1*c7fb772bSthorpej /* $NetBSD: windermere.c,v 1.3 2021/08/07 16:18:48 thorpej Exp $ */
2d7b7d02eSkiyohara /*
3d7b7d02eSkiyohara * Copyright (c) 2012 KIYOHARA Takashi
4d7b7d02eSkiyohara * All rights reserved.
5d7b7d02eSkiyohara *
6d7b7d02eSkiyohara * Redistribution and use in source and binary forms, with or without
7d7b7d02eSkiyohara * modification, are permitted provided that the following conditions
8d7b7d02eSkiyohara * are met:
9d7b7d02eSkiyohara * 1. Redistributions of source code must retain the above copyright
10d7b7d02eSkiyohara * notice, this list of conditions and the following disclaimer.
11d7b7d02eSkiyohara * 2. Redistributions in binary form must reproduce the above copyright
12d7b7d02eSkiyohara * notice, this list of conditions and the following disclaimer in the
13d7b7d02eSkiyohara * documentation and/or other materials provided with the distribution.
14d7b7d02eSkiyohara *
15d7b7d02eSkiyohara * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
16d7b7d02eSkiyohara * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
17d7b7d02eSkiyohara * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
18d7b7d02eSkiyohara * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
19d7b7d02eSkiyohara * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
20d7b7d02eSkiyohara * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
21d7b7d02eSkiyohara * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
22d7b7d02eSkiyohara * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
23d7b7d02eSkiyohara * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
24d7b7d02eSkiyohara * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
25d7b7d02eSkiyohara * POSSIBILITY OF SUCH DAMAGE.
26d7b7d02eSkiyohara */
27d7b7d02eSkiyohara
28d7b7d02eSkiyohara #include <sys/cdefs.h>
29*c7fb772bSthorpej __KERNEL_RCSID(0, "$NetBSD: windermere.c,v 1.3 2021/08/07 16:18:48 thorpej Exp $");
30d7b7d02eSkiyohara
31d7b7d02eSkiyohara #include "opt_com.h"
32d7b7d02eSkiyohara
33d7b7d02eSkiyohara #define _INTR_PRIVATE
34d7b7d02eSkiyohara
35d7b7d02eSkiyohara #include <sys/param.h>
36d7b7d02eSkiyohara #include <sys/bus.h>
37d7b7d02eSkiyohara #include <sys/device.h>
38d7b7d02eSkiyohara #include <sys/errno.h>
39d7b7d02eSkiyohara #include <sys/kernel.h>
40d7b7d02eSkiyohara #include <sys/systm.h>
41d7b7d02eSkiyohara #include <sys/timetc.h>
42d7b7d02eSkiyohara #include <sys/types.h>
43d7b7d02eSkiyohara
44d7b7d02eSkiyohara #include <arm/mainbus/mainbus.h>
45d7b7d02eSkiyohara #include <arm/pic/picvar.h>
46d7b7d02eSkiyohara
47d7b7d02eSkiyohara #include <machine/epoc32.h>
48d7b7d02eSkiyohara #include <machine/limits.h>
49d7b7d02eSkiyohara
50d7b7d02eSkiyohara #include <epoc32/windermere/windermerereg.h>
51d7b7d02eSkiyohara #include <epoc32/windermere/windermerevar.h>
52d7b7d02eSkiyohara
53d7b7d02eSkiyohara #include "locators.h"
54d7b7d02eSkiyohara
55d7b7d02eSkiyohara
56d7b7d02eSkiyohara static int windermere_match(device_t, cfdata_t, void *);
57d7b7d02eSkiyohara static void windermere_attach(device_t parent, device_t self, void *aux);
