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x86/bugs: Rework spec_ctrl base and mask logic
[mirror_ubuntu-artful-kernel.git] / drivers / clocksource / arm_global_timer.c
1 /*
2 * drivers/clocksource/arm_global_timer.c
3 *
4 * Copyright (C) 2013 STMicroelectronics (R&D) Limited.
5 * Author: Stuart Menefy <stuart.menefy@st.com>
6 * Author: Srinivas Kandagatla <srinivas.kandagatla@st.com>
7 *
8 * This program is free software; you can redistribute it and/or modify
9 * it under the terms of the GNU General Public License version 2 as
10 * published by the Free Software Foundation.
11 */
12
13 #include <linux/init.h>
14 #include <linux/interrupt.h>
15 #include <linux/clocksource.h>
16 #include <linux/clockchips.h>
17 #include <linux/cpu.h>
18 #include <linux/clk.h>
19 #include <linux/delay.h>
20 #include <linux/err.h>
21 #include <linux/io.h>
22 #include <linux/of.h>
23 #include <linux/of_irq.h>
24 #include <linux/of_address.h>
25 #include <linux/sched_clock.h>
26
27 #include <asm/cputype.h>
28
29 #define GT_COUNTER0 0x00
30 #define GT_COUNTER1 0x04
31
32 #define GT_CONTROL 0x08
33 #define GT_CONTROL_TIMER_ENABLE BIT(0) /* this bit is NOT banked */
34 #define GT_CONTROL_COMP_ENABLE BIT(1) /* banked */
35 #define GT_CONTROL_IRQ_ENABLE BIT(2) /* banked */
36 #define GT_CONTROL_AUTO_INC BIT(3) /* banked */
37
38 #define GT_INT_STATUS 0x0c
39 #define GT_INT_STATUS_EVENT_FLAG BIT(0)
40
41 #define GT_COMP0 0x10
42 #define GT_COMP1 0x14
43 #define GT_AUTO_INC 0x18
44
45 /*
46 * We are expecting to be clocked by the ARM peripheral clock.
47 *
48 * Note: it is assumed we are using a prescaler value of zero, so this is
49 * the units for all operations.
50 */
51 static void __iomem *gt_base;
52 static unsigned long gt_clk_rate;
53 static int gt_ppi;
54 static struct clock_event_device __percpu *gt_evt;
55
56 /*
57 * To get the value from the Global Timer Counter register proceed as follows:
58 * 1. Read the upper 32-bit timer counter register
59 * 2. Read the lower 32-bit timer counter register
60 * 3. Read the upper 32-bit timer counter register again. If the value is
61 * different to the 32-bit upper value read previously, go back to step 2.
62 * Otherwise the 64-bit timer counter value is correct.
63 */
64 static u64 notrace _gt_counter_read(void)
65 {
66 u64 counter;
67 u32 lower;
68 u32 upper, old_upper;
69
70 upper = readl_relaxed(gt_base + GT_COUNTER1);
71 do {
72 old_upper = upper;
73 lower = readl_relaxed(gt_base + GT_COUNTER0);
74 upper = readl_relaxed(gt_base + GT_COUNTER1);
75 } while (upper != old_upper);
76
77 counter = upper;
78 counter <<= 32;
79 counter |= lower;
80 return counter;
81 }
82
83 static u64 gt_counter_read(void)
84 {
85 return _gt_counter_read();
86 }
87
88 /**
89 * To ensure that updates to comparator value register do not set the
90 * Interrupt Status Register proceed as follows:
91 * 1. Clear the Comp Enable bit in the Timer Control Register.
92 * 2. Write the lower 32-bit Comparator Value Register.
93 * 3. Write the upper 32-bit Comparator Value Register.
94 * 4. Set the Comp Enable bit and, if necessary, the IRQ enable bit.
