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core.c

core.c 16 KB
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  1. /*
    2. 

  2.  * SuperH clock framework
    3. 

  3.  *
    4. 

  4.  *  Copyright (C) 2005 - 2010  Paul Mundt
    5. 

  5.  *
    6. 

  6.  * This clock framework is derived from the OMAP version by:
    7. 

  7.  *
    8. 

  8.  *	Copyright (C) 2004 - 2008 Nokia Corporation
    9. 

  9.  *	Written by Tuukka Tikkanen <tuukka.tikkanen@elektrobit.com>
    10. 

  10.  *
    11. 

  11.  *  Modified for omap shared clock framework by Tony Lindgren <tony@atomide.com>
    12. 

  12.  *
    13. 

  13.  * This file is subject to the terms and conditions of the GNU General Public
    14. 

  14.  * License.  See the file "COPYING" in the main directory of this archive
    15. 

  15.  * for more details.
    16. 

  16.  */
    17. 

  17. #define pr_fmt(fmt) "clock: " fmt
    18. 

  18. 

  19. #include <linux/kernel.h>
    20. 

  20. #include <linux/init.h>
    21. 

  21. #include <linux/module.h>
    22. 

  22. #include <linux/mutex.h>
    23. 

  23. #include <linux/list.h>
    24. 

  24. #include <linux/kobject.h>
    25. 

  25. #include <linux/sysdev.h>
    26. 

  26. #include <linux/seq_file.h>
    27. 

  27. #include <linux/err.h>
    28. 

  28. #include <linux/io.h>
    29. 

  29. #include <linux/debugfs.h>
    30. 

  30. #include <linux/cpufreq.h>
    31. 

  31. #include <linux/clk.h>
    32. 

  32. #include <linux/sh_clk.h>
    33. 

  33. 

  34. static LIST_HEAD(clock_list);
    35. 

  35. static DEFINE_SPINLOCK(clock_lock);
    36. 

  36. static DEFINE_MUTEX(clock_list_sem);
    37. 

  37. 

  38. void clk_rate_table_build(struct clk *clk,
    39. 

  39. 			  struct cpufreq_frequency_table *freq_table,
    40. 

  40. 			  int nr_freqs,
    41. 

  41. 			  struct clk_div_mult_table *src_table,
    42. 

  42. 			  unsigned long *bitmap)
    43. 

  43. {
    44. 

  44. 	unsigned long mult, div;
    45. 

  45. 	unsigned long freq;
    46. 

  46. 	int i;
    47. 

  47. 

  48. 	clk->nr_freqs = nr_freqs;
    49. 

  49. 

  50. 	for (i = 0; i < nr_freqs; i++) {
    51. 

  51. 		div = 1;
    52. 

  52. 		mult = 1;
    53. 

  53. 

  54. 		if (src_table->divisors && i < src_table->nr_divisors)
    55. 

  55. 			div = src_table->divisors[i];
    56. 

  56. 

  57. 		if (src_table->multipliers && i < src_table->nr_multipliers)
    58. 

  58. 			mult = src_table->multipliers[i];
    59. 

  59. 

  60. 		if (!div || !mult || (bitmap && !test_bit(i, bitmap)))
    61. 

  61. 			freq = CPUFREQ_ENTRY_INVALID;
    62. 

  62. 		else
    63. 

  63. 			freq = clk->parent->rate * mult / div;
    64. 

  64. 

  65. 		freq_table[i].index = i;
    66. 

  66. 		freq_table[i].frequency = freq;
    67. 

  67. 	}
    68. 

  68. 

  69. 	/* Termination entry */
    70. 

  70. 	freq_table[i].index = i;
    71. 

  71. 	freq_table[i].frequency = CPUFREQ_TABLE_END;
    72. 

  72. }
    73. 

  73. 

  74. struct clk_rate_round_data;
    75. 

  75. 

  76. struct clk_rate_round_data {
    77. 

  77. 	unsigned long rate;
    78. 

  78. 	unsigned int min, max;
    79. 

  79. 	long (*func)(unsigned int, struct clk_rate_round_data *);
    80. 

  80. 	void *arg;
    81. 

  81. };
    82. 

  82. 

  83. #define for_each_frequency(pos, r, freq)			\
    84. 

  84. 	for (pos = r->min, freq = r->func(pos, r);		\
    85. 

  85. 	     pos <= r->max; pos++, freq = r->func(pos, r))	\
    86. 

  86. 		if (unlikely(freq == 0))			\
    87. 

