ptp_idt82p33.c 32 KB

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  1. // SPDX-License-Identifier: GPL-2.0
  2. //
  3. // Copyright (C) 2018 Integrated Device Technology, Inc
  4. //
  5. #define pr_fmt(fmt) "IDT_82p33xxx: " fmt
  6. #include <linux/firmware.h>
  7. #include <linux/platform_device.h>
  8. #include <linux/module.h>
  9. #include <linux/ptp_clock_kernel.h>
  10. #include <linux/delay.h>
  11. #include <linux/jiffies.h>
  12. #include <linux/kernel.h>
  13. #include <linux/timekeeping.h>
  14. #include <linux/bitops.h>
  15. #include <linux/of.h>
  16. #include <linux/mfd/rsmu.h>
  17. #include <linux/mfd/idt82p33_reg.h>
  18. #include "ptp_private.h"
  19. #include "ptp_idt82p33.h"
  20. MODULE_DESCRIPTION("Driver for IDT 82p33xxx clock devices");
  21. MODULE_AUTHOR("IDT support-1588 <IDT-support-1588@lm.renesas.com>");
  22. MODULE_VERSION("1.0");
  23. MODULE_LICENSE("GPL");
  24. MODULE_FIRMWARE(FW_FILENAME);
  25. #define EXTTS_PERIOD_MS (95)
  26. /* Module Parameters */
  27. static u32 phase_snap_threshold = SNAP_THRESHOLD_NS;
  28. module_param(phase_snap_threshold, uint, 0);
  29. MODULE_PARM_DESC(phase_snap_threshold,
  30. "threshold (10000ns by default) below which adjtime would use double dco");
  31. static char *firmware;
  32. module_param(firmware, charp, 0);
  33. static struct ptp_pin_desc pin_config[MAX_PHC_PLL][MAX_TRIG_CLK];
  34. static inline int idt82p33_read(struct idt82p33 *idt82p33, u16 regaddr,
  35. u8 *buf, u16 count)
  36. {
  37. return regmap_bulk_read(idt82p33->regmap, regaddr, buf, count);
  38. }
  39. static inline int idt82p33_write(struct idt82p33 *idt82p33, u16 regaddr,
  40. u8 *buf, u16 count)
  41. {
  42. return regmap_bulk_write(idt82p33->regmap, regaddr, buf, count);
  43. }
  44. static void idt82p33_byte_array_to_timespec(struct timespec64 *ts,
  45. u8 buf[TOD_BYTE_COUNT])
  46. {
  47. time64_t sec;
  48. s32 nsec;
  49. u8 i;
  50. nsec = buf[3];
  51. for (i = 0; i < 3; i++) {
  52. nsec <<= 8;
  53. nsec |= buf[2 - i];
  54. }
  55. sec = buf[9];
  56. for (i = 0; i < 5; i++) {
  57. sec <<= 8;
  58. sec |= buf[8 - i];
  59. }
  60. ts->tv_sec = sec;
  61. ts->tv_nsec = nsec;
  62. }
  63. static void idt82p33_timespec_to_byte_array(struct timespec64 const *ts,
  64. u8 buf[TOD_BYTE_COUNT])
  65. {
  66. time64_t sec;
  67. s32 nsec;
  68. u8 i;
  69. nsec = ts->tv_nsec;
  70. sec = ts->tv_sec;
  71. for (i = 0; i < 4; i++) {
  72. buf[i] = nsec & 0xff;
  73. nsec >>= 8;
  74. }
  75. for (i = 4; i < TOD_BYTE_COUNT; i++) {
  76. buf[i] = sec & 0xff;
  77. sec >>= 8;
  78. }
  79. }
  80. static int idt82p33_dpll_set_mode(struct idt82p33_channel *channel,
  81. enum pll_mode mode)
  82. {
  83. struct idt82p33 *idt82p33 = channel->idt82p33;
  84. u8 dpll_mode;
  85. int err;
  86. if (channel->pll_mode == mode)
  87. return 0;
  88. err = idt82p33_read(idt82p33, channel->dpll_mode_cnfg,
  89. &dpll_mode, sizeof(dpll_mode));
  90. if (err)
  91. return err;
  92. dpll_mode &= ~(PLL_MODE_MASK << PLL_MODE_SHIFT);
  93. dpll_mode |= (mode << PLL_MODE_SHIFT);
  94. err = idt82p33_write(idt82p33, channel->dpll_mode_cnfg,
  95. &dpll_mode, sizeof(dpll_mode));
  96. if (err)
  97. return err;
  98. channel->pll_mode = mode;
  99. return 0;
  100. }
  101. static int idt82p33_set_tod_trigger(struct idt82p33_channel *channel,
  102. u8 trigger, bool write)
  103. {
  104. struct idt82p33 *idt82p33 = channel->idt82p33;
  105. int err;
  106. u8 cfg;
  107. if (trigger > WR_TRIG_SEL_MAX)
  108. return -EINVAL;
  109. err = idt82p33_read(idt82p33, channel->dpll_tod_trigger,
  110. &cfg, sizeof(cfg));
  111. if (err)
  112. return err;
  113. if (write == true)
  114. trigger = (trigger << WRITE_TRIGGER_SHIFT) |
  115. (cfg & READ_TRIGGER_MASK);
  116. else
  117. trigger = (trigger << READ_TRIGGER_SHIFT) |
  118. (cfg & WRITE_TRIGGER_MASK);
  119. return idt82p33_write(idt82p33, channel->dpll_tod_trigger,
  120. &trigger, sizeof(trigger));
  121. }
  122. static int idt82p33_get_extts(struct idt82p33_channel *channel,
  123. struct timespec64 *ts)
  124. {
  125. struct idt82p33 *idt82p33 = channel->idt82p33;
  126. u8 buf[TOD_BYTE_COUNT];
  127. int err;
  128. err = idt82p33_read(idt82p33, channel->dpll_tod_sts, buf, sizeof(buf));
  129. if (err)
  130. return err;
  131. /* Since trigger is not self clearing itself, we have to poll tod_sts */
  132. if (memcmp(buf, channel->extts_tod_sts, TOD_BYTE_COUNT) == 0)
  133. return -EAGAIN;
  134. memcpy(channel->extts_tod_sts, buf, TOD_BYTE_COUNT);
  135. idt82p33_byte_array_to_timespec(ts, buf);
  136. if (channel->discard_next_extts) {
  137. channel->discard_next_extts = false;
  138. return -EAGAIN;
  139. }
  140. return 0;
  141. }
  142. static int map_ref_to_tod_trig_sel(int ref, u8 *trigger)
  143. {
  144. int err = 0;
  145. switch (ref) {
  146. case 0:
  147. *trigger = HW_TOD_TRIG_SEL_IN12;
  148. break;
  149. case 1:
  150. *trigger = HW_TOD_TRIG_SEL_IN13;
  151. break;
  152. case 2:
  153. *trigger = HW_TOD_TRIG_SEL_IN14;
  154. break;
  155. default:
  156. err = -EINVAL;
  157. }
  158. return err;
  159. }
  160. static bool is_one_shot(u8 mask)
  161. {
  162. /* Treat single bit PLL masks as continuous trigger */