95 */
96 static void gt_compare_set(unsigned long delta, int periodic)
97 {
98 u64 counter = gt_counter_read();
99 unsigned long ctrl;
100
101 counter += delta;
102 ctrl = GT_CONTROL_TIMER_ENABLE;
103 writel_relaxed(ctrl, gt_base + GT_CONTROL);
104 writel_relaxed(lower_32_bits(counter), gt_base + GT_COMP0);
105 writel_relaxed(upper_32_bits(counter), gt_base + GT_COMP1);
106
107 if (periodic) {
108 writel_relaxed(delta, gt_base + GT_AUTO_INC);
109 ctrl |= GT_CONTROL_AUTO_INC;
110 }
111
112 ctrl |= GT_CONTROL_COMP_ENABLE | GT_CONTROL_IRQ_ENABLE;
113 writel_relaxed(ctrl, gt_base + GT_CONTROL);
114 }
115
116 static int gt_clockevent_shutdown(struct clock_event_device *evt)
117 {
118 unsigned long ctrl;
119
120 ctrl = readl(gt_base + GT_CONTROL);
121 ctrl &= ~(GT_CONTROL_COMP_ENABLE | GT_CONTROL_IRQ_ENABLE |
122 GT_CONTROL_AUTO_INC);
123 writel(ctrl, gt_base + GT_CONTROL);
124 return 0;
125 }
126
127 static int gt_clockevent_set_periodic(struct clock_event_device *evt)
128 {
129 gt_compare_set(DIV_ROUND_CLOSEST(gt_clk_rate, HZ), 1);
130 return 0;
131 }
132
133 static int gt_clockevent_set_next_event(unsigned long evt,
134 struct clock_event_device *unused)
135 {
136 gt_compare_set(evt, 0);
137 return 0;
138 }
139
140 static irqreturn_t gt_clockevent_interrupt(int irq, void *dev_id)
141 {
142 struct clock_event_device *evt = dev_id;
143
144 if (!(readl_relaxed(gt_base + GT_INT_STATUS) &
145 GT_INT_STATUS_EVENT_FLAG))
146 return IRQ_NONE;
147
148 /**
149 * ERRATA 740657( Global Timer can send 2 interrupts for
150 * the same event in single-shot mode)
151 * Workaround:
152 * Either disable single-shot mode.
153 * Or
154 * Modify the Interrupt Handler to avoid the
155 * offending sequence. This is achieved by clearing
156 * the Global Timer flag _after_ having incremented
157 * the Comparator register value to a higher value.
158 */
159 if (clockevent_state_oneshot(evt))
160 gt_compare_set(ULONG_MAX, 0);
161
162 writel_relaxed(GT_INT_STATUS_EVENT_FLAG, gt_base + GT_INT_STATUS);
163 evt->event_handler(evt);
164
165 return IRQ_HANDLED;
166 }
167
168 static int gt_starting_cpu(unsigned int cpu)
169 {
170 struct clock_event_device *clk = this_cpu_ptr(gt_evt);
171
172 clk->name = "arm_global_timer";
173 clk->features = CLOCK_EVT_FEAT_PERIODIC | CLOCK_EVT_FEAT_ONESHOT |
174 CLOCK_EVT_FEAT_PERCPU;
175 clk->set_state_shutdown = gt_clockevent_shutdown;
176 clk->set_state_periodic = gt_clockevent_set_periodic;
177 clk->set_state_oneshot = gt_clockevent_shutdown;
178 clk->set_state_oneshot_stopped = gt_clockevent_shutdown;
179 clk->set_next_event = gt_clockevent_set_next_event;
180 clk->cpumask = cpumask_of(cpu);
181 clk->rating = 300;
182 clk->irq = gt_ppi;
183 clockevents_config_and_register(clk, gt_clk_rate,
184 1, 0xffffffff);
185 enable_percpu_irq(clk->irq, IRQ_TYPE_NONE);
186 return 0;
187 }
188
189 static int gt_dying_cpu(unsigned int cpu)
190 {
191 struct clock_event_device *clk = this_cpu_ptr(gt_evt);
192
193 gt_clockevent_shutdown(clk);
194 disable_percpu_irq(clk->irq);
195 return 0;
196 }
197
198 static u64 gt_clocksource_read(struct clocksource *cs)
199 {
200 return gt_counter_read();
201 }
202
203 static void gt_resume(struct clocksource *cs)
204 {
205 unsigned long ctrl;
206
207 ctrl = readl(gt_base + GT_CONTROL);
208 if (!(ctrl & GT_CONTROL_TIMER_ENABLE))
209 /* re-enable timer on resume */
210 writel(GT_CONTROL_TIMER_ENABLE, gt_base + GT_CONTROL);
211 }
212
213 static struct clocksource gt_clocksource = {
214 .name = "arm_global_timer",