  87. 			;					\
    88. 

  88. 		else
    89. 

  89. 

  90. static long clk_rate_round_helper(struct clk_rate_round_data *rounder)
    91. 

  91. {
    92. 

  92. 	unsigned long rate_error, rate_error_prev = ~0UL;
    93. 

  93. 	unsigned long highest, lowest, freq;
    94. 

  94. 	long rate_best_fit = -ENOENT;
    95. 

  95. 	int i;
    96. 

  96. 

  97. 	highest = 0;
    98. 

  98. 	lowest = ~0UL;
    99. 

  99. 

  100. 	for_each_frequency(i, rounder, freq) {
    101. 

  101. 		if (freq > highest)
    102. 

  102. 			highest = freq;
    103. 

  103. 		if (freq < lowest)
    104. 

  104. 			lowest = freq;
    105. 

  105. 

  106. 		rate_error = abs(freq - rounder->rate);
    107. 

  107. 		if (rate_error < rate_error_prev) {
    108. 

  108. 			rate_best_fit = freq;
    109. 

  109. 			rate_error_prev = rate_error;
    110. 

  110. 		}
    111. 

  111. 

  112. 		if (rate_error == 0)
    113. 

  113. 			break;
    114. 

  114. 	}
    115. 

  115. 

  116. 	if (rounder->rate >= highest)
    117. 

  117. 		rate_best_fit = highest;
    118. 

  118. 	if (rounder->rate <= lowest)
    119. 

  119. 		rate_best_fit = lowest;
    120. 

  120. 

  121. 	return rate_best_fit;
    122. 

  122. }
    123. 

  123. 

  124. static long clk_rate_table_iter(unsigned int pos,
    125. 

  125. 				struct clk_rate_round_data *rounder)
    126. 

  126. {
    127. 

  127. 	struct cpufreq_frequency_table *freq_table = rounder->arg;
    128. 

  128. 	unsigned long freq = freq_table[pos].frequency;
    129. 

  129. 

  130. 	if (freq == CPUFREQ_ENTRY_INVALID)
    131. 

  131. 		freq = 0;
    132. 

  132. 

  133. 	return freq;
    134. 

  134. }
    135. 

  135. 

  136. long clk_rate_table_round(struct clk *clk,
    137. 

  137. 			  struct cpufreq_frequency_table *freq_table,
    138. 

  138. 			  unsigned long rate)
    139. 

  139. {
    140. 

  140. 	struct clk_rate_round_data table_round = {
    141. 

  141. 		.min	= 0,
    142. 

  142. 		.max	= clk->nr_freqs - 1,
    143. 

  143. 		.func	= clk_rate_table_iter,
    144. 

  144. 		.arg	= freq_table,
    145. 

  145. 		.rate	= rate,
    146. 

  146. 	};
    147. 

  147. 

  148. 	if (clk->nr_freqs < 1)
    149. 

  149. 		return -ENOSYS;
    150. 

  150. 

  151. 	return clk_rate_round_helper(&table_round);
    152. 

  152. }
    153. 

  153. 

  154. static long clk_rate_div_range_iter(unsigned int pos,
    155. 

  155. 				    struct clk_rate_round_data *rounder)
    156. 

  156. {
    157. 

  157. 	return clk_get_rate(rounder->arg) / pos;
    158. 

  158. }
    159. 

  159. 

  160. long clk_rate_div_range_round(struct clk *clk, unsigned int div_min,
    161. 

  161. 			      unsigned int div_max, unsigned long rate)
    162. 

  162. {
    163. 

  163. 	struct clk_rate_round_data div_range_round = {
    164. 

  164. 		.min	= div_min,
    165. 

  165. 		.max	= div_max,
    166. 

  166. 		.func	= clk_rate_div_range_iter,
    167. 

  167. 		.arg	= clk_get_parent(clk),
    168. 

  168. 		.rate	= rate,
    169. 

  169. 	};
    170. 

  170. 

  171. 	return clk_rate_round_helper(&div_range_round);
    172. 

  172. }
    173. 

  173. 

  174. int clk_rate_table_find(struct clk *clk,
    175. 

  175. 			struct cpufreq_frequency_table *freq_table,
    176. 

  176. 			unsigned long rate)
    177. 

  177. {
    178. 

  178. 	int i;
    179. 

  179. 

  180. 	for (i = 0; freq_table[i].frequency != CPUFREQ_TABLE_END; i++) {
    181. 

