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Tom Rini10e47792018-05-06 17:58:06 -04001// SPDX-License-Identifier: GPL-2.0+
Simon Glass11d7a5b2013-04-17 16:13:36 +00002/*
3 * Copyright (c) 2012 The Chromium OS Authors.
4 *
Bin Meng49f70992014-11-09 22:19:13 +08005 * TSC calibration codes are adapted from Linux kernel
6 * arch/x86/kernel/tsc_msr.c and arch/x86/kernel/tsc.c
Simon Glass11d7a5b2013-04-17 16:13:36 +00007 */
8
9#include <common.h>
Bin Meng976c2e82015-11-13 00:11:21 -080010#include <dm.h>
Simon Glass11d7a5b2013-04-17 16:13:36 +000011#include <malloc.h>
Bin Meng976c2e82015-11-13 00:11:21 -080012#include <timer.h>
Bin Mengd159ffb2017-07-25 20:12:01 -070013#include <asm/cpu.h>
Simon Glass11d7a5b2013-04-17 16:13:36 +000014#include <asm/io.h>
15#include <asm/i8254.h>
16#include <asm/ibmpc.h>
17#include <asm/msr.h>
18#include <asm/u-boot-x86.h>
19
Bin Meng7943dc22017-08-15 22:41:50 -070020#define MAX_NUM_FREQS 9
Bin Meng49f70992014-11-09 22:19:13 +080021
Simon Glass11d7a5b2013-04-17 16:13:36 +000022DECLARE_GLOBAL_DATA_PTR;
23
Christian Gmeiner1b1472a2018-05-14 11:32:17 +020024static unsigned long cpu_mhz_from_cpuid(void)
25{
26 if (gd->arch.x86_vendor != X86_VENDOR_INTEL)
27 return 0;
28
29 if (cpuid_eax(0) < 0x16)
30 return 0;
31
32 return cpuid_eax(0x16);
33}
34
Bin Meng49f70992014-11-09 22:19:13 +080035/*
36 * According to Intel 64 and IA-32 System Programming Guide,
37 * if MSR_PERF_STAT[31] is set, the maximum resolved bus ratio can be
38 * read in MSR_PLATFORM_ID[12:8], otherwise in MSR_PERF_STAT[44:40].
39 * Unfortunately some Intel Atom SoCs aren't quite compliant to this,
40 * so we need manually differentiate SoC families. This is what the
41 * field msr_plat does.
42 */
43struct freq_desc {
44 u8 x86_family; /* CPU family */
45 u8 x86_model; /* model */
Simon Glass40a8c352014-11-12 22:42:04 -070046 /* 2: use 100MHz, 1: use MSR_PLATFORM_INFO, 0: MSR_IA32_PERF_STATUS */
47 u8 msr_plat;
Bin Meng49f70992014-11-09 22:19:13 +080048 u32 freqs[MAX_NUM_FREQS];
49};
50
51static struct freq_desc freq_desc_tables[] = {
52 /* PNW */
Bin Meng7943dc22017-08-15 22:41:50 -070053 { 6, 0x27, 0, { 0, 0, 0, 0, 0, 99840, 0, 83200, 0 } },
Bin Meng49f70992014-11-09 22:19:13 +080054 /* CLV+ */
Bin Meng7943dc22017-08-15 22:41:50 -070055 { 6, 0x35, 0, { 0, 133200, 0, 0, 0, 99840, 0, 83200, 0 } },
Bin Mengaeb581a2017-07-25 20:12:03 -070056 /* TNG - Intel Atom processor Z3400 series */
Bin Meng7943dc22017-08-15 22:41:50 -070057 { 6, 0x4a, 1, { 0, 100000, 133300, 0, 0, 0, 0, 0, 0 } },
Bin Mengaeb581a2017-07-25 20:12:03 -070058 /* VLV2 - Intel Atom processor E3000, Z3600, Z3700 series */
Bin Meng7943dc22017-08-15 22:41:50 -070059 { 6, 0x37, 1, { 83300, 100000, 133300, 116700, 80000, 0, 0, 0, 0 } },
Bin Mengaeb581a2017-07-25 20:12:03 -070060 /* ANN - Intel Atom processor Z3500 series */
Bin Meng7943dc22017-08-15 22:41:50 -070061 { 6, 0x5a, 1, { 83300, 100000, 133300, 100000, 0, 0, 0, 0, 0 } },
62 /* AMT - Intel Atom processor X7-Z8000 and X5-Z8000 series */
63 { 6, 0x4c, 1, { 83300, 100000, 133300, 116700,