  163. if ((mask == 1) || (mask == 2))
  164. return false;
  165. else
  166. return true;
  167. }
  168. static int arm_tod_read_with_trigger(struct idt82p33_channel *channel, u8 trigger)
  169. {
  170. struct idt82p33 *idt82p33 = channel->idt82p33;
  171. u8 buf[TOD_BYTE_COUNT];
  172. int err;
  173. /* Remember the current tod_sts before setting the trigger */
  174. err = idt82p33_read(idt82p33, channel->dpll_tod_sts, buf, sizeof(buf));
  175. if (err)
  176. return err;
  177. memcpy(channel->extts_tod_sts, buf, TOD_BYTE_COUNT);
  178. err = idt82p33_set_tod_trigger(channel, trigger, false);
  179. if (err)
  180. dev_err(idt82p33->dev, "%s: err = %d", __func__, err);
  181. return err;
  182. }
  183. static int idt82p33_extts_enable(struct idt82p33_channel *channel,
  184. struct ptp_clock_request *rq, int on)
  185. {
  186. u8 index = rq->extts.index;
  187. struct idt82p33 *idt82p33;
  188. u8 mask = 1 << index;
  189. int err = 0;
  190. u8 old_mask;
  191. u8 trigger;
  192. int ref;
  193. idt82p33 = channel->idt82p33;
  194. old_mask = idt82p33->extts_mask;
  195. if (index >= MAX_PHC_PLL)
  196. return -EINVAL;
  197. if (on) {
  198. /* Return if it was already enabled */
  199. if (idt82p33->extts_mask & mask)
  200. return 0;
  201. /* Use the pin configured for the channel */
  202. ref = ptp_find_pin(channel->ptp_clock, PTP_PF_EXTTS, channel->plln);
  203. if (ref < 0) {
  204. dev_err(idt82p33->dev, "%s: No valid pin found for Pll%d!\n",
  205. __func__, channel->plln);
  206. return -EBUSY;
  207. }
  208. err = map_ref_to_tod_trig_sel(ref, &trigger);
  209. if (err) {
  210. dev_err(idt82p33->dev,
  211. "%s: Unsupported ref %d!\n", __func__, ref);
  212. return err;
  213. }
  214. err = arm_tod_read_with_trigger(&idt82p33->channel[index], trigger);
  215. if (err == 0) {
  216. idt82p33->extts_mask |= mask;
  217. idt82p33->channel[index].tod_trigger = trigger;
  218. idt82p33->event_channel[index] = channel;
  219. idt82p33->extts_single_shot = is_one_shot(idt82p33->extts_mask);
  220. if (old_mask)
  221. return 0;
  222. schedule_delayed_work(&idt82p33->extts_work,
  223. msecs_to_jiffies(EXTTS_PERIOD_MS));
  224. }
  225. } else {
  226. idt82p33->extts_mask &= ~mask;
  227. idt82p33->extts_single_shot = is_one_shot(idt82p33->extts_mask);
  228. if (idt82p33->extts_mask == 0)
  229. cancel_delayed_work(&idt82p33->extts_work);
  230. }
  231. return err;
  232. }
  233. static int idt82p33_extts_check_channel(struct idt82p33 *idt82p33, u8 todn)
  234. {
  235. struct idt82p33_channel *event_channel;
  236. struct ptp_clock_event event;
  237. struct timespec64 ts;
  238. int err;
  239. err = idt82p33_get_extts(&idt82p33->channel[todn], &ts);
  240. if (err == 0) {
  241. event_channel = idt82p33->event_channel[todn];
  242. event.type = PTP_CLOCK_EXTTS;
  243. event.index = todn;
  244. event.timestamp = timespec64_to_ns(&ts);
  245. ptp_clock_event(event_channel->ptp_clock,
  246. &event);
  247. }
  248. return err;
  249. }
  250. static u8 idt82p33_extts_enable_mask(struct idt82p33_channel *channel,
  251. u8 extts_mask, bool enable)
  252. {
  253. struct idt82p33 *idt82p33 = channel->idt82p33;
  254. u8 trigger = channel->tod_trigger;
  255. u8 mask;
  256. int err;
  257. int i;
  258. if (extts_mask == 0)
  259. return 0;
  260. if (enable == false)
  261. cancel_delayed_work_sync(&idt82p33->extts_work);
  262. for (i = 0; i < MAX_PHC_PLL; i++) {
  263. mask = 1 << i;
  264. if ((extts_mask & mask) == 0)
  265. continue;
  266. if (enable) {
  267. err = arm_tod_read_with_trigger(&idt82p33->channel[i], trigger);
  268. if (err)
  269. dev_err(idt82p33->dev,
  270. "%s: Arm ToD read trigger failed, err = %d",
  271. __func__, err);
  272. } else {
  273. err = idt82p33_extts_check_channel(idt82p33, i);
  274. if (err == 0 && idt82p33->extts_single_shot)
  275. /* trigger happened so we won't re-enable it */
  276. extts_mask &= ~mask;
  277. }
  278. }
  279. if (enable)
  280. schedule_delayed_work(&idt82p33->extts_work,
  281. msecs_to_jiffies(EXTTS_PERIOD_MS));
  282. return extts_mask;
  283. }
  284. static int _idt82p33_gettime(struct idt82p33_channel *channel,
  285. struct timespec64 *ts)
  286. {
  287. struct idt82p33 *idt82p33 = channel->idt82p33;
  288. u8 old_mask = idt82p33->extts_mask;
  289. u8 buf[TOD_BYTE_COUNT];
  290. u8 new_mask = 0;
  291. int err;
  292. /* Disable extts */
  293. if (old_mask)
  294. new_mask = idt82p33_extts_enable_mask(channel, old_mask, false);
  295. err = idt82p33_set_tod_trigger(channel, HW_TOD_RD_TRIG_SEL_LSB_TOD_STS,
  296. false);
  297. if (err)
  298. return err;
  299. channel->discard_next_extts = true;
  300. if (idt82p33->calculate_overhead_flag)
  301. idt82p33->start_time = ktime_get_raw();
  302. err = idt82p33_read(idt82p33, channel->dpll_tod_sts, buf, sizeof(buf));
  303. if (err)
  304. return err;
  305. /* Re-enable extts */
  306. if (new_mask)
  307. idt82p33_extts_enable_mask(channel, new_mask, true);
  308. idt82p33_byte_array_to_timespec(ts, buf);
  309. return 0;
  310. }
  311. /*
  312. * TOD Trigger:
  313. * Bits[7:4] Write 0x9, MSB write
  314. * Bits[3:0] Read 0x9, LSB read
  315. */