  181. 		unsigned long freq = freq_table[i].frequency;
    182. 

  182. 

  183. 		if (freq == CPUFREQ_ENTRY_INVALID)
    184. 

  184. 			continue;
    185. 

  185. 

  186. 		if (freq == rate)
    187. 

  187. 			return i;
    188. 

  188. 	}
    189. 

  189. 

  190. 	return -ENOENT;
    191. 

  191. }
    192. 

  192. 

  193. /* Used for clocks that always have same value as the parent clock */
    194. 

  194. unsigned long followparent_recalc(struct clk *clk)
    195. 

  195. {
    196. 

  196. 	return clk->parent ? clk->parent->rate : 0;
    197. 

  197. }
    198. 

  198. 

  199. int clk_reparent(struct clk *child, struct clk *parent)
    200. 

  200. {
    201. 

  201. 	list_del_init(&child->sibling);
    202. 

  202. 	if (parent)
    203. 

  203. 		list_add(&child->sibling, &parent->children);
    204. 

  204. 	child->parent = parent;
    205. 

  205. 

  206. 	/* now do the debugfs renaming to reattach the child
    207. 

  207. 	   to the proper parent */
    208. 

  208. 

  209. 	return 0;
    210. 

  210. }
    211. 

  211. 

  212. /* Propagate rate to children */
    213. 

  213. void propagate_rate(struct clk *tclk)
    214. 

  214. {
    215. 

  215. 	struct clk *clkp;
    216. 

  216. 

  217. 	list_for_each_entry(clkp, &tclk->children, sibling) {
    218. 

  218. 		if (clkp->ops && clkp->ops->recalc)
    219. 

  219. 			clkp->rate = clkp->ops->recalc(clkp);
    220. 

  220. 

  221. 		propagate_rate(clkp);
    222. 

  222. 	}
    223. 

  223. }
    224. 

  224. 

  225. static void __clk_disable(struct clk *clk)
    226. 

  226. {
    227. 

  227. 	if (WARN(!clk->usecount, "Trying to disable clock %p with 0 usecount\n",
    228. 

  228. 		 clk))
    229. 

  229. 		return;
    230. 

  230. 

  231. 	if (!(--clk->usecount)) {
    232. 

  232. 		if (likely(clk->ops && clk->ops->disable))
    233. 

  233. 			clk->ops->disable(clk);
    234. 

  234. 		if (likely(clk->parent))
    235. 

  235. 			__clk_disable(clk->parent);
    236. 

  236. 	}
    237. 

  237. }
    238. 

  238. 

  239. void clk_disable(struct clk *clk)
    240. 

  240. {
    241. 

  241. 	unsigned long flags;
    242. 

  242. 

  243. 	if (!clk)
    244. 

  244. 		return;
    245. 

  245. 

  246. 	spin_lock_irqsave(&clock_lock, flags);
    247. 

  247. 	__clk_disable(clk);
    248. 

  248. 	spin_unlock_irqrestore(&clock_lock, flags);
    249. 

  249. }
    250. 

  250. EXPORT_SYMBOL_GPL(clk_disable);
    251. 

  251. 

  252. static int __clk_enable(struct clk *clk)
    253. 

  253. {
    254. 

  254. 	int ret = 0;
    255. 

  255. 

  256. 	if (clk->usecount++ == 0) {
    257. 

  257. 		if (clk->parent) {
    258. 

  258. 			ret = __clk_enable(clk->parent);
    259. 

  259. 			if (unlikely(ret))
    260. 

  260. 				goto err;
    261. 

  261. 		}
    262. 

  262. 

  263. 		if (clk->ops && clk->ops->enable) {
    264. 

  264. 			ret = clk->ops->enable(clk);
    265. 

  265. 			if (ret) {
    266. 

  266. 				if (clk->parent)
    267. 

  267. 					__clk_disable(clk->parent);
    268. 

  268. 				goto err;
    269. 

  269. 			}
    270. 

  270. 		}
    271. 

  271. 	}
    272. 

  272. 

  273. 	return ret;
    274. 

  274. err:
    275. 

  275. 	clk->usecount--;
    276. 

  276. 	return ret;
    277. 

  277. }
    278. 

  278. 

  279. int clk_enable(struct clk *clk)
    280. 

  280. {
    281. 

  281. 	unsigned long flags;
    282. 

  282. 	int ret;
    283. 

  283. 

  284. 	if (!clk)
    285. 

  285. 		return -EINVAL;
    286. 

  286. 

