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Linux/arch/nios2/kernel/time.c

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  1 /*
  2  * Copyright (C) 2013-2014 Altera Corporation
  3  * Copyright (C) 2010 Tobias Klauser <tklauser@distanz.ch>
  4  * Copyright (C) 2004 Microtronix Datacom Ltd.
  5  *
  6  * This file is subject to the terms and conditions of the GNU General Public
  7  * License. See the file "COPYING" in the main directory of this archive
  8  * for more details.
  9  */
 10 
 11 #include <linux/export.h>
 12 #include <linux/interrupt.h>
 13 #include <linux/clockchips.h>
 14 #include <linux/clocksource.h>
 15 #include <linux/delay.h>
 16 #include <linux/of.h>
 17 #include <linux/of_address.h>
 18 #include <linux/of_irq.h>
 19 #include <linux/io.h>
 20 #include <linux/slab.h>
 21 
 22 #define ALTR_TIMER_COMPATIBLE           "altr,timer-1.0"
 23 
 24 #define ALTERA_TIMER_STATUS_REG 0
 25 #define ALTERA_TIMER_CONTROL_REG        4
 26 #define ALTERA_TIMER_PERIODL_REG        8
 27 #define ALTERA_TIMER_PERIODH_REG        12
 28 #define ALTERA_TIMER_SNAPL_REG          16
 29 #define ALTERA_TIMER_SNAPH_REG          20
 30 
 31 #define ALTERA_TIMER_CONTROL_ITO_MSK    (0x1)
 32 #define ALTERA_TIMER_CONTROL_CONT_MSK   (0x2)
 33 #define ALTERA_TIMER_CONTROL_START_MSK  (0x4)
 34 #define ALTERA_TIMER_CONTROL_STOP_MSK   (0x8)
 35 
 36 struct nios2_timer {
 37         void __iomem *base;
 38         unsigned long freq;
 39 };
 40 
 41 struct nios2_clockevent_dev {
 42         struct nios2_timer timer;
 43         struct clock_event_device ced;
 44 };
 45 
 46 struct nios2_clocksource {
 47         struct nios2_timer timer;
 48         struct clocksource cs;
 49 };
 50 
 51 static inline struct nios2_clockevent_dev *
 52         to_nios2_clkevent(struct clock_event_device *evt)
 53 {
 54         return container_of(evt, struct nios2_clockevent_dev, ced);
 55 }
 56 
 57 static inline struct nios2_clocksource *
 58         to_nios2_clksource(struct clocksource *cs)
 59 {
 60         return container_of(cs, struct nios2_clocksource, cs);
 61 }
 62 
 63 static u16 timer_readw(struct nios2_timer *timer, u32 offs)
 64 {
 65         return readw(timer->base + offs);
 66 }
 67 
 68 static void timer_writew(struct nios2_timer *timer, u16 val, u32 offs)
 69 {
 70         writew(val, timer->base + offs);
 71 }
 72 
 73 static inline unsigned long read_timersnapshot(struct nios2_timer *timer)
 74 {
 75         unsigned long count;
 76 
 77         timer_writew(timer, 0, ALTERA_TIMER_SNAPL_REG);
 78         count = timer_readw(timer, ALTERA_TIMER_SNAPH_REG) << 16 |
 79                 timer_readw(timer, ALTERA_TIMER_SNAPL_REG);
 80 
 81         return count;
 82 }
 83 
 84 static u64 nios2_timer_read(struct clocksource *cs)
 85 {
 86         struct nios2_clocksource *nios2_cs = to_nios2_clksource(cs);
 87         unsigned long flags;
 88         u32 count;
 89 
 90         local_irq_save(flags);
 91         count = read_timersnapshot(&nios2_cs->timer);
 92         local_irq_restore(flags);
 93 
 94         /* Counter is counting down */
 95         return ~count;
 96 }
 97 
 98 static struct nios2_clocksource nios2_cs = {
 99         .cs = {
100                 .name   = "nios2-clksrc",
101                 .rating = 250,
102                 .read   = nios2_timer_read,
103                 .mask   = CLOCKSOURCE_MASK(32),
104                 .flags  = CLOCK_SOURCE_IS_CONTINUOUS,
105         },
106 };
107 
108 cycles_t get_cycles(void)
109 {
110         /* Only read timer if it has been initialized */
111         if (nios2_cs.timer.base)
112                 return nios2_timer_read(&nios2_cs.cs);
113         return 0;
114 }
115 EXPORT_SYMBOL(get_cycles);
116 
117 static void nios2_timer_start(struct nios2_timer *timer)
118 {
119         u16 ctrl;
120 
121         ctrl = timer_readw(timer, ALTERA_TIMER_CONTROL_REG);
122         ctrl |= ALTERA_TIMER_CONTROL_START_MSK;