64 80000, 93300, 90000, 88900, 87500 } },
Simon Glass40a8c352014-11-12 22:42:04 -070065 /* Ivybridge */
Bin Meng7943dc22017-08-15 22:41:50 -070066 { 6, 0x3a, 2, { 0, 0, 0, 0, 0, 0, 0, 0, 0 } },
Bin Meng49f70992014-11-09 22:19:13 +080067};
68
69static int match_cpu(u8 family, u8 model)
70{
71 int i;
72
73 for (i = 0; i < ARRAY_SIZE(freq_desc_tables); i++) {
74 if ((family == freq_desc_tables[i].x86_family) &&
75 (model == freq_desc_tables[i].x86_model))
76 return i;
77 }
78
79 return -1;
80}
81
82/* Map CPU reference clock freq ID(0-7) to CPU reference clock freq(KHz) */
83#define id_to_freq(cpu_index, freq_id) \
84 (freq_desc_tables[cpu_index].freqs[freq_id])
85
86/*
Bin Meng6ffad642017-07-25 20:12:05 -070087 * TSC on Intel Atom SoCs capable of determining TSC frequency by MSR is
88 * reliable and the frequency is known (provided by HW).
Bin Meng49f70992014-11-09 22:19:13 +080089 *
Bin Meng6ffad642017-07-25 20:12:05 -070090 * On these platforms PIT/HPET is generally not available so calibration won't
91 * work at all and there is no other clocksource to act as a watchdog for the
92 * TSC, so we have no other choice than to trust it.
93 *
94 * Returns the TSC frequency in MHz or 0 if HW does not provide it.
Bin Meng49f70992014-11-09 22:19:13 +080095 */
Bin Meng6ffad642017-07-25 20:12:05 -070096static unsigned long __maybe_unused cpu_mhz_from_msr(void)
Bin Meng49f70992014-11-09 22:19:13 +080097{
98 u32 lo, hi, ratio, freq_id, freq;
99 unsigned long res;
100 int cpu_index;
101
Bin Mengd159ffb2017-07-25 20:12:01 -0700102 if (gd->arch.x86_vendor != X86_VENDOR_INTEL)
103 return 0;
104
Bin Meng49f70992014-11-09 22:19:13 +0800105 cpu_index = match_cpu(gd->arch.x86, gd->arch.x86_model);
106 if (cpu_index < 0)
107 return 0;
108
109 if (freq_desc_tables[cpu_index].msr_plat) {
110 rdmsr(MSR_PLATFORM_INFO, lo, hi);
Bin Mengf4ed4d72017-07-25 20:12:00 -0700111 ratio = (lo >> 8) & 0xff;
Bin Meng49f70992014-11-09 22:19:13 +0800112 } else {
113 rdmsr(MSR_IA32_PERF_STATUS, lo, hi);
114 ratio = (hi >> 8) & 0x1f;
115 }
116 debug("Maximum core-clock to bus-clock ratio: 0x%x\n", ratio);
117
Simon Glass40a8c352014-11-12 22:42:04 -0700118 if (freq_desc_tables[cpu_index].msr_plat == 2) {
119 /* TODO: Figure out how best to deal with this */
Bin Meng23ee9ab2017-07-25 20:12:04 -0700120 freq = 100000;
Simon Glass40a8c352014-11-12 22:42:04 -0700121 debug("Using frequency: %u KHz\n", freq);
122 } else {
123 /* Get FSB FREQ ID */
124 rdmsr(MSR_FSB_FREQ, lo, hi);
125 freq_id = lo & 0x7;
126 freq = id_to_freq(cpu_index, freq_id);
127 debug("Resolved frequency ID: %u, frequency: %u KHz\n",
128 freq_id, freq);
129 }
Bin Meng49f70992014-11-09 22:19:13 +0800130
131 /* TSC frequency = maximum resolved freq * maximum resolved bus ratio */
132 res = freq * ratio / 1000;
133 debug("TSC runs at %lu MHz\n", res);
134
135 return res;
Bin Meng49f70992014-11-09 22:19:13 +0800136}
137
Bin Mengbba97052014-11-09 22:19:25 +0800138/*
139 * This reads the current MSB of the PIT counter, and
140 * checks if we are running on sufficiently fast and
141 * non-virtualized hardware.