  287. 	spin_lock_irqsave(&clock_lock, flags);
    288. 

  288. 	ret = __clk_enable(clk);
    289. 

  289. 	spin_unlock_irqrestore(&clock_lock, flags);
    290. 

  290. 

  291. 	return ret;
    292. 

  292. }
    293. 

  293. EXPORT_SYMBOL_GPL(clk_enable);
    294. 

  294. 

  295. static LIST_HEAD(root_clks);
    296. 

  296. 

  297. /**
    298. 

  298.  * recalculate_root_clocks - recalculate and propagate all root clocks
    299. 

  299.  *
    300. 

  300.  * Recalculates all root clocks (clocks with no parent), which if the
    301. 

  301.  * clock's .recalc is set correctly, should also propagate their rates.
    302. 

  302.  * Called at init.
    303. 

  303.  */
    304. 

  304. void recalculate_root_clocks(void)
    305. 

  305. {
    306. 

  306. 	struct clk *clkp;
    307. 

  307. 

  308. 	list_for_each_entry(clkp, &root_clks, sibling) {
    309. 

  309. 		if (clkp->ops && clkp->ops->recalc)
    310. 

  310. 			clkp->rate = clkp->ops->recalc(clkp);
    311. 

  311. 		propagate_rate(clkp);
    312. 

  312. 	}
    313. 

  313. }
    314. 

  314. 

  315. static struct clk_mapping dummy_mapping;
    316. 

  316. 

  317. static struct clk *lookup_root_clock(struct clk *clk)
    318. 

  318. {
    319. 

  319. 	while (clk->parent)
    320. 

  320. 		clk = clk->parent;
    321. 

  321. 

  322. 	return clk;
    323. 

  323. }
    324. 

  324. 

  325. static int clk_establish_mapping(struct clk *clk)
    326. 

  326. {
    327. 

  327. 	struct clk_mapping *mapping = clk->mapping;
    328. 

  328. 

  329. 	/*
    330. 

  330. 	 * Propagate mappings.
    331. 

  331. 	 */
    332. 

  332. 	if (!mapping) {
    333. 

  333. 		struct clk *clkp;
    334. 

  334. 

  335. 		/*
    336. 

  336. 		 * dummy mapping for root clocks with no specified ranges
    337. 

  337. 		 */
    338. 

  338. 		if (!clk->parent) {
    339. 

  339. 			clk->mapping = &dummy_mapping;
    340. 

  340. 			return 0;
    341. 

  341. 		}
    342. 

  342. 

  343. 		/*
    344. 

  344. 		 * If we're on a child clock and it provides no mapping of its
    345. 

  345. 		 * own, inherit the mapping from its root clock.
    346. 

  346. 		 */
    347. 

  347. 		clkp = lookup_root_clock(clk);
    348. 

  348. 		mapping = clkp->mapping;
    349. 

  349. 		BUG_ON(!mapping);
    350. 

  350. 	}
    351. 

  351. 

  352. 	/*
    353. 

  353. 	 * Establish initial mapping.
    354. 

  354. 	 */
    355. 

  355. 	if (!mapping->base && mapping->phys) {
    356. 

  356. 		kref_init(&mapping->ref);
    357. 

  357. 

  358. 		mapping->base = ioremap_nocache(mapping->phys, mapping->len);
    359. 

  359. 		if (unlikely(!mapping->base))
    360. 

  360. 			return -ENXIO;
    361. 

  361. 	} else if (mapping->base) {
    362. 

  362. 		/*
    363. 

  363. 		 * Bump the refcount for an existing mapping
    364. 

  364. 		 */
    365. 

  365. 		kref_get(&mapping->ref);
    366. 

  366. 	}
    367. 

  367. 

  368. 	clk->mapping = mapping;
    369. 

  369. 	return 0;
    370. 

  370. }
    371. 

  371. 

  372. static void clk_destroy_mapping(struct kref *kref)
    373. 

  373. {
    374. 

  374. 	struct clk_mapping *mapping;
    375. 

  375. 

  376. 	mapping = container_of(kref, struct clk_mapping, ref);
    377. 

  377. 

  378. 	iounmap(mapping->base);
    379. 

  379. }
    380. 

  380. 

  381. static void clk_teardown_mapping(struct clk *clk)
    382. 

  382. {
    383. 

  383. 	struct clk_mapping *mapping = clk->mapping;
    384. 

  384. 

  385. 	/* Nothing to do */
    386. 