  316. static int _idt82p33_settime(struct idt82p33_channel *channel,
  317. struct timespec64 const *ts)
  318. {
  319. struct idt82p33 *idt82p33 = channel->idt82p33;
  320. struct timespec64 local_ts = *ts;
  321. char buf[TOD_BYTE_COUNT];
  322. s64 dynamic_overhead_ns;
  323. int err;
  324. u8 i;
  325. err = idt82p33_set_tod_trigger(channel, HW_TOD_WR_TRIG_SEL_MSB_TOD_CNFG,
  326. true);
  327. if (err)
  328. return err;
  329. channel->discard_next_extts = true;
  330. if (idt82p33->calculate_overhead_flag) {
  331. dynamic_overhead_ns = ktime_to_ns(ktime_get_raw())
  332. - ktime_to_ns(idt82p33->start_time);
  333. timespec64_add_ns(&local_ts, dynamic_overhead_ns);
  334. idt82p33->calculate_overhead_flag = 0;
  335. }
  336. idt82p33_timespec_to_byte_array(&local_ts, buf);
  337. /*
  338. * Store the new time value.
  339. */
  340. for (i = 0; i < TOD_BYTE_COUNT; i++) {
  341. err = idt82p33_write(idt82p33, channel->dpll_tod_cnfg + i,
  342. &buf[i], sizeof(buf[i]));
  343. if (err)
  344. return err;
  345. }
  346. return err;
  347. }
  348. static int _idt82p33_adjtime_immediate(struct idt82p33_channel *channel,
  349. s64 delta_ns)
  350. {
  351. struct idt82p33 *idt82p33 = channel->idt82p33;
  352. struct timespec64 ts;
  353. s64 now_ns;
  354. int err;
  355. idt82p33->calculate_overhead_flag = 1;
  356. err = _idt82p33_gettime(channel, &ts);
  357. if (err)
  358. return err;
  359. now_ns = timespec64_to_ns(&ts);
  360. now_ns += delta_ns + idt82p33->tod_write_overhead_ns;
  361. ts = ns_to_timespec64(now_ns);
  362. err = _idt82p33_settime(channel, &ts);
  363. return err;
  364. }
  365. static int _idt82p33_adjtime_internal_triggered(struct idt82p33_channel *channel,
  366. s64 delta_ns)
  367. {
  368. struct idt82p33 *idt82p33 = channel->idt82p33;
  369. char buf[TOD_BYTE_COUNT];
  370. struct timespec64 ts;
  371. const u8 delay_ns = 32;
  372. s32 remainder;
  373. s64 ns;
  374. int err;
  375. err = _idt82p33_gettime(channel, &ts);
  376. if (err)
  377. return err;
  378. if (ts.tv_nsec > (NSEC_PER_SEC - 5 * NSEC_PER_MSEC)) {
  379. /* Too close to miss next trigger, so skip it */
  380. mdelay(6);
  381. ns = (ts.tv_sec + 2) * NSEC_PER_SEC + delta_ns + delay_ns;
  382. } else
  383. ns = (ts.tv_sec + 1) * NSEC_PER_SEC + delta_ns + delay_ns;
  384. ts = ns_to_timespec64(ns);
  385. idt82p33_timespec_to_byte_array(&ts, buf);
  386. /*
  387. * Store the new time value.
  388. */
  389. err = idt82p33_write(idt82p33, channel->dpll_tod_cnfg, buf, sizeof(buf));
  390. if (err)
  391. return err;
  392. /* Schedule to implement the workaround in one second */
  393. (void)div_s64_rem(delta_ns, NSEC_PER_SEC, &remainder);
  394. if (remainder != 0)
  395. schedule_delayed_work(&channel->adjtime_work, HZ);
  396. return idt82p33_set_tod_trigger(channel, HW_TOD_TRIG_SEL_TOD_PPS, true);
  397. }
  398. static void idt82p33_adjtime_workaround(struct work_struct *work)
  399. {
  400. struct idt82p33_channel *channel = container_of(work,
  401. struct idt82p33_channel,
  402. adjtime_work.work);
  403. struct idt82p33 *idt82p33 = channel->idt82p33;
  404. mutex_lock(idt82p33->lock);
  405. /* Workaround for TOD-to-output alignment issue */
  406. _idt82p33_adjtime_internal_triggered(channel, 0);
  407. mutex_unlock(idt82p33->lock);
  408. }
  409. static int _idt82p33_adjfine(struct idt82p33_channel *channel, long scaled_ppm)
  410. {
  411. struct idt82p33 *idt82p33 = channel->idt82p33;
  412. unsigned char buf[5] = {0};
  413. int err, i;
  414. s64 fcw;
  415. /*
  416. * Frequency Control Word unit is: 1.6861512 * 10^-10 ppm
  417. *
  418. * adjfreq:
  419. * ppb * 10^14
  420. * FCW = -----------
  421. * 16861512
  422. *
  423. * adjfine:
  424. * scaled_ppm * 5^12 * 10^5
  425. * FCW = ------------------------
  426. * 16861512 * 2^4
  427. */
  428. fcw = scaled_ppm * 762939453125ULL;
  429. fcw = div_s64(fcw, 8430756LL);
  430. for (i = 0; i < 5; i++) {
  431. buf[i] = fcw & 0xff;
  432. fcw >>= 8;
  433. }
  434. err = idt82p33_dpll_set_mode(channel, PLL_MODE_DCO);
  435. if (err)
  436. return err;
  437. err = idt82p33_write(idt82p33, channel->dpll_freq_cnfg,
  438. buf, sizeof(buf));
  439. return err;
  440. }
  441. /* ppb = scaled_ppm * 125 / 2^13 */
  442. static s32 idt82p33_ddco_scaled_ppm(long current_ppm, s32 ddco_ppb)
  443. {
  444. s64 scaled_ppm = div_s64(((s64)ddco_ppb << 13), 125);
  445. s64 max_scaled_ppm = div_s64(((s64)DCO_MAX_PPB << 13), 125);
  446. current_ppm += scaled_ppm;
  447. if (current_ppm > max_scaled_ppm)
  448. current_ppm = max_scaled_ppm;
  449. else if (current_ppm < -max_scaled_ppm)
  450. current_ppm = -max_scaled_ppm;
  451. return (s32)current_ppm;
  452. }
  453. static int idt82p33_stop_ddco(struct idt82p33_channel *channel)
  454. {
  455. int err;
  456. err = _idt82p33_adjfine(channel, channel->current_freq);
  457. if (err)
  458. return err;
  459. channel->ddco = false;
  460. return 0;
  461. }
  462. static int idt82p33_start_ddco(struct idt82p33_channel *channel, s32 delta_ns)
  463. {
  464. s32 current_ppm = channel->current_freq;
  465. u32 duration_ms = MSEC_PER_SEC;
  466. s32 ppb;
  467. int err;
  468. /* If the ToD correction is less than 5 nanoseconds, then skip it.