142 *
143 * Our expectations are:
144 *
145 * - the PIT is running at roughly 1.19MHz
146 *
147 * - each IO is going to take about 1us on real hardware,
148 * but we allow it to be much faster (by a factor of 10) or
149 * _slightly_ slower (ie we allow up to a 2us read+counter
150 * update - anything else implies a unacceptably slow CPU
151 * or PIT for the fast calibration to work.
152 *
153 * - with 256 PIT ticks to read the value, we have 214us to
154 * see the same MSB (and overhead like doing a single TSC
155 * read per MSB value etc).
156 *
157 * - We're doing 2 reads per loop (LSB, MSB), and we expect
158 * them each to take about a microsecond on real hardware.
159 * So we expect a count value of around 100. But we'll be
160 * generous, and accept anything over 50.
161 *
162 * - if the PIT is stuck, and we see *many* more reads, we
163 * return early (and the next caller of pit_expect_msb()
164 * then consider it a failure when they don't see the
165 * next expected value).
166 *
167 * These expectations mean that we know that we have seen the
168 * transition from one expected value to another with a fairly
169 * high accuracy, and we didn't miss any events. We can thus
170 * use the TSC value at the transitions to calculate a pretty
171 * good value for the TSC frequencty.
172 */
173static inline int pit_verify_msb(unsigned char val)
174{
175 /* Ignore LSB */
176 inb(0x42);
177 return inb(0x42) == val;
178}
179
180static inline int pit_expect_msb(unsigned char val, u64 *tscp,
181 unsigned long *deltap)
182{
183 int count;
184 u64 tsc = 0, prev_tsc = 0;
185
186 for (count = 0; count < 50000; count++) {
187 if (!pit_verify_msb(val))
188 break;
189 prev_tsc = tsc;
190 tsc = rdtsc();
191 }
192 *deltap = rdtsc() - prev_tsc;
193 *tscp = tsc;
194
195 /*
196 * We require _some_ success, but the quality control
197 * will be based on the error terms on the TSC values.
198 */
199 return count > 5;
200}
201
202/*
203 * How many MSB values do we want to see? We aim for
204 * a maximum error rate of 500ppm (in practice the
205 * real error is much smaller), but refuse to spend
206 * more than 50ms on it.
207 */
208#define MAX_QUICK_PIT_MS 50
209#define MAX_QUICK_PIT_ITERATIONS (MAX_QUICK_PIT_MS * PIT_TICK_RATE / 1000 / 256)
210
Bin Mengb2eb48b2015-01-06 22:14:14 +0800211static unsigned long __maybe_unused quick_pit_calibrate(void)
Bin Mengbba97052014-11-09 22:19:25 +0800212{
213 int i;
214 u64 tsc, delta;
215 unsigned long d1, d2;
216
217 /* Set the Gate high, disable speaker */
218 outb((inb(0x61) & ~0x02) | 0x01, 0x61);
219
220 /*
221 * Counter 2, mode 0 (one-shot), binary count
222 *
223 * NOTE! Mode 2 decrements by two (and then the
224 * output is flipped each time, giving the same
225 * final output frequency as a decrement-by-one),
226 * so mode 0 is much better when looking at the
227 * individual counts.
