84 1.3 uch
85 1.5 uch int sc_alarm;
86 1.3 uch int sc_enabled;
87 1.3 uch int sc_year;
88 1.10 uch struct clock_ymdhms sc_epoch;
89 1.1 uch };
90 1.1 uch
91 1.6 uch int tx39clock_match(struct device *, struct cfdata *, void *);
92 1.6 uch void tx39clock_attach(struct device *, struct device *, void *);
93 1.11 uch #ifdef TX39CLOCK_DEBUG
94 1.6 uch void tx39clock_dump(tx_chipset_tag_t);
95 1.11 uch #endif
96 1.6 uch
97 1.6 uch void tx39clock_cpuspeed(int *, int *);
98 1.6 uch
99 1.6 uch void __tx39timer_rtcfreeze(tx_chipset_tag_t);
100 1.6 uch void __tx39timer_rtcreset(tx_chipset_tag_t);
101 1.6 uch __inline__ void __tx39timer_rtcget(struct txtime *);
102 1.6 uch __inline__ time_t __tx39timer_rtc2sec(struct txtime *);
103 1.1 uch
104 1.13 thorpej CFATTACH_DECL(tx39clock, sizeof(struct tx39clock_softc),
105 1.13 thorpej tx39clock_match, tx39clock_attach, NULL, NULL);
106 1.1 uch
107 1.1 uch int
108 1.6 uch tx39clock_match(struct device *parent, struct cfdata *cf, void *aux)
109 1.1 uch {
110 1.10 uch
111 1.9 uch return (ATTACH_FIRST);
112 1.1 uch }
113 1.1 uch
114 1.1 uch void
115 1.6 uch tx39clock_attach(struct device *parent, struct device *self, void *aux)
116 1.1 uch {
117 1.1 uch struct txsim_attach_args *ta = aux;
118 1.1 uch struct tx39clock_softc *sc = (void*)self;
119 1.1 uch tx_chipset_tag_t tc;
120 1.1 uch txreg_t reg;
121 1.1 uch
122 1.1 uch tc = sc->sc_tc = ta->ta_tc;
123 1.5 uch tx_conf_register_clock(tc, self);
124 1.1 uch
125 1.3 uch /* Reset timer module */
126 1.3 uch tx_conf_write(tc, TX39_TIMERCONTROL_REG, 0);
127 1.3 uch
128 1.3 uch /* Enable periodic timer */
129 1.1 uch reg = tx_conf_read(tc, TX39_TIMERCONTROL_REG);
130 1.1 uch reg |= TX39_TIMERCONTROL_ENPERTIMER;
131 1.1 uch tx_conf_write(tc, TX39_TIMERCONTROL_REG, reg);
132 1.3 uch
133 1.3 uch sc->sc_enabled = 0;
134 1.3 uch /*
135 1.3 uch * RTC and ALARM
136 1.3 uch * RTCINT ... INTR5 bit 31 (roll over)
137 1.3 uch * ALARMINT ... INTR5 bit 30
138 1.3 uch * PERINT ... INTR5 bit 29
139 1.3 uch */
140 1.3 uch
141 1.10 uch platform_clock_attach(self, &tx39_clock);
142 1.1 uch
143 1.11 uch #ifdef TX39CLOCK_DEBUG
144 1.1 uch tx39clock_dump(tc);
145 1.11 uch #endif /* TX39CLOCK_DEBUG */
146 1.1 uch }
147 1.1 uch
148 1.3 uch /*
149 1.3 uch * cpuclock ... CPU clock (Hz)
150 1.3 uch * cpuspeed ... instructions-per-microsecond
151 1.1 uch */
152 1.1 uch void
153 1.17 he tx39clock_cpuspeed(int *cpuclock, int *cpu_speed)
154 1.3 uch {
155 1.3 uch struct txtime t0, t1;
156 1.3 uch int elapsed;
157 1.3 uch
158 1.3 uch __tx39timer_rtcget(&t0);
159 1.15 simonb __asm__ __volatile__(
160 1.15 simonb ".set noreorder; \n\t"
161 1.15 simonb "li $8, 10000000; \n"
162 1.15 simonb "1: nop; \n\t"
163 1.15 simonb "nop; \n\t"
164 1.15 simonb "nop; \n\t"
165 1.15 simonb "nop; \n\t"
166 1.15 simonb "nop; \n\t"
167 1.15 simonb "nop; \n\t"
168 1.15 simonb "nop; \n\t"