215 .rating = 300,
216 .read = gt_clocksource_read,
217 .mask = CLOCKSOURCE_MASK(64),
218 .flags = CLOCK_SOURCE_IS_CONTINUOUS,
219 .resume = gt_resume,
220 };
221
222 #ifdef CONFIG_CLKSRC_ARM_GLOBAL_TIMER_SCHED_CLOCK
223 static u64 notrace gt_sched_clock_read(void)
224 {
225 return _gt_counter_read();
226 }
227 #endif
228
229 static unsigned long gt_read_long(void)
230 {
231 return readl_relaxed(gt_base + GT_COUNTER0);
232 }
233
234 static struct delay_timer gt_delay_timer = {
235 .read_current_timer = gt_read_long,
236 };
237
238 static void __init gt_delay_timer_init(void)
239 {
240 gt_delay_timer.freq = gt_clk_rate;
241 register_current_timer_delay(&gt_delay_timer);
242 }
243
244 static int __init gt_clocksource_init(void)
245 {
246 writel(0, gt_base + GT_CONTROL);
247 writel(0, gt_base + GT_COUNTER0);
248 writel(0, gt_base + GT_COUNTER1);
249 /* enables timer on all the cores */
250 writel(GT_CONTROL_TIMER_ENABLE, gt_base + GT_CONTROL);
251
252 #ifdef CONFIG_CLKSRC_ARM_GLOBAL_TIMER_SCHED_CLOCK
253 sched_clock_register(gt_sched_clock_read, 64, gt_clk_rate);
254 #endif
255 return clocksource_register_hz(&gt_clocksource, gt_clk_rate);
256 }
257
258 static int __init global_timer_of_register(struct device_node *np)
259 {
260 struct clk *gt_clk;
261 int err = 0;
262
263 /*
264 * In A9 r2p0 the comparators for each processor with the global timer
265 * fire when the timer value is greater than or equal to. In previous
266 * revisions the comparators fired when the timer value was equal to.
267 */
268 if (read_cpuid_part() == ARM_CPU_PART_CORTEX_A9
269 && (read_cpuid_id() & 0xf0000f) < 0x200000) {
270 pr_warn("global-timer: non support for this cpu version.\n");
271 return -ENOSYS;
272 }
273
274 gt_ppi = irq_of_parse_and_map(np, 0);
275 if (!gt_ppi) {
276 pr_warn("global-timer: unable to parse irq\n");
277 return -EINVAL;
278 }
279
280 gt_base = of_iomap(np, 0);
281 if (!gt_base) {
282 pr_warn("global-timer: invalid base address\n");
283 return -ENXIO;
284 }
285
286 gt_clk = of_clk_get(np, 0);
287 if (!IS_ERR(gt_clk)) {
288 err = clk_prepare_enable(gt_clk);
289 if (err)
290 goto out_unmap;
291 } else {
292 pr_warn("global-timer: clk not found\n");
293 err = -EINVAL;
294 goto out_unmap;
295 }
296
297 gt_clk_rate = clk_get_rate(gt_clk);
298 gt_evt = alloc_percpu(struct clock_event_device);
299 if (!gt_evt) {
300 pr_warn("global-timer: can't allocate memory\n");
301 err = -ENOMEM;
302 goto out_clk;
303 }
304
305 err = request_percpu_irq(gt_ppi, gt_clockevent_interrupt,
306 "gt", gt_evt);
307 if (err) {
308 pr_warn("global-timer: can't register interrupt %d (%d)\n",
309 gt_ppi, err);
310 goto out_free;
311 }
312
313 /* Register and immediately configure the timer on the boot CPU */
314 err = gt_clocksource_init();
315 if (err)
316 goto out_irq;
317
318 err = cpuhp_setup_state(CPUHP_AP_ARM_GLOBAL_TIMER_STARTING,
319 "clockevents/arm/global_timer:starting",
320 gt_starting_cpu, gt_dying_cpu);
321 if (err)
322 goto out_irq;
323
324 gt_delay_timer_init();
325
326 return 0;
327
328 out_irq:
329 free_percpu_irq(gt_ppi, gt_evt);
330 out_free:
331 free_percpu(gt_evt);
332 out_clk:
333 clk_disable_unprepare(gt_clk);
334 out_unmap:
335 iounmap(gt_base);
336 WARN(err, "ARM Global timer register failed (%d)\n", err);
337
338 return err;
339 }
340
341 /* Only tested on r2p2 and r3p0 */
342 TIMER_OF_DECLARE(arm_gt, "arm,cortex-a9-global-timer",
343 global_timer_of_register);
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