  469. * The error introduced by the ToD adjustment procedure would be bigger
  470. * than the required ToD correction
  471. */
  472. if (abs(delta_ns) < DDCO_THRESHOLD_NS)
  473. return 0;
  474. /* For most cases, keep ddco duration 1 second */
  475. ppb = delta_ns;
  476. while (abs(ppb) > DCO_MAX_PPB) {
  477. duration_ms *= 2;
  478. ppb /= 2;
  479. }
  480. err = _idt82p33_adjfine(channel,
  481. idt82p33_ddco_scaled_ppm(current_ppm, ppb));
  482. if (err)
  483. return err;
  484. /* schedule the worker to cancel ddco */
  485. ptp_schedule_worker(channel->ptp_clock,
  486. msecs_to_jiffies(duration_ms) - 1);
  487. channel->ddco = true;
  488. return 0;
  489. }
  490. static int idt82p33_measure_one_byte_write_overhead(
  491. struct idt82p33_channel *channel, s64 *overhead_ns)
  492. {
  493. struct idt82p33 *idt82p33 = channel->idt82p33;
  494. ktime_t start, stop;
  495. u8 trigger = 0;
  496. s64 total_ns;
  497. int err;
  498. u8 i;
  499. total_ns = 0;
  500. *overhead_ns = 0;
  501. for (i = 0; i < MAX_MEASURMENT_COUNT; i++) {
  502. start = ktime_get_raw();
  503. err = idt82p33_write(idt82p33, channel->dpll_tod_trigger,
  504. &trigger, sizeof(trigger));
  505. stop = ktime_get_raw();
  506. if (err)
  507. return err;
  508. total_ns += ktime_to_ns(stop) - ktime_to_ns(start);
  509. }
  510. *overhead_ns = div_s64(total_ns, MAX_MEASURMENT_COUNT);
  511. return err;
  512. }
  513. static int idt82p33_measure_one_byte_read_overhead(
  514. struct idt82p33_channel *channel, s64 *overhead_ns)
  515. {
  516. struct idt82p33 *idt82p33 = channel->idt82p33;
  517. ktime_t start, stop;
  518. u8 trigger = 0;
  519. s64 total_ns;
  520. int err;
  521. u8 i;
  522. total_ns = 0;
  523. *overhead_ns = 0;
  524. for (i = 0; i < MAX_MEASURMENT_COUNT; i++) {
  525. start = ktime_get_raw();
  526. err = idt82p33_read(idt82p33, channel->dpll_tod_trigger,
  527. &trigger, sizeof(trigger));
  528. stop = ktime_get_raw();
  529. if (err)
  530. return err;
  531. total_ns += ktime_to_ns(stop) - ktime_to_ns(start);
  532. }
  533. *overhead_ns = div_s64(total_ns, MAX_MEASURMENT_COUNT);
  534. return err;
  535. }
  536. static int idt82p33_measure_tod_write_9_byte_overhead(
  537. struct idt82p33_channel *channel)
  538. {
  539. struct idt82p33 *idt82p33 = channel->idt82p33;
  540. u8 buf[TOD_BYTE_COUNT];
  541. ktime_t start, stop;
  542. s64 total_ns;
  543. int err = 0;
  544. u8 i, j;
  545. total_ns = 0;
  546. idt82p33->tod_write_overhead_ns = 0;
  547. for (i = 0; i < MAX_MEASURMENT_COUNT; i++) {
  548. start = ktime_get_raw();
  549. /* Need one less byte for applicable overhead */
  550. for (j = 0; j < (TOD_BYTE_COUNT - 1); j++) {
  551. err = idt82p33_write(idt82p33,
  552. channel->dpll_tod_cnfg + i,
  553. &buf[i], sizeof(buf[i]));
  554. if (err)
  555. return err;
  556. }
  557. stop = ktime_get_raw();
  558. total_ns += ktime_to_ns(stop) - ktime_to_ns(start);
  559. }
  560. idt82p33->tod_write_overhead_ns = div_s64(total_ns,
  561. MAX_MEASURMENT_COUNT);
  562. return err;
  563. }
  564. static int idt82p33_measure_settime_gettime_gap_overhead(
  565. struct idt82p33_channel *channel, s64 *overhead_ns)
  566. {
  567. struct timespec64 ts1 = {0, 0};
  568. struct timespec64 ts2;
  569. int err;
  570. *overhead_ns = 0;
  571. err = _idt82p33_settime(channel, &ts1);
  572. if (err)
  573. return err;
  574. err = _idt82p33_gettime(channel, &ts2);
  575. if (!err)
  576. *overhead_ns = timespec64_to_ns(&ts2) - timespec64_to_ns(&ts1);
  577. return err;
  578. }
  579. static int idt82p33_measure_tod_write_overhead(struct idt82p33_channel *channel)
  580. {
  581. s64 trailing_overhead_ns, one_byte_write_ns, gap_ns, one_byte_read_ns;
  582. struct idt82p33 *idt82p33 = channel->idt82p33;
  583. int err;
  584. idt82p33->tod_write_overhead_ns = 0;
  585. err = idt82p33_measure_settime_gettime_gap_overhead(channel, &gap_ns);
  586. if (err) {
  587. dev_err(idt82p33->dev,
  588. "Failed in %s with err %d!\n", __func__, err);
  589. return err;
  590. }
  591. err = idt82p33_measure_one_byte_write_overhead(channel,
  592. &one_byte_write_ns);
  593. if (err)
  594. return err;
  595. err = idt82p33_measure_one_byte_read_overhead(channel,
  596. &one_byte_read_ns);
  597. if (err)
  598. return err;
  599. err = idt82p33_measure_tod_write_9_byte_overhead(channel);
  600. if (err)
  601. return err;
  602. trailing_overhead_ns = gap_ns - 2 * one_byte_write_ns
  603. - one_byte_read_ns;
  604. idt82p33->tod_write_overhead_ns -= trailing_overhead_ns;
  605. return err;
  606. }
  607. static int idt82p33_check_and_set_masks(struct idt82p33 *idt82p33,