  386. 	if (mapping == &dummy_mapping)
    387. 

  387. 		return;
    388. 

  388. 

  389. 	kref_put(&mapping->ref, clk_destroy_mapping);
    390. 

  390. 	clk->mapping = NULL;
    391. 

  391. }
    392. 

  392. 

  393. int clk_register(struct clk *clk)
    394. 

  394. {
    395. 

  395. 	int ret;
    396. 

  396. 

  397. 	if (clk == NULL || IS_ERR(clk))
    398. 

  398. 		return -EINVAL;
    399. 

  399. 

  400. 	/*
    401. 

  401. 	 * trap out already registered clocks
    402. 

  402. 	 */
    403. 

  403. 	if (clk->node.next || clk->node.prev)
    404. 

  404. 		return 0;
    405. 

  405. 

  406. 	mutex_lock(&clock_list_sem);
    407. 

  407. 

  408. 	INIT_LIST_HEAD(&clk->children);
    409. 

  409. 	clk->usecount = 0;
    410. 

  410. 

  411. 	ret = clk_establish_mapping(clk);
    412. 

  412. 	if (unlikely(ret))
    413. 

  413. 		goto out_unlock;
    414. 

  414. 

  415. 	if (clk->parent)
    416. 

  416. 		list_add(&clk->sibling, &clk->parent->children);
    417. 

  417. 	else
    418. 

  418. 		list_add(&clk->sibling, &root_clks);
    419. 

  419. 

  420. 	list_add(&clk->node, &clock_list);
    421. 

  421. 

  422. #ifdef CONFIG_SH_CLK_CPG_LEGACY
    423. 

  423. 	if (clk->ops && clk->ops->init)
    424. 

  424. 		clk->ops->init(clk);
    425. 

  425. #endif
    426. 

  426. 

  427. out_unlock:
    428. 

  428. 	mutex_unlock(&clock_list_sem);
    429. 

  429. 

  430. 	return ret;
    431. 

  431. }
    432. 

  432. EXPORT_SYMBOL_GPL(clk_register);
    433. 

  433. 

  434. void clk_unregister(struct clk *clk)
    435. 

  435. {
    436. 

  436. 	mutex_lock(&clock_list_sem);
    437. 

  437. 	list_del(&clk->sibling);
    438. 

  438. 	list_del(&clk->node);
    439. 

  439. 	clk_teardown_mapping(clk);
    440. 

  440. 	mutex_unlock(&clock_list_sem);
    441. 

  441. }
    442. 

  442. EXPORT_SYMBOL_GPL(clk_unregister);
    443. 

  443. 

  444. void clk_enable_init_clocks(void)
    445. 

  445. {
    446. 

  446. 	struct clk *clkp;
    447. 

  447. 

  448. 	list_for_each_entry(clkp, &clock_list, node)
    449. 

  449. 		if (clkp->flags & CLK_ENABLE_ON_INIT)
    450. 

  450. 			clk_enable(clkp);
    451. 

  451. }
    452. 

  452. 

  453. unsigned long clk_get_rate(struct clk *clk)
    454. 

  454. {
    455. 

  455. 	return clk->rate;
    456. 

  456. }
    457. 

  457. EXPORT_SYMBOL_GPL(clk_get_rate);
    458. 

  458. 

  459. int clk_set_rate(struct clk *clk, unsigned long rate)
    460. 

  460. {
    461. 

  461. 	int ret = -EOPNOTSUPP;
    462. 

  462. 	unsigned long flags;
    463. 

  463. 

  464. 	spin_lock_irqsave(&clock_lock, flags);
    465. 

  465. 

  466. 	if (likely(clk->ops && clk->ops->set_rate)) {
    467. 

  467. 		ret = clk->ops->set_rate(clk, rate);
    468. 

  468. 		if (ret != 0)
    469. 

  469. 			goto out_unlock;
    470. 

  470. 	} else {
    471. 

  471. 		clk->rate = rate;
    472. 

  472. 		ret = 0;
    473. 

  473. 	}
    474. 

  474. 

  475. 	if (clk->ops && clk->ops->recalc)
    476. 

  476. 		clk->rate = clk->ops->recalc(clk);
    477. 

  477. 

  478. 	propagate_rate(clk);
    479. 

  479. 

  480. out_unlock:
    481. 

  481. 	spin_unlock_irqrestore(&clock_lock, flags);
    482. 

  482. 

  483. 	return ret;
    484. 

  484. }
    485. 