58d7b7d02eSkiyohara
59d7b7d02eSkiyohara static int windermere_print(void *, const char *);
60d7b7d02eSkiyohara static int windermere_submatch(device_t, cfdata_t, const int *, void *);
61d7b7d02eSkiyohara
62d7b7d02eSkiyohara static int windermere_find_pending_irqs(void);
63d7b7d02eSkiyohara
64d7b7d02eSkiyohara static void windermere_pic_unblock_irqs(struct pic_softc *, size_t, uint32_t);
65d7b7d02eSkiyohara static void windermere_pic_block_irqs(struct pic_softc *, size_t, uint32_t);
66d7b7d02eSkiyohara static void windermere_pic_establish_irq(struct pic_softc *,
67d7b7d02eSkiyohara struct intrsource *);
68d7b7d02eSkiyohara
69d7b7d02eSkiyohara #define TC_READ(base, off) (*((base) + (off)))
70d7b7d02eSkiyohara #define TC_WRITE(base, off, val) (*((base) + (off)) = (val))
71d7b7d02eSkiyohara static void windermere_initclocks(void);
72d7b7d02eSkiyohara static int windermere_clockintr(void *);
73d7b7d02eSkiyohara static void windermere_tc_init(void);
74d7b7d02eSkiyohara static u_int windermere_get_timecount(struct timecounter *);
75d7b7d02eSkiyohara
76d7b7d02eSkiyohara static void windermere_delay(unsigned int);
77d7b7d02eSkiyohara
78d7b7d02eSkiyohara CFATTACH_DECL_NEW(windermere, 0,
79d7b7d02eSkiyohara windermere_match, windermere_attach, NULL, NULL);
80d7b7d02eSkiyohara
81d7b7d02eSkiyohara static const struct {
82d7b7d02eSkiyohara const char *name;
83d7b7d02eSkiyohara bus_addr_t offset;
84d7b7d02eSkiyohara int irq;
85d7b7d02eSkiyohara } windermere_periphs[] = {
86d7b7d02eSkiyohara { "wmlcd", 0x200, WINDERMERECF_IRQ_DEFAULT },
87d7b7d02eSkiyohara { "wmcom", 0x600, 12 },
88d7b7d02eSkiyohara { "wmcom", 0x700, 13 },
89d7b7d02eSkiyohara { "wmrtc", 0xd00, 10 },
90d7b7d02eSkiyohara { "wmpm", WINDERMERECF_OFFSET_DEFAULT, WINDERMERECF_IRQ_DEFAULT },
91d7b7d02eSkiyohara { "wmaudio", WINDERMERECF_OFFSET_DEFAULT, WINDERMERECF_IRQ_DEFAULT },
92d7b7d02eSkiyohara { "wmkbd", 0xe28, WINDERMERECF_IRQ_DEFAULT },
93d7b7d02eSkiyohara };
94d7b7d02eSkiyohara
95d7b7d02eSkiyohara static struct pic_ops windermere_picops = {
96d7b7d02eSkiyohara .pic_unblock_irqs = windermere_pic_unblock_irqs,
97d7b7d02eSkiyohara .pic_block_irqs = windermere_pic_block_irqs,
98d7b7d02eSkiyohara .pic_establish_irq = windermere_pic_establish_irq,
99d7b7d02eSkiyohara };
100d7b7d02eSkiyohara static struct pic_softc windermere_pic = {
101d7b7d02eSkiyohara .pic_ops = &windermere_picops,
102d7b7d02eSkiyohara .pic_maxsources = 16,
103d7b7d02eSkiyohara .pic_name = "windermere",
104d7b7d02eSkiyohara };
105d7b7d02eSkiyohara static uint16_t pic_mask = 0x0000;
106d7b7d02eSkiyohara
107d7b7d02eSkiyohara /* ARGSUSED */
108d7b7d02eSkiyohara static int
windermere_match(device_t parent,cfdata_t match,void * aux)109d7b7d02eSkiyohara windermere_match(device_t parent, cfdata_t match, void *aux)
110d7b7d02eSkiyohara {
111d7b7d02eSkiyohara
112d7b7d02eSkiyohara return 1;
113d7b7d02eSkiyohara }
114d7b7d02eSkiyohara
115d7b7d02eSkiyohara /* ARGSUSED */
116d7b7d02eSkiyohara static void