  608. u8 page,
  609. u8 offset,
  610. u8 val)
  611. {
  612. int err = 0;
  613. if (page == PLLMASK_ADDR_HI && offset == PLLMASK_ADDR_LO) {
  614. if ((val & 0xfc) || !(val & 0x3)) {
  615. dev_err(idt82p33->dev,
  616. "Invalid PLL mask 0x%x\n", val);
  617. err = -EINVAL;
  618. } else {
  619. idt82p33->pll_mask = val;
  620. }
  621. } else if (page == PLL0_OUTMASK_ADDR_HI &&
  622. offset == PLL0_OUTMASK_ADDR_LO) {
  623. idt82p33->channel[0].output_mask = val;
  624. } else if (page == PLL1_OUTMASK_ADDR_HI &&
  625. offset == PLL1_OUTMASK_ADDR_LO) {
  626. idt82p33->channel[1].output_mask = val;
  627. }
  628. return err;
  629. }
  630. static void idt82p33_display_masks(struct idt82p33 *idt82p33)
  631. {
  632. u8 mask, i;
  633. dev_info(idt82p33->dev,
  634. "pllmask = 0x%02x\n", idt82p33->pll_mask);
  635. for (i = 0; i < MAX_PHC_PLL; i++) {
  636. mask = 1 << i;
  637. if (mask & idt82p33->pll_mask)
  638. dev_info(idt82p33->dev,
  639. "PLL%d output_mask = 0x%04x\n",
  640. i, idt82p33->channel[i].output_mask);
  641. }
  642. }
  643. static int idt82p33_sync_tod(struct idt82p33_channel *channel, bool enable)
  644. {
  645. struct idt82p33 *idt82p33 = channel->idt82p33;
  646. u8 sync_cnfg;
  647. int err;
  648. err = idt82p33_read(idt82p33, channel->dpll_sync_cnfg,
  649. &sync_cnfg, sizeof(sync_cnfg));
  650. if (err)
  651. return err;
  652. sync_cnfg &= ~SYNC_TOD;
  653. if (enable)
  654. sync_cnfg |= SYNC_TOD;
  655. return idt82p33_write(idt82p33, channel->dpll_sync_cnfg,
  656. &sync_cnfg, sizeof(sync_cnfg));
  657. }
  658. static long idt82p33_work_handler(struct ptp_clock_info *ptp)
  659. {
  660. struct idt82p33_channel *channel =
  661. container_of(ptp, struct idt82p33_channel, caps);
  662. struct idt82p33 *idt82p33 = channel->idt82p33;
  663. mutex_lock(idt82p33->lock);
  664. (void)idt82p33_stop_ddco(channel);
  665. mutex_unlock(idt82p33->lock);
  666. /* Return a negative value here to not reschedule */
  667. return -1;
  668. }
  669. static int idt82p33_output_enable(struct idt82p33_channel *channel,
  670. bool enable, unsigned int outn)
  671. {
  672. struct idt82p33 *idt82p33 = channel->idt82p33;
  673. int err;
  674. u8 val;
  675. err = idt82p33_read(idt82p33, OUT_MUX_CNFG(outn), &val, sizeof(val));
  676. if (err)
  677. return err;
  678. if (enable)
  679. val &= ~SQUELCH_ENABLE;
  680. else
  681. val |= SQUELCH_ENABLE;
  682. return idt82p33_write(idt82p33, OUT_MUX_CNFG(outn), &val, sizeof(val));
  683. }
  684. static int idt82p33_perout_enable(struct idt82p33_channel *channel,
  685. bool enable,
  686. struct ptp_perout_request *perout)
  687. {
  688. /* Enable/disable individual output instead */
  689. return idt82p33_output_enable(channel, enable, perout->index);
  690. }
  691. static int idt82p33_enable_tod(struct idt82p33_channel *channel)
  692. {
  693. struct idt82p33 *idt82p33 = channel->idt82p33;
  694. struct timespec64 ts = {0, 0};
  695. int err;
  696. err = idt82p33_measure_tod_write_overhead(channel);
  697. if (err) {
  698. dev_err(idt82p33->dev,
  699. "Failed in %s with err %d!\n", __func__, err);
  700. return err;
  701. }
  702. err = _idt82p33_settime(channel, &ts);
  703. if (err)
  704. return err;
  705. return idt82p33_sync_tod(channel, true);
  706. }
  707. static void idt82p33_ptp_clock_unregister_all(struct idt82p33 *idt82p33)
  708. {
  709. struct idt82p33_channel *channel;
  710. u8 i;
  711. for (i = 0; i < MAX_PHC_PLL; i++) {
  712. channel = &idt82p33->channel[i];
  713. cancel_delayed_work_sync(&channel->adjtime_work);
  714. if (channel->ptp_clock)
  715. ptp_clock_unregister(channel->ptp_clock);
  716. }
  717. }
  718. static int idt82p33_enable(struct ptp_clock_info *ptp,
  719. struct ptp_clock_request *rq, int on)
  720. {
  721. struct idt82p33_channel *channel =
  722. container_of(ptp, struct idt82p33_channel, caps);
  723. struct idt82p33 *idt82p33 = channel->idt82p33;
  724. int err = -EOPNOTSUPP;
  725. mutex_lock(idt82p33->lock);
  726. switch (rq->type) {
  727. case PTP_CLK_REQ_PEROUT:
  728. if (!on)
  729. err = idt82p33_perout_enable(channel, false,
  730. &rq->perout);
  731. /* Only accept a 1-PPS aligned to the second. */
  732. else if (rq->perout.start.nsec || rq->perout.period.sec != 1 ||
  733. rq->perout.period.nsec)
  734. err = -ERANGE;
  735. else
  736. err = idt82p33_perout_enable(channel, true,
  737. &rq->perout);
  738. break;
  739. case PTP_CLK_REQ_EXTTS:
  740. err = idt82p33_extts_enable(channel, rq, on);
  741. break;
  742. default:
  743. break;
  744. }
  745. mutex_unlock(idt82p33->lock);
  746. if (err)