228 */
229 outb(0xb0, 0x43);
230
231 /* Start at 0xffff */
232 outb(0xff, 0x42);
233 outb(0xff, 0x42);
234
235 /*
236 * The PIT starts counting at the next edge, so we
237 * need to delay for a microsecond. The easiest way
238 * to do that is to just read back the 16-bit counter
239 * once from the PIT.
240 */
241 pit_verify_msb(0);
242
243 if (pit_expect_msb(0xff, &tsc, &d1)) {
244 for (i = 1; i <= MAX_QUICK_PIT_ITERATIONS; i++) {
245 if (!pit_expect_msb(0xff-i, &delta, &d2))
246 break;
247
248 /*
249 * Iterate until the error is less than 500 ppm
250 */
251 delta -= tsc;
252 if (d1+d2 >= delta >> 11)
253 continue;
254
255 /*
256 * Check the PIT one more time to verify that
257 * all TSC reads were stable wrt the PIT.
258 *
259 * This also guarantees serialization of the
260 * last cycle read ('d2') in pit_expect_msb.
261 */
262 if (!pit_verify_msb(0xfe - i))
263 break;
264 goto success;
265 }
266 }
267 debug("Fast TSC calibration failed\n");
268 return 0;
269
270success:
271 /*
272 * Ok, if we get here, then we've seen the
273 * MSB of the PIT decrement 'i' times, and the
274 * error has shrunk to less than 500 ppm.
275 *
276 * As a result, we can depend on there not being
277 * any odd delays anywhere, and the TSC reads are
278 * reliable (within the error).
279 *
280 * kHz = ticks / time-in-seconds / 1000;
281 * kHz = (t2 - t1) / (I * 256 / PIT_TICK_RATE) / 1000
282 * kHz = ((t2 - t1) * PIT_TICK_RATE) / (I * 256 * 1000)
283 */
284 delta *= PIT_TICK_RATE;
285 delta /= (i*256*1000);
286 debug("Fast TSC calibration using PIT\n");
287 return delta / 1000;
288}
289
Simon Glass11d7a5b2013-04-17 16:13:36 +0000290/* Get the speed of the TSC timer in MHz */
Bin Meng500361e2015-11-13 00:11:20 -0800291unsigned notrace long get_tbclk_mhz(void)
Simon Glass11d7a5b2013-04-17 16:13:36 +0000292{
Bin Meng976c2e82015-11-13 00:11:21 -0800293 return get_tbclk() / 1000000;
Simon Glass11d7a5b2013-04-17 16:13:36 +0000294}
295
Simon Glass11d7a5b2013-04-17 16:13:36 +0000296static ulong get_ms_timer(void)
297{
298 return (get_ticks() * 1000) / get_tbclk();
299}
300
301ulong get_timer(ulong base)
302{
303 return get_ms_timer() - base;
304}
305
Bin Meng500361e2015-11-13 00:11:20 -0800306ulong notrace timer_get_us(void)
Simon Glass11d7a5b2013-04-17 16:13:36 +0000307{
308 return get_ticks() / get_tbclk_mhz();
309}
310
311ulong timer_get_boot_us(void)
312{
313 return timer_get_us();
314}
315
316void __udelay(unsigned long usec)
317{
318 u64 now = get_ticks();
319 u64 stop;
320
321 stop = now + usec * get_tbclk_mhz();
322
323 while ((int64_t)(stop - get_ticks()) > 0)
Miao Yanb9f32772015-07-27 19:16:07 +0800324#if defined(CONFIG_QEMU) && defined(CONFIG_SMP)
325 /*
326 * Add a 'pause' instruction on qemu target,
327 * to give other VCPUs a chance to run.