123         timer_writew(timer, ctrl, ALTERA_TIMER_CONTROL_REG);
124 }
125 
126 static void nios2_timer_stop(struct nios2_timer *timer)
127 {
128         u16 ctrl;
129 
130         ctrl = timer_readw(timer, ALTERA_TIMER_CONTROL_REG);
131         ctrl |= ALTERA_TIMER_CONTROL_STOP_MSK;
132         timer_writew(timer, ctrl, ALTERA_TIMER_CONTROL_REG);
133 }
134 
135 static void nios2_timer_config(struct nios2_timer *timer, unsigned long period,
136                                bool periodic)
137 {
138         u16 ctrl;
139 
140         /* The timer's actual period is one cycle greater than the value
141          * stored in the period register. */
142          period--;
143 
144         ctrl = timer_readw(timer, ALTERA_TIMER_CONTROL_REG);
145         /* stop counter */
146         timer_writew(timer, ctrl | ALTERA_TIMER_CONTROL_STOP_MSK,
147                 ALTERA_TIMER_CONTROL_REG);
148 
149         /* write new count */
150         timer_writew(timer, period, ALTERA_TIMER_PERIODL_REG);
151         timer_writew(timer, period >> 16, ALTERA_TIMER_PERIODH_REG);
152 
153         ctrl |= ALTERA_TIMER_CONTROL_START_MSK | ALTERA_TIMER_CONTROL_ITO_MSK;
154         if (periodic)
155                 ctrl |= ALTERA_TIMER_CONTROL_CONT_MSK;
156         else
157                 ctrl &= ~ALTERA_TIMER_CONTROL_CONT_MSK;
158         timer_writew(timer, ctrl, ALTERA_TIMER_CONTROL_REG);
159 }
160 
161 static int nios2_timer_set_next_event(unsigned long delta,
162         struct clock_event_device *evt)
163 {
164         struct nios2_clockevent_dev *nios2_ced = to_nios2_clkevent(evt);
165 
166         nios2_timer_config(&nios2_ced->timer, delta, false);
167 
168         return 0;
169 }
170 
171 static int nios2_timer_shutdown(struct clock_event_device *evt)
172 {
173         struct nios2_clockevent_dev *nios2_ced = to_nios2_clkevent(evt);
174         struct nios2_timer *timer = &nios2_ced->timer;
175 
176         nios2_timer_stop(timer);
177         return 0;
178 }
179 
180 static int nios2_timer_set_periodic(struct clock_event_device *evt)
181 {
182         unsigned long period;
183         struct nios2_clockevent_dev *nios2_ced = to_nios2_clkevent(evt);
184         struct nios2_timer *timer = &nios2_ced->timer;
185 
186         period = DIV_ROUND_UP(timer->freq, HZ);
187         nios2_timer_config(timer, period, true);
188         return 0;
189 }
190 
191 static int nios2_timer_resume(struct clock_event_device *evt)
192 {
193         struct nios2_clockevent_dev *nios2_ced = to_nios2_clkevent(evt);
194         struct nios2_timer *timer = &nios2_ced->timer;
195 
196         nios2_timer_start(timer);
197         return 0;
198 }
199 
200 irqreturn_t timer_interrupt(int irq, void *dev_id)
201 {
202         struct clock_event_device *evt = (struct clock_event_device *) dev_id;
203         struct nios2_clockevent_dev *nios2_ced = to_nios2_clkevent(evt);
204 
205         /* Clear the interrupt condition */
206         timer_writew(&nios2_ced->timer, 0, ALTERA_TIMER_STATUS_REG);
207         evt->event_handler(evt);
208 
209         return IRQ_HANDLED;
210 }
211 
212 static int __init nios2_timer_get_base_and_freq(struct device_node *np,
213                                 void __iomem **base, u32 *freq)
214 {
215         *base = of_iomap(np, 0);
216         if (!*base) {
217                 pr_crit("Unable to map reg for %pOFn\n", np);
218                 return -ENXIO;
219         }
220 
221         if (of_property_read_u32(np, "clock-frequency", freq)) {
222                 pr_crit("Unable to get %pOFn clock frequency\n", np);
223                 return -EINVAL;
224         }
225 
226         return 0;
227 }
228 
229 static struct nios2_clockevent_dev nios2_ce = {
230         .ced = {
231                 .name = "nios2-clkevent",
232                 .features = CLOCK_EVT_FEAT_PERIODIC | CLOCK_EVT_FEAT_ONESHOT,
233                 .rating = 250,
234                 .shift = 32,