169 1.15 simonb "add $8, $8, -1; \n\t"
170 1.15 simonb "bnez $8, 1b; \n\t"
171 1.15 simonb "nop; \n\t"
172 1.15 simonb ".set reorder;");
173 1.3 uch __tx39timer_rtcget(&t1);
174 1.3 uch
175 1.3 uch elapsed = t1.t_lo - t0.t_lo;
176 1.3 uch
177 1.3 uch *cpuclock = (100000000 / elapsed) * TX39_RTCLOCK;
178 1.17 he *cpu_speed = *cpuclock / 1000000;
179 1.3 uch }
180 1.3 uch
181 1.3 uch void
182 1.6 uch __tx39timer_rtcfreeze(tx_chipset_tag_t tc)
183 1.1 uch {
184 1.1 uch txreg_t reg;
185 1.1 uch
186 1.1 uch reg = tx_conf_read(tc, TX39_TIMERCONTROL_REG);
187 1.3 uch
188 1.1 uch /* Freeze RTC */
189 1.1 uch reg |= TX39_TIMERCONTROL_FREEZEPRE; /* Upper 8bit */
190 1.1 uch reg |= TX39_TIMERCONTROL_FREEZERTC; /* Lower 32bit */
191 1.3 uch
192 1.1 uch /* Freeze periodic timer */
193 1.1 uch reg |= TX39_TIMERCONTROL_FREEZETIMER;
194 1.1 uch reg &= ~TX39_TIMERCONTROL_ENPERTIMER;
195 1.1 uch tx_conf_write(tc, TX39_TIMERCONTROL_REG, reg);
196 1.1 uch }
197 1.1 uch
198 1.6 uch __inline__ time_t
199 1.6 uch __tx39timer_rtc2sec(struct txtime *t)
200 1.3 uch {
201 1.3 uch /* This rely on RTC is 32.768kHz */
202 1.9 uch return ((t->t_lo >> 15) | (t->t_hi << 17));
203 1.3 uch }
204 1.3 uch
205 1.6 uch __inline__ void
206 1.6 uch __tx39timer_rtcget(struct txtime *t)
207 1.3 uch {
208 1.3 uch tx_chipset_tag_t tc;
209 1.3 uch txreg_t reghi, reglo, oreghi, oreglo;
210 1.3 uch int retry;
211 1.3 uch
212 1.3 uch tc = tx_conf_get_tag();
213 1.3 uch
214 1.3 uch retry = 10;
215 1.3 uch
216 1.3 uch do {
217 1.3 uch oreglo = tx_conf_read(tc, TX39_TIMERRTCLO_REG);
218 1.3 uch reglo = tx_conf_read(tc, TX39_TIMERRTCLO_REG);
219 1.3 uch
220 1.3 uch oreghi = tx_conf_read(tc, TX39_TIMERRTCHI_REG);
221 1.3 uch reghi = tx_conf_read(tc, TX39_TIMERRTCHI_REG);
222 1.3 uch } while ((reghi != oreghi || reglo != oreglo) && (--retry > 0));
223 1.3 uch
224 1.3 uch if (retry < 0) {
225 1.3 uch printf("RTC timer read error.\n");
226 1.3 uch }
227 1.3 uch
228 1.3 uch t->t_hi = TX39_TIMERRTCHI(reghi);
229 1.3 uch t->t_lo = reglo;
230 1.3 uch }
231 1.3 uch
232 1.1 uch void
233 1.6 uch __tx39timer_rtcreset(tx_chipset_tag_t tc)
234 1.1 uch {
235 1.1 uch txreg_t reg;
236 1.1 uch
237 1.1 uch reg = tx_conf_read(tc, TX39_TIMERCONTROL_REG);
238 1.3 uch
239 1.1 uch /* Reset counter and stop */
240 1.1 uch reg |= TX39_TIMERCONTROL_RTCCLR;
241 1.1 uch tx_conf_write(tc, TX39_TIMERCONTROL_REG, reg);
242 1.3 uch
243 1.1 uch /* Count again */
244 1.1 uch reg &= ~TX39_TIMERCONTROL_RTCCLR;
245 1.1 uch tx_conf_write(tc, TX39_TIMERCONTROL_REG, reg);
246 1.1 uch }
247 1.1 uch
248 1.1 uch void
249 1.6 uch tx39clock_init(struct device *dev)
250 1.1 uch {
251 1.5 uch struct tx39clock_softc *sc = (void*)dev;
252 1.5 uch tx_chipset_tag_t tc = sc->sc_tc;
253 1.1 uch txreg_t reg;
254 1.3 uch int pcnt;
255 1.1 uch
256 1.3 uch /*
257 1.3 uch * Setup periodic timer (interrupting hz times per second.)