328 */
329 asm volatile("pause");
330#else
Simon Glass11d7a5b2013-04-17 16:13:36 +0000331 ;
Miao Yanb9f32772015-07-27 19:16:07 +0800332#endif
Simon Glass11d7a5b2013-04-17 16:13:36 +0000333}
334
Bin Meng976c2e82015-11-13 00:11:21 -0800335static int tsc_timer_get_count(struct udevice *dev, u64 *count)
336{
337 u64 now_tick = rdtsc();
338
339 *count = now_tick - gd->arch.tsc_base;
340
341 return 0;
342}
343
Simon Glass471919d2017-09-05 19:49:46 -0600344static void tsc_timer_ensure_setup(void)
Bin Meng976c2e82015-11-13 00:11:21 -0800345{
Simon Glass471919d2017-09-05 19:49:46 -0600346 if (gd->arch.tsc_base)
347 return;
Bin Meng976c2e82015-11-13 00:11:21 -0800348 gd->arch.tsc_base = rdtsc();
349
350 /*
351 * If there is no clock frequency specified in the device tree,
352 * calibrate it by ourselves.
353 */
Simon Glass471919d2017-09-05 19:49:46 -0600354 if (!gd->arch.clock_rate) {
Bin Meng976c2e82015-11-13 00:11:21 -0800355 unsigned long fast_calibrate;
356
Christian Gmeiner1b1472a2018-05-14 11:32:17 +0200357 fast_calibrate = cpu_mhz_from_cpuid();
358 if (fast_calibrate)
359 goto done;
360
Bin Meng6ffad642017-07-25 20:12:05 -0700361 fast_calibrate = cpu_mhz_from_msr();
Christian Gmeiner1b1472a2018-05-14 11:32:17 +0200362 if (fast_calibrate)
363 goto done;
364
365 fast_calibrate = quick_pit_calibrate();
366 if (fast_calibrate)
367 goto done;
368
369 panic("TSC frequency is ZERO");
Bin Meng976c2e82015-11-13 00:11:21 -0800370
Christian Gmeiner1b1472a2018-05-14 11:32:17 +0200371done:
Simon Glass471919d2017-09-05 19:49:46 -0600372 gd->arch.clock_rate = fast_calibrate * 1000000;
Bin Meng976c2e82015-11-13 00:11:21 -0800373 }
Simon Glass471919d2017-09-05 19:49:46 -0600374}
375
376static int tsc_timer_probe(struct udevice *dev)
377{
378 struct timer_dev_priv *uc_priv = dev_get_uclass_priv(dev);
379
Bin Meng1394fbb2018-06-23 03:03:47 -0700380 if (!uc_priv->clock_rate) {
381 tsc_timer_ensure_setup();
382 uc_priv->clock_rate = gd->arch.clock_rate;
383 } else {
384 gd->arch.tsc_base = rdtsc();
385 }
Bin Meng976c2e82015-11-13 00:11:21 -0800386
387 return 0;
388}
389
Simon Glass471919d2017-09-05 19:49:46 -0600390unsigned long notrace timer_early_get_rate(void)
391{
Bin Meng1394fbb2018-06-23 03:03:47 -0700392 /*
393 * When TSC timer is used as the early timer, be warned that the timer
394 * clock rate can only be calibrated via some hardware ways. Specifying
395 * it in the device tree won't work for the early timer.
396 */
Simon Glass471919d2017-09-05 19:49:46 -0600397 tsc_timer_ensure_setup();
398
399 return gd->arch.clock_rate;
400}
401
402u64 notrace timer_early_get_count(void)
403{
404 return rdtsc() - gd->arch.tsc_base;
405}
406
Bin Meng976c2e82015-11-13 00:11:21 -0800407static const struct timer_ops tsc_timer_ops = {
408 .get_count = tsc_timer_get_count,
409};
410
411static const struct udevice_id tsc_timer_ids[] = {
412 { .compatible = "x86,tsc-timer", },
413 { }
414};
415
416U_BOOT_DRIVER(tsc_timer) = {
417 .name = "tsc_timer",
418 .id = UCLASS_TIMER,
419 .of_match = tsc_timer_ids,
420 .probe = tsc_timer_probe,
421 .ops = &tsc_timer_ops,
422 .flags = DM_FLAG_PRE_RELOC,
423};