  747. dev_err(idt82p33->dev,
  748. "Failed in %s with err %d!\n", __func__, err);
  749. return err;
  750. }
  751. static s32 idt82p33_getmaxphase(__always_unused struct ptp_clock_info *ptp)
  752. {
  753. return WRITE_PHASE_OFFSET_LIMIT;
  754. }
  755. static int idt82p33_adjwritephase(struct ptp_clock_info *ptp, s32 offset_ns)
  756. {
  757. struct idt82p33_channel *channel =
  758. container_of(ptp, struct idt82p33_channel, caps);
  759. struct idt82p33 *idt82p33 = channel->idt82p33;
  760. s64 offset_regval;
  761. u8 val[4] = {0};
  762. int err;
  763. /* Convert from phaseoffset_fs to register value */
  764. offset_regval = div_s64((s64)(-offset_ns) * 1000000000ll,
  765. IDT_T0DPLL_PHASE_RESOL);
  766. val[0] = offset_regval & 0xFF;
  767. val[1] = (offset_regval >> 8) & 0xFF;
  768. val[2] = (offset_regval >> 16) & 0xFF;
  769. val[3] = (offset_regval >> 24) & 0x1F;
  770. val[3] |= PH_OFFSET_EN;
  771. mutex_lock(idt82p33->lock);
  772. err = idt82p33_dpll_set_mode(channel, PLL_MODE_WPH);
  773. if (err) {
  774. dev_err(idt82p33->dev,
  775. "Failed in %s with err %d!\n", __func__, err);
  776. goto out;
  777. }
  778. err = idt82p33_write(idt82p33, channel->dpll_phase_cnfg, val,
  779. sizeof(val));
  780. out:
  781. mutex_unlock(idt82p33->lock);
  782. return err;
  783. }
  784. static int idt82p33_adjfine(struct ptp_clock_info *ptp, long scaled_ppm)
  785. {
  786. struct idt82p33_channel *channel =
  787. container_of(ptp, struct idt82p33_channel, caps);
  788. struct idt82p33 *idt82p33 = channel->idt82p33;
  789. int err;
  790. if (channel->ddco == true)
  791. return 0;
  792. if (scaled_ppm == channel->current_freq)
  793. return 0;
  794. mutex_lock(idt82p33->lock);
  795. err = _idt82p33_adjfine(channel, scaled_ppm);
  796. if (err == 0)
  797. channel->current_freq = scaled_ppm;
  798. mutex_unlock(idt82p33->lock);
  799. if (err)
  800. dev_err(idt82p33->dev,
  801. "Failed in %s with err %d!\n", __func__, err);
  802. return err;
  803. }
  804. static int idt82p33_adjtime(struct ptp_clock_info *ptp, s64 delta_ns)
  805. {
  806. struct idt82p33_channel *channel =
  807. container_of(ptp, struct idt82p33_channel, caps);
  808. struct idt82p33 *idt82p33 = channel->idt82p33;
  809. int err;
  810. if (channel->ddco == true)
  811. return -EBUSY;
  812. mutex_lock(idt82p33->lock);
  813. if (abs(delta_ns) < phase_snap_threshold) {
  814. err = idt82p33_start_ddco(channel, delta_ns);
  815. mutex_unlock(idt82p33->lock);
  816. return err;
  817. }
  818. /* Use more accurate internal 1pps triggered write first */
  819. err = _idt82p33_adjtime_internal_triggered(channel, delta_ns);
  820. if (err && delta_ns > IMMEDIATE_SNAP_THRESHOLD_NS)
  821. err = _idt82p33_adjtime_immediate(channel, delta_ns);
  822. mutex_unlock(idt82p33->lock);
  823. if (err)
  824. dev_err(idt82p33->dev,
  825. "Failed in %s with err %d!\n", __func__, err);
  826. return err;
  827. }
  828. static int idt82p33_gettime(struct ptp_clock_info *ptp, struct timespec64 *ts)
  829. {
  830. struct idt82p33_channel *channel =
  831. container_of(ptp, struct idt82p33_channel, caps);
  832. struct idt82p33 *idt82p33 = channel->idt82p33;
  833. int err;
  834. mutex_lock(idt82p33->lock);
  835. err = _idt82p33_gettime(channel, ts);
  836. mutex_unlock(idt82p33->lock);
  837. if (err)
  838. dev_err(idt82p33->dev,
  839. "Failed in %s with err %d!\n", __func__, err);
  840. return err;
  841. }
  842. static int idt82p33_settime(struct ptp_clock_info *ptp,
  843. const struct timespec64 *ts)
  844. {
  845. struct idt82p33_channel *channel =
  846. container_of(ptp, struct idt82p33_channel, caps);
  847. struct idt82p33 *idt82p33 = channel->idt82p33;
  848. int err;
  849. mutex_lock(idt82p33->lock);
  850. err = _idt82p33_settime(channel, ts);
  851. mutex_unlock(idt82p33->lock);
  852. if (err)
  853. dev_err(idt82p33->dev,
  854. "Failed in %s with err %d!\n", __func__, err);
  855. return err;
  856. }
  857. static int idt82p33_channel_init(struct idt82p33 *idt82p33, u32 index)
  858. {
  859. struct idt82p33_channel *channel = &idt82p33->channel[index];
  860. switch (index) {
  861. case 0:
  862. channel->dpll_tod_cnfg = DPLL1_TOD_CNFG;
  863. channel->dpll_tod_trigger = DPLL1_TOD_TRIGGER;
  864. channel->dpll_tod_sts = DPLL1_TOD_STS;
  865. channel->dpll_mode_cnfg = DPLL1_OPERATING_MODE_CNFG;
  866. channel->dpll_freq_cnfg = DPLL1_HOLDOVER_FREQ_CNFG;
  867. channel->dpll_phase_cnfg = DPLL1_PHASE_OFFSET_CNFG;
  868. channel->dpll_sync_cnfg = DPLL1_SYNC_EDGE_CNFG;
  869. channel->dpll_input_mode_cnfg = DPLL1_INPUT_MODE_CNFG;
  870. break;