windermere_attach(device_t parent,device_t self,void * aux)117d7b7d02eSkiyohara windermere_attach(device_t parent, device_t self, void *aux)
118d7b7d02eSkiyohara {
119d7b7d02eSkiyohara struct mainbus_attach_args *maa = aux;
120d7b7d02eSkiyohara struct windermere_attach_args aa;
121d7b7d02eSkiyohara bus_space_handle_t ioh;
122d7b7d02eSkiyohara int i;
123d7b7d02eSkiyohara
124d7b7d02eSkiyohara aprint_naive("\n");
125d7b7d02eSkiyohara aprint_normal("\n");
126d7b7d02eSkiyohara
127d7b7d02eSkiyohara if (bus_space_map(maa->mb_iot, maa->mb_iobase, ARM7XX_INTRREG_SIZE, 0,
128d7b7d02eSkiyohara &ioh) != 0) {
129d7b7d02eSkiyohara aprint_error_dev(self, "can't map registers\n");
130d7b7d02eSkiyohara return;
131d7b7d02eSkiyohara }
132d7b7d02eSkiyohara
133d7b7d02eSkiyohara pic_add(&windermere_pic, 0);
134d7b7d02eSkiyohara soc_find_pending_irqs = windermere_find_pending_irqs;
135d7b7d02eSkiyohara soc_initclocks = windermere_initclocks;
136d7b7d02eSkiyohara soc_delay = windermere_delay;
137d7b7d02eSkiyohara
138d7b7d02eSkiyohara for (i = 0; i < __arraycount(windermere_periphs); i++) {
139d7b7d02eSkiyohara aa.aa_name = windermere_periphs[i].name;
140d7b7d02eSkiyohara aa.aa_iot = maa->mb_iot;
141d7b7d02eSkiyohara aa.aa_ioh = &ioh;
142d7b7d02eSkiyohara aa.aa_offset = windermere_periphs[i].offset;
143d7b7d02eSkiyohara aa.aa_size = 0;
144d7b7d02eSkiyohara aa.aa_irq = windermere_periphs[i].irq;
145d7b7d02eSkiyohara
1462685996bSthorpej config_found(self, &aa, windermere_print,
147*c7fb772bSthorpej CFARGS(.submatch = windermere_submatch));
148d7b7d02eSkiyohara }
149d7b7d02eSkiyohara }
150d7b7d02eSkiyohara
151d7b7d02eSkiyohara static int
windermere_print(void * aux,const char * pnp)152d7b7d02eSkiyohara windermere_print(void *aux, const char *pnp)
153d7b7d02eSkiyohara {
154d7b7d02eSkiyohara struct windermere_attach_args *aa = aux;
155d7b7d02eSkiyohara
156d7b7d02eSkiyohara if (pnp)
157d7b7d02eSkiyohara aprint_normal("%s at %s", aa->aa_name, pnp);
158d7b7d02eSkiyohara else {
159d7b7d02eSkiyohara if (aa->aa_offset != WINDERMERECF_OFFSET_DEFAULT) {
160d7b7d02eSkiyohara aprint_normal(" offset 0x%04lx", aa->aa_offset);
161d7b7d02eSkiyohara if (aa->aa_size > 0)
162d7b7d02eSkiyohara aprint_normal("-0x%04lx",
163d7b7d02eSkiyohara aa->aa_offset + aa->aa_size - 1);
164d7b7d02eSkiyohara }
165d7b7d02eSkiyohara if (aa->aa_irq != WINDERMERECF_IRQ_DEFAULT)
166d7b7d02eSkiyohara aprint_normal(" irq %d", aa->aa_irq);
167d7b7d02eSkiyohara }
168d7b7d02eSkiyohara
169d7b7d02eSkiyohara return UNCONF;
170d7b7d02eSkiyohara }
171d7b7d02eSkiyohara
172d7b7d02eSkiyohara /* ARGSUSED */
173d7b7d02eSkiyohara static int
windermere_submatch(device_t parent,cfdata_t cf,const int * ldesc,void * aux)174d7b7d02eSkiyohara windermere_submatch(device_t parent, cfdata_t cf, const int *ldesc, void *aux)
175d7b7d02eSkiyohara {
176d7b7d02eSkiyohara struct windermere_attach_args *aa = aux;
177d7b7d02eSkiyohara
178d7b7d02eSkiyohara /*
179d7b7d02eSkiyohara * special case. match *kbd@windermere.
180d7b7d02eSkiyohara * Windermere helps implement to machine-dependent keyboard.