258 1.3 uch */
259 1.10 uch pcnt = TX39_TIMERCLK / CLOCK_RATE - 1;
260 1.3 uch reg = tx_conf_read(tc, TX39_TIMERPERIODIC_REG);
261 1.3 uch TX39_TIMERPERIODIC_PERVAL_CLR(reg);
262 1.3 uch reg = TX39_TIMERPERIODIC_PERVAL_SET(reg, pcnt);
263 1.3 uch tx_conf_write(tc, TX39_TIMERPERIODIC_REG, reg);
264 1.3 uch
265 1.3 uch /*
266 1.3 uch * Enable periodic timer
267 1.3 uch */
268 1.1 uch reg = tx_conf_read(tc, TX39_INTRENABLE6_REG);
269 1.1 uch reg |= TX39_INTRPRI13_TIMER_PERIODIC_BIT;
270 1.1 uch tx_conf_write(tc, TX39_INTRENABLE6_REG, reg);
271 1.1 uch }
272 1.1 uch
273 1.1 uch void
274 1.10 uch tx39clock_get(struct device *dev, time_t base, struct clock_ymdhms *t)
275 1.1 uch {
276 1.10 uch struct tx39clock_softc *sc = (void *)dev;
277 1.3 uch struct clock_ymdhms dt;
278 1.3 uch struct txtime tt;
279 1.3 uch time_t sec;
280 1.3 uch
281 1.3 uch __tx39timer_rtcget(&tt);
282 1.3 uch sec = __tx39timer_rtc2sec(&tt);
283 1.3 uch
284 1.3 uch if (!sc->sc_enabled) {
285 1.3 uch DPRINTF(("bootstrap: %d sec from previous reboot\n",
286 1.9 uch (int)sec));
287 1.3 uch
288 1.3 uch sc->sc_enabled = 1;
289 1.16 shin clock_secs_to_ymdhms(base, &dt);
290 1.16 shin sc->sc_epoch = dt;
291 1.3 uch base += sec;
292 1.3 uch } else {
293 1.3 uch dt.dt_year = sc->sc_year;
294 1.10 uch dt.dt_mon = sc->sc_epoch.dt_mon;
295 1.10 uch dt.dt_day = sc->sc_epoch.dt_day;
296 1.10 uch dt.dt_hour = sc->sc_epoch.dt_hour;
297 1.10 uch dt.dt_min = sc->sc_epoch.dt_min;
298 1.10 uch dt.dt_sec = sc->sc_epoch.dt_sec;
299 1.10 uch dt.dt_wday = sc->sc_epoch.dt_wday;
300 1.4 uch base = sec + clock_ymdhms_to_secs(&dt);
301 1.3 uch }
302 1.3 uch
303 1.3 uch clock_secs_to_ymdhms(base, &dt);
304 1.10 uch
305 1.10 uch t->dt_year = dt.dt_year % 100;
306 1.10 uch t->dt_mon = dt.dt_mon;
307 1.10 uch t->dt_day = dt.dt_day;
308 1.10 uch t->dt_hour = dt.dt_hour;
309 1.10 uch t->dt_min = dt.dt_min;
310 1.10 uch t->dt_sec = dt.dt_sec;
311 1.10 uch t->dt_wday = dt.dt_wday;
312 1.1 uch
313 1.3 uch sc->sc_year = dt.dt_year;
314 1.1 uch }
315 1.1 uch
316 1.1 uch void
317 1.10 uch tx39clock_set(struct device *dev, struct clock_ymdhms *dt)
318 1.1 uch {
319 1.10 uch struct tx39clock_softc *sc = (void *)dev;