  871. case 1:
  872. channel->dpll_tod_cnfg = DPLL2_TOD_CNFG;
  873. channel->dpll_tod_trigger = DPLL2_TOD_TRIGGER;
  874. channel->dpll_tod_sts = DPLL2_TOD_STS;
  875. channel->dpll_mode_cnfg = DPLL2_OPERATING_MODE_CNFG;
  876. channel->dpll_freq_cnfg = DPLL2_HOLDOVER_FREQ_CNFG;
  877. channel->dpll_phase_cnfg = DPLL2_PHASE_OFFSET_CNFG;
  878. channel->dpll_sync_cnfg = DPLL2_SYNC_EDGE_CNFG;
  879. channel->dpll_input_mode_cnfg = DPLL2_INPUT_MODE_CNFG;
  880. break;
  881. default:
  882. return -EINVAL;
  883. }
  884. channel->plln = index;
  885. channel->current_freq = 0;
  886. channel->idt82p33 = idt82p33;
  887. INIT_DELAYED_WORK(&channel->adjtime_work, idt82p33_adjtime_workaround);
  888. return 0;
  889. }
  890. static int idt82p33_verify_pin(struct ptp_clock_info *ptp, unsigned int pin,
  891. enum ptp_pin_function func, unsigned int chan)
  892. {
  893. switch (func) {
  894. case PTP_PF_NONE:
  895. case PTP_PF_EXTTS:
  896. break;
  897. case PTP_PF_PEROUT:
  898. case PTP_PF_PHYSYNC:
  899. return -1;
  900. }
  901. return 0;
  902. }
  903. static void idt82p33_caps_init(u32 index, struct ptp_clock_info *caps,
  904. struct ptp_pin_desc *pin_cfg, u8 max_pins)
  905. {
  906. struct ptp_pin_desc *ppd;
  907. int i;
  908. caps->owner = THIS_MODULE;
  909. caps->max_adj = DCO_MAX_PPB;
  910. caps->n_per_out = MAX_PER_OUT;
  911. caps->n_ext_ts = MAX_PHC_PLL;
  912. caps->n_pins = max_pins;
  913. caps->adjphase = idt82p33_adjwritephase;
  914. caps->getmaxphase = idt82p33_getmaxphase;
  915. caps->adjfine = idt82p33_adjfine;
  916. caps->adjtime = idt82p33_adjtime;
  917. caps->gettime64 = idt82p33_gettime;
  918. caps->settime64 = idt82p33_settime;
  919. caps->enable = idt82p33_enable;
  920. caps->verify = idt82p33_verify_pin;
  921. caps->do_aux_work = idt82p33_work_handler;
  922. snprintf(caps->name, sizeof(caps->name), "IDT 82P33 PLL%u", index);
  923. caps->pin_config = pin_cfg;
  924. caps->supported_extts_flags = PTP_RISING_EDGE |
  925. PTP_STRICT_FLAGS;
  926. for (i = 0; i < max_pins; ++i) {
  927. ppd = &pin_cfg[i];
  928. ppd->index = i;
  929. ppd->func = PTP_PF_NONE;
  930. ppd->chan = index;
  931. snprintf(ppd->name, sizeof(ppd->name), "in%d", 12 + i);
  932. }
  933. }
  934. static int idt82p33_enable_channel(struct idt82p33 *idt82p33, u32 index)
  935. {
  936. struct idt82p33_channel *channel;
  937. int err;
  938. if (!(index < MAX_PHC_PLL))
  939. return -EINVAL;
  940. channel = &idt82p33->channel[index];
  941. err = idt82p33_channel_init(idt82p33, index);
  942. if (err) {
  943. dev_err(idt82p33->dev,
  944. "Channel_init failed in %s with err %d!\n",
  945. __func__, err);
  946. return err;
  947. }
  948. idt82p33_caps_init(index, &channel->caps,
  949. pin_config[index], MAX_TRIG_CLK);
  950. channel->ptp_clock = ptp_clock_register(&channel->caps, NULL);
  951. if (IS_ERR(channel->ptp_clock)) {
  952. err = PTR_ERR(channel->ptp_clock);
  953. channel->ptp_clock = NULL;
  954. return err;
  955. }
  956. if (!channel->ptp_clock)
  957. return -ENOTSUPP;
  958. err = idt82p33_dpll_set_mode(channel, PLL_MODE_DCO);
  959. if (err) {
  960. dev_err(idt82p33->dev,
  961. "Dpll_set_mode failed in %s with err %d!\n",
  962. __func__, err);
  963. return err;
  964. }
  965. err = idt82p33_enable_tod(channel);
  966. if (err) {
  967. dev_err(idt82p33->dev,
  968. "Enable_tod failed in %s with err %d!\n",
  969. __func__, err);
  970. return err;
  971. }
  972. dev_info(idt82p33->dev, "PLL%d registered as ptp%d\n",
  973. index, channel->ptp_clock->index);
  974. return 0;
  975. }
  976. static int idt82p33_reset(struct idt82p33 *idt82p33, bool cold)
  977. {
  978. int err;
  979. u8 cfg = SOFT_RESET_EN;
  980. if (cold == true)
  981. goto cold_reset;
  982. err = idt82p33_read(idt82p33, REG_SOFT_RESET, &cfg, sizeof(cfg));
  983. if (err) {
  984. dev_err(idt82p33->dev,
  985. "Soft reset failed with err %d!\n", err);
  986. return err;
  987. }
  988. cfg |= SOFT_RESET_EN;
  989. cold_reset:
  990. err = idt82p33_write(idt82p33, REG_SOFT_RESET, &cfg, sizeof(cfg));
  991. if (err)
  992. dev_err(idt82p33->dev,
  993. "Cold reset failed with err %d!\n", err);
  994. return err;
  995. }
  996. static int idt82p33_load_firmware(struct idt82p33 *idt82p33)
  997. {
  998. char fname[128] = FW_FILENAME;
  999. const struct firmware *fw;
  1000. struct idt82p33_fwrc *rec;
  1001. u8 loaddr, page, val;
  1002. int err;
  1003. s32 len;
  1004. if (firmware) /* module parameter */
  1005. snprintf(fname, sizeof(fname), "%s", firmware);
  1006. dev_info(idt82p33->dev, "requesting firmware '%s'\n", fname);