181d7b7d02eSkiyohara */
182d7b7d02eSkiyohara if (strcmp(aa->aa_name, "wmkbd") == 0 &&
183d7b7d02eSkiyohara strcmp(cf->cf_name + strlen(cf->cf_name) - 3, "kbd") == 0)
184d7b7d02eSkiyohara return config_match(parent, cf, aux);
185d7b7d02eSkiyohara
186d7b7d02eSkiyohara if (strcmp(cf->cf_name, aa->aa_name) != 0)
187d7b7d02eSkiyohara return 0;
188d7b7d02eSkiyohara return config_match(parent, cf, aux);
189d7b7d02eSkiyohara }
190d7b7d02eSkiyohara
191d7b7d02eSkiyohara
192d7b7d02eSkiyohara static int
windermere_find_pending_irqs(void)193d7b7d02eSkiyohara windermere_find_pending_irqs(void)
194d7b7d02eSkiyohara {
195d7b7d02eSkiyohara volatile uint32_t *intr =
196d7b7d02eSkiyohara (uint32_t *)(ARM7XX_INTRREG_VBASE + WINDERMERE_INTR_OFFSET);
197d7b7d02eSkiyohara uint16_t pending;
198d7b7d02eSkiyohara
199d7b7d02eSkiyohara pending = *(intr + INTSR);
200d7b7d02eSkiyohara if (pending & ~pic_mask) {
201d7b7d02eSkiyohara *(intr + INTENC) = pending & ~pic_mask;
202d7b7d02eSkiyohara printf("stray interrupt pending: 0x%04x\n",
203d7b7d02eSkiyohara pending & ~pic_mask);
204d7b7d02eSkiyohara pending &= pic_mask;
205d7b7d02eSkiyohara }
206d7b7d02eSkiyohara if (pending == 0)
207d7b7d02eSkiyohara return 0;
208d7b7d02eSkiyohara
209d7b7d02eSkiyohara return pic_mark_pending_sources(&windermere_pic, 0, pending);
210d7b7d02eSkiyohara }
211d7b7d02eSkiyohara
212d7b7d02eSkiyohara /* ARGSUSED */
213d7b7d02eSkiyohara static void
windermere_pic_unblock_irqs(struct pic_softc * pic,size_t irqbase,uint32_t irq_mask)214d7b7d02eSkiyohara windermere_pic_unblock_irqs(struct pic_softc *pic, size_t irqbase,
215d7b7d02eSkiyohara uint32_t irq_mask)
216d7b7d02eSkiyohara {
217d7b7d02eSkiyohara volatile uint32_t *intr =
218d7b7d02eSkiyohara (uint32_t *)(ARM7XX_INTRREG_VBASE + WINDERMERE_INTR_OFFSET);
219d7b7d02eSkiyohara
220d7b7d02eSkiyohara *(intr + INTENS) = irq_mask;
221d7b7d02eSkiyohara pic_mask |= irq_mask;
222d7b7d02eSkiyohara }
223d7b7d02eSkiyohara
224d7b7d02eSkiyohara /* ARGSUSED */
225d7b7d02eSkiyohara static void
windermere_pic_block_irqs(struct pic_softc * pic,size_t irqbase,uint32_t irq_mask)226d7b7d02eSkiyohara windermere_pic_block_irqs(struct pic_softc *pic, size_t irqbase,
227d7b7d02eSkiyohara uint32_t irq_mask)
228d7b7d02eSkiyohara {
229d7b7d02eSkiyohara volatile uint32_t *intr =
230d7b7d02eSkiyohara (uint32_t *)(ARM7XX_INTRREG_VBASE + WINDERMERE_INTR_OFFSET);
231d7b7d02eSkiyohara
232d7b7d02eSkiyohara *(intr + INTENC) = irq_mask;
233d7b7d02eSkiyohara pic_mask &= ~irq_mask;
234d7b7d02eSkiyohara }
235d7b7d02eSkiyohara
236d7b7d02eSkiyohara static void
windermere_pic_establish_irq(struct pic_softc * pic,struct intrsource * is)237d7b7d02eSkiyohara windermere_pic_establish_irq(struct pic_softc *pic, struct intrsource *is)
238d7b7d02eSkiyohara {
239d7b7d02eSkiyohara /* Nothing */
240d7b7d02eSkiyohara }
241d7b7d02eSkiyohara
242d7b7d02eSkiyohara static void
windermere_initclocks(void)243d7b7d02eSkiyohara windermere_initclocks(void)
244d7b7d02eSkiyohara {
245d7b7d02eSkiyohara volatile uint32_t *tc1, *tc2;
246d7b7d02eSkiyohara uint32_t ctrl;
247d7b7d02eSkiyohara
248d7b7d02eSkiyohara tc1 =
249d7b7d02eSkiyohara (uint32_t *)(ARM7XX_INTRREG_VBASE + WINDERMERE_TC_OFFSET + TC1_OFFSET);
250d7b7d02eSkiyohara tc2 =
251d7b7d02eSkiyohara (uint32_t *)(ARM7XX_INTRREG_VBASE + WINDERMERE_TC_OFFSET + TC2_OFFSET);
252d7b7d02eSkiyohara