320 1.3 uch
321 1.3 uch if (sc->sc_enabled) {
322 1.10 uch sc->sc_epoch = *dt;
323 1.16 shin __tx39timer_rtcreset(sc->sc_tc);
324 1.16 shin tx39clock_alarm_refill(sc->sc_tc);
325 1.3 uch }
326 1.5 uch }
327 1.5 uch
328 1.5 uch int
329 1.6 uch tx39clock_alarm_set(tx_chipset_tag_t tc, int msec)
330 1.5 uch {
331 1.5 uch struct tx39clock_softc *sc = tc->tc_clockt;
332 1.5 uch
333 1.5 uch sc->sc_alarm = TX39_MSEC2RTC(msec);
334 1.5 uch tx39clock_alarm_refill(tc);
335 1.5 uch
336 1.9 uch return (0);
337 1.5 uch }
338 1.5 uch
339 1.5 uch void
340 1.6 uch tx39clock_alarm_refill(tx_chipset_tag_t tc)
341 1.5 uch {
342 1.5 uch struct tx39clock_softc *sc = tc->tc_clockt;
343 1.5 uch struct txtime t;
344 1.6 uch u_int64_t time;
345 1.5 uch
346 1.5 uch __tx39timer_rtcget(&t);
347 1.5 uch
348 1.6 uch time = ((u_int64_t)t.t_hi << 32) | (u_int64_t)t.t_lo;
349 1.6 uch time += (u_int64_t)sc->sc_alarm;
350 1.6 uch
351 1.6 uch t.t_hi = (u_int32_t)((time >> 32) & TX39_TIMERALARMHI_MASK);
352 1.6 uch t.t_lo = (u_int32_t)(time & 0xffffffff);
353 1.5 uch
354 1.6 uch tx_conf_write(tc, TX39_TIMERALARMHI_REG, t.t_hi);
355 1.6 uch tx_conf_write(tc, TX39_TIMERALARMLO_REG, t.t_lo);
356 1.1 uch }
357 1.1 uch
358 1.11 uch #ifdef TX39CLOCK_DEBUG
359 1.1 uch void
360 1.6 uch tx39clock_dump(tx_chipset_tag_t tc)
361 1.1 uch {
362 1.1 uch txreg_t reg;
363 1.1 uch
364 1.1 uch reg = tx_conf_read(tc, TX39_CLOCKCTRL_REG);
365 1.3 uch
366 1.1 uch printf(" ");
367 1.1 uch ISSETPRINT(reg, CHIM);
368 1.1 uch #ifdef TX391X
369 1.1 uch ISSETPRINT(reg, VID);
370 1.1 uch ISSETPRINT(reg, MBUS);
371 1.1 uch #endif /* TX391X */
372 1.1 uch #ifdef TX392X
373 1.1 uch ISSETPRINT(reg, IRDA);
374 1.1 uch #endif /* TX392X */
375 1.1 uch ISSETPRINT(reg, SPI);
376 1.1 uch ISSETPRINT(reg, TIMER);
377 1.1 uch ISSETPRINT(reg, FASTTIMER);
378 1.1 uch #ifdef TX392X
379 1.1 uch ISSETPRINT(reg, C48MOUT);
380 1.1 uch #endif /* TX392X */
381 1.1 uch ISSETPRINT(reg, SIBM);
382 1.1 uch ISSETPRINT(reg, CSER);
383 1.1 uch ISSETPRINT(reg, IR);
384 1.1 uch ISSETPRINT(reg, UARTA);
385 1.1 uch ISSETPRINT(reg, UARTB);
386 1.1 uch printf("\n");
387 1.1 uch }
388 1.11 uch #endif /* TX39CLOCK_DEBUG */
389