235                 .set_next_event = nios2_timer_set_next_event,
236                 .set_state_shutdown = nios2_timer_shutdown,
237                 .set_state_periodic = nios2_timer_set_periodic,
238                 .set_state_oneshot = nios2_timer_shutdown,
239                 .tick_resume = nios2_timer_resume,
240         },
241 };
242 
243 static __init int nios2_clockevent_init(struct device_node *timer)
244 {
245         void __iomem *iobase;
246         u32 freq;
247         int irq, ret;
248 
249         ret = nios2_timer_get_base_and_freq(timer, &iobase, &freq);
250         if (ret)
251                 return ret;
252 
253         irq = irq_of_parse_and_map(timer, 0);
254         if (!irq) {
255                 pr_crit("Unable to parse timer irq\n");
256                 return -EINVAL;
257         }
258 
259         nios2_ce.timer.base = iobase;
260         nios2_ce.timer.freq = freq;
261 
262         nios2_ce.ced.cpumask = cpumask_of(0);
263         nios2_ce.ced.irq = irq;
264 
265         nios2_timer_stop(&nios2_ce.timer);
266         /* clear pending interrupt */
267         timer_writew(&nios2_ce.timer, 0, ALTERA_TIMER_STATUS_REG);
268 
269         ret = request_irq(irq, timer_interrupt, IRQF_TIMER, timer->name,
270                           &nios2_ce.ced);
271         if (ret) {
272                 pr_crit("Unable to setup timer irq\n");
273                 return ret;
274         }
275 
276         clockevents_config_and_register(&nios2_ce.ced, freq, 1, ULONG_MAX);
277 
278         return 0;
279 }
280 
281 static __init int nios2_clocksource_init(struct device_node *timer)
282 {
283         unsigned int ctrl;
284         void __iomem *iobase;
285         u32 freq;
286         int ret;
287 
288         ret = nios2_timer_get_base_and_freq(timer, &iobase, &freq);
289         if (ret)
290                 return ret;
291 
292         nios2_cs.timer.base = iobase;
293         nios2_cs.timer.freq = freq;
294 
295         ret = clocksource_register_hz(&nios2_cs.cs, freq);
296         if (ret)
297                 return ret;
298 
299         timer_writew(&nios2_cs.timer, USHRT_MAX, ALTERA_TIMER_PERIODL_REG);
300         timer_writew(&nios2_cs.timer, USHRT_MAX, ALTERA_TIMER_PERIODH_REG);
301 
302         /* interrupt disable + continuous + start */
303         ctrl = ALTERA_TIMER_CONTROL_CONT_MSK | ALTERA_TIMER_CONTROL_START_MSK;
304         timer_writew(&nios2_cs.timer, ctrl, ALTERA_TIMER_CONTROL_REG);
305 
306         /* Calibrate the delay loop directly */
307         lpj_fine = freq / HZ;
308 
309         return 0;
310 }
311 
312 /*
313  * The first timer instance will use as a clockevent. If there are two or
314  * more instances, the second one gets used as clocksource and all
315  * others are unused.
316 */
317 static int __init nios2_time_init(struct device_node *timer)
318 {
319         static int num_called;
320         int ret;
321 
322         switch (num_called) {
323         case 0:
324                 ret = nios2_clockevent_init(timer);
325                 break;
326         case 1:
327                 ret = nios2_clocksource_init(timer);
328                 break;
329         default:
330                 ret = 0;
331                 break;
332         }
333 
334         num_called++;
335 
336         return ret;
337 }
338 
339 void read_persistent_clock64(struct timespec64 *ts)
340 {
341         ts->tv_sec = mktime64(2007, 1, 1, 0, 0, 0);
342         ts->tv_nsec = 0;
343 }
344 
345 void __init time_init(void)
346 {
347         struct device_node *np;
348         int count = 0;
349 
350         for_each_compatible_node(np, NULL,  ALTR_TIMER_COMPATIBLE)
351                 count++;
352 
353         if (count < 2)
354                 panic("%d timer is found, it needs 2 timers in system\n", count);
355 
356         timer_probe();
357 }
358 
359 TIMER_OF_DECLARE(nios2_timer, ALTR_TIMER_COMPATIBLE, nios2_time_init);
360 

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