  1007. err = request_firmware(&fw, fname, idt82p33->dev);
  1008. if (err) {
  1009. dev_err(idt82p33->dev,
  1010. "Failed in %s with err %d!\n", __func__, err);
  1011. return err;
  1012. }
  1013. dev_dbg(idt82p33->dev, "firmware size %zu bytes\n", fw->size);
  1014. rec = (struct idt82p33_fwrc *) fw->data;
  1015. for (len = fw->size; len > 0; len -= sizeof(*rec)) {
  1016. if (rec->reserved) {
  1017. dev_err(idt82p33->dev,
  1018. "bad firmware, reserved field non-zero\n");
  1019. err = -EINVAL;
  1020. } else {
  1021. val = rec->value;
  1022. loaddr = rec->loaddr;
  1023. page = rec->hiaddr;
  1024. rec++;
  1025. err = idt82p33_check_and_set_masks(idt82p33, page,
  1026. loaddr, val);
  1027. }
  1028. if (err == 0) {
  1029. /* Page size 128, last 4 bytes of page skipped */
  1030. if (loaddr > 0x7b)
  1031. continue;
  1032. err = idt82p33_write(idt82p33, REG_ADDR(page, loaddr),
  1033. &val, sizeof(val));
  1034. }
  1035. if (err)
  1036. goto out;
  1037. }
  1038. idt82p33_display_masks(idt82p33);
  1039. out:
  1040. release_firmware(fw);
  1041. return err;
  1042. }
  1043. static void idt82p33_extts_check(struct work_struct *work)
  1044. {
  1045. struct idt82p33 *idt82p33 = container_of(work, struct idt82p33,
  1046. extts_work.work);
  1047. struct idt82p33_channel *channel;
  1048. int err;
  1049. u8 mask;
  1050. int i;
  1051. if (idt82p33->extts_mask == 0)
  1052. return;
  1053. mutex_lock(idt82p33->lock);
  1054. for (i = 0; i < MAX_PHC_PLL; i++) {
  1055. mask = 1 << i;
  1056. if ((idt82p33->extts_mask & mask) == 0)
  1057. continue;
  1058. err = idt82p33_extts_check_channel(idt82p33, i);
  1059. if (err == 0) {
  1060. /* trigger clears itself, so clear the mask */
  1061. if (idt82p33->extts_single_shot) {
  1062. idt82p33->extts_mask &= ~mask;
  1063. } else {
  1064. /* Re-arm */
  1065. channel = &idt82p33->channel[i];
  1066. arm_tod_read_with_trigger(channel, channel->tod_trigger);
  1067. }
  1068. }
  1069. }
  1070. if (idt82p33->extts_mask)
  1071. schedule_delayed_work(&idt82p33->extts_work,
  1072. msecs_to_jiffies(EXTTS_PERIOD_MS));
  1073. mutex_unlock(idt82p33->lock);
  1074. }
  1075. static int idt82p33_probe(struct platform_device *pdev)
  1076. {
  1077. struct rsmu_ddata *ddata = dev_get_drvdata(pdev->dev.parent);
  1078. struct idt82p33 *idt82p33;
  1079. int err;
  1080. u8 i;
  1081. idt82p33 = devm_kzalloc(&pdev->dev,
  1082. sizeof(struct idt82p33), GFP_KERNEL);
  1083. if (!idt82p33)
  1084. return -ENOMEM;
  1085. idt82p33->dev = &pdev->dev;
  1086. idt82p33->mfd = pdev->dev.parent;
  1087. idt82p33->lock = &ddata->lock;
  1088. idt82p33->regmap = ddata->regmap;
  1089. idt82p33->tod_write_overhead_ns = 0;
  1090. idt82p33->calculate_overhead_flag = 0;
  1091. idt82p33->pll_mask = DEFAULT_PLL_MASK;
  1092. idt82p33->channel[0].output_mask = DEFAULT_OUTPUT_MASK_PLL0;
  1093. idt82p33->channel[1].output_mask = DEFAULT_OUTPUT_MASK_PLL1;
  1094. idt82p33->extts_mask = 0;
  1095. INIT_DELAYED_WORK(&idt82p33->extts_work, idt82p33_extts_check);
  1096. mutex_lock(idt82p33->lock);
  1097. /* cold reset before loading firmware */
  1098. idt82p33_reset(idt82p33, true);
  1099. err = idt82p33_load_firmware(idt82p33);
  1100. if (err)
  1101. dev_warn(idt82p33->dev,
  1102. "loading firmware failed with %d\n", err);
  1103. /* soft reset after loading firmware */
  1104. idt82p33_reset(idt82p33, false);
  1105. if (idt82p33->pll_mask) {
  1106. for (i = 0; i < MAX_PHC_PLL; i++) {
  1107. if (idt82p33->pll_mask & (1 << i))
  1108. err = idt82p33_enable_channel(idt82p33, i);
  1109. else
  1110. err = idt82p33_channel_init(idt82p33, i);
  1111. if (err) {
  1112. dev_err(idt82p33->dev,
  1113. "Failed in %s with err %d!\n",
  1114. __func__, err);
  1115. break;
  1116. }
  1117. }
  1118. } else {
  1119. dev_err(idt82p33->dev,
  1120. "no PLLs flagged as PHCs, nothing to do\n");
  1121. err = -ENODEV;
  1122. }
  1123. mutex_unlock(idt82p33->lock);
  1124. if (err) {
  1125. idt82p33_ptp_clock_unregister_all(idt82p33);
  1126. return err;
  1127. }
  1128. platform_set_drvdata(pdev, idt82p33);
  1129. return 0;
  1130. }
  1131. static void idt82p33_remove(struct platform_device *pdev)
  1132. {
  1133. struct idt82p33 *idt82p33 = platform_get_drvdata(pdev);
  1134. cancel_delayed_work_sync(&idt82p33->extts_work);
  1135. idt82p33_ptp_clock_unregister_all(idt82p33);
  1136. }
  1137. static struct platform_driver idt82p33_driver = {
  1138. .driver = {
  1139. .name = "82p33x1x-phc",
  1140. },
  1141. .probe = idt82p33_probe,
  1142. .remove = idt82p33_remove,
  1143. };
  1144. module_platform_driver(idt82p33_driver);