253d7b7d02eSkiyohara /* set clock to TC1 */
254d7b7d02eSkiyohara ctrl = TC_READ(tc1, TC_CTRL);
255d7b7d02eSkiyohara ctrl |= (CTRL_CLKSEL | CTRL_MODE | CTRL_ENABLE); /* select 512kHz */
256d7b7d02eSkiyohara TC_WRITE(tc1, TC_CTRL, ctrl);
257d7b7d02eSkiyohara TC_WRITE(tc1, TC_LOAD, 512 * 1000 / hz - 1); /* 512kHz / hz - 1 */
258d7b7d02eSkiyohara intr_establish(8, IPL_CLOCK, 0, windermere_clockintr, NULL);
259d7b7d02eSkiyohara
260d7b7d02eSkiyohara /* set delay counter */
261d7b7d02eSkiyohara ctrl = TC_READ(tc2, TC_CTRL);
262d7b7d02eSkiyohara ctrl |= (CTRL_CLKSEL | CTRL_MODE | CTRL_ENABLE); /* select 512kHz */
263d7b7d02eSkiyohara TC_WRITE(tc2, TC_CTRL, ctrl);
264d7b7d02eSkiyohara TC_WRITE(tc2, TC_LOAD, TC_MAX);
265d7b7d02eSkiyohara
266d7b7d02eSkiyohara windermere_tc_init();
267d7b7d02eSkiyohara }
268d7b7d02eSkiyohara
269d7b7d02eSkiyohara static int
windermere_clockintr(void * arg)270d7b7d02eSkiyohara windermere_clockintr(void *arg)
271d7b7d02eSkiyohara {
272d7b7d02eSkiyohara volatile uint32_t *tc1;
273d7b7d02eSkiyohara
274d7b7d02eSkiyohara tc1 =
275d7b7d02eSkiyohara (uint32_t *)(ARM7XX_INTRREG_VBASE + WINDERMERE_TC_OFFSET + TC1_OFFSET);
276d7b7d02eSkiyohara TC_WRITE(tc1, TC_EOI, EOI_EOI);
277d7b7d02eSkiyohara
278d7b7d02eSkiyohara hardclock(arg);
279d7b7d02eSkiyohara
280d7b7d02eSkiyohara return 1;
281d7b7d02eSkiyohara }
282d7b7d02eSkiyohara
283d7b7d02eSkiyohara static void
windermere_tc_init(void)284d7b7d02eSkiyohara windermere_tc_init(void)
285d7b7d02eSkiyohara {
286d7b7d02eSkiyohara static struct timecounter windermere_tc = {
287d7b7d02eSkiyohara .tc_get_timecount = windermere_get_timecount,
288d7b7d02eSkiyohara .tc_counter_mask = TC_MASK,
289d7b7d02eSkiyohara .tc_frequency = 512000,
290d7b7d02eSkiyohara .tc_name = "windermere",
291d7b7d02eSkiyohara .tc_quality = 100,
292d7b7d02eSkiyohara };
293d7b7d02eSkiyohara
294d7b7d02eSkiyohara tc_init(&windermere_tc);
295d7b7d02eSkiyohara }
296d7b7d02eSkiyohara
297d7b7d02eSkiyohara static u_int
windermere_get_timecount(struct timecounter * tc)298d7b7d02eSkiyohara windermere_get_timecount(struct timecounter *tc)
299d7b7d02eSkiyohara {
300d7b7d02eSkiyohara volatile uint32_t *tc2;
301d7b7d02eSkiyohara
302d7b7d02eSkiyohara tc2 =
303d7b7d02eSkiyohara (uint32_t *)(ARM7XX_INTRREG_VBASE + WINDERMERE_TC_OFFSET + TC2_OFFSET);
304d7b7d02eSkiyohara
305d7b7d02eSkiyohara return TC_READ(tc2, TC_VAL) ^ TC_MASK; /* It is decremental counter */
306d7b7d02eSkiyohara }
307d7b7d02eSkiyohara
308d7b7d02eSkiyohara static void
windermere_delay(unsigned int us)309d7b7d02eSkiyohara windermere_delay(unsigned int us)
310d7b7d02eSkiyohara {
311d7b7d02eSkiyohara volatile uint32_t *tc2;
312d7b7d02eSkiyohara int prev, now, remaining;
313d7b7d02eSkiyohara
314d7b7d02eSkiyohara tc2 =
315d7b7d02eSkiyohara (uint32_t *)(ARM7XX_INTRREG_VBASE + WINDERMERE_TC_OFFSET + TC2_OFFSET);
316d7b7d02eSkiyohara
317d7b7d02eSkiyohara prev = TC_READ(tc2, TC_VAL) & TC_MASK;
318d7b7d02eSkiyohara remaining = us * 512 / 1000 + 1;
319d7b7d02eSkiyohara
320d7b7d02eSkiyohara while (remaining > 0) {
321d7b7d02eSkiyohara now = TC_READ(tc2, TC_VAL) & TC_MASK;
322d7b7d02eSkiyohara if (now >= prev)
323d7b7d02eSkiyohara remaining -= (now - prev);
324d7b7d02eSkiyohara else
325d7b7d02eSkiyohara remaining -= (USHRT_MAX - now + prev + 1);
326d7b7d02eSkiyohara prev = now;
327d7b7d02eSkiyohara }
328d7b7d02eSkiyohara }
329