  485. EXPORT_SYMBOL_GPL(clk_set_rate);
    486. 

  486. 

  487. int clk_set_parent(struct clk *clk, struct clk *parent)
    488. 

  488. {
    489. 

  489. 	unsigned long flags;
    490. 

  490. 	int ret = -EINVAL;
    491. 

  491. 

  492. 	if (!parent || !clk)
    493. 

  493. 		return ret;
    494. 

  494. 	if (clk->parent == parent)
    495. 

  495. 		return 0;
    496. 

  496. 

  497. 	spin_lock_irqsave(&clock_lock, flags);
    498. 

  498. 	if (clk->usecount == 0) {
    499. 

  499. 		if (clk->ops->set_parent)
    500. 

  500. 			ret = clk->ops->set_parent(clk, parent);
    501. 

  501. 		else
    502. 

  502. 			ret = clk_reparent(clk, parent);
    503. 

  503. 

  504. 		if (ret == 0) {
    505. 

  505. 			if (clk->ops->recalc)
    506. 

  506. 				clk->rate = clk->ops->recalc(clk);
    507. 

  507. 			pr_debug("set parent of %p to %p (new rate %ld)\n",
    508. 

  508. 				 clk, clk->parent, clk->rate);
    509. 

  509. 			propagate_rate(clk);
    510. 

  510. 		}
    511. 

  511. 	} else
    512. 

  512. 		ret = -EBUSY;
    513. 

  513. 	spin_unlock_irqrestore(&clock_lock, flags);
    514. 

  514. 

  515. 	return ret;
    516. 

  516. }
    517. 

  517. EXPORT_SYMBOL_GPL(clk_set_parent);
    518. 

  518. 

  519. struct clk *clk_get_parent(struct clk *clk)
    520. 

  520. {
    521. 

  521. 	return clk->parent;
    522. 

  522. }
    523. 

  523. EXPORT_SYMBOL_GPL(clk_get_parent);
    524. 

  524. 

  525. long clk_round_rate(struct clk *clk, unsigned long rate)
    526. 

  526. {
    527. 

  527. 	if (likely(clk->ops && clk->ops->round_rate)) {
    528. 

  528. 		unsigned long flags, rounded;
    529. 

  529. 

  530. 		spin_lock_irqsave(&clock_lock, flags);
    531. 

  531. 		rounded = clk->ops->round_rate(clk, rate);
    532. 

  532. 		spin_unlock_irqrestore(&clock_lock, flags);
    533. 

  533. 

  534. 		return rounded;
    535. 

  535. 	}
    536. 

  536. 

  537. 	return clk_get_rate(clk);
    538. 

  538. }
    539. 

  539. EXPORT_SYMBOL_GPL(clk_round_rate);
    540. 

  540. 

  541. long clk_round_parent(struct clk *clk, unsigned long target,
    542. 

  542. 		      unsigned long *best_freq, unsigned long *parent_freq,
    543. 

  543. 		      unsigned int div_min, unsigned int div_max)
    544. 

  544. {
    545. 

  545. 	struct cpufreq_frequency_table *freq, *best = NULL;
    546. 

  546. 	unsigned long error = ULONG_MAX, freq_high, freq_low, div;
    547. 

  547. 	struct clk *parent = clk_get_parent(clk);
    548. 

  548. 

  549. 	if (!parent) {
    550. 

  550. 		*parent_freq = 0;
    551. 

  551. 		*best_freq = clk_round_rate(clk, target);
    552. 

  552. 		return abs(target - *best_freq);
    553. 

  553. 	}
    554. 

  554. 

  555. 	for (freq = parent->freq_table; freq->frequency != CPUFREQ_TABLE_END;
    556. 

  556. 	     freq++) {
    557. 

  557. 		if (freq->frequency == CPUFREQ_ENTRY_INVALID)
    558. 

  558. 			continue;
    559. 

  559. 

  560. 		if (unlikely(freq->frequency / target <= div_min - 1)) {
    561. 

  561. 			unsigned long freq_max;
    562. 

  562. 

  563. 			freq_max = (freq->frequency + div_min / 2) / div_min;
    564. 

  564. 			if (error > target - freq_max) {
    565. 

  565. 				error = target - freq_max;
    566. 

  566. 				best = freq;
    567. 

  567. 				if (best_freq)
    568. 

  568. 					*best_freq = freq_max;
    569. 

  569. 			}
    570. 

  570. 

  571. 			pr_debug("too low freq %u, error %lu\n", freq->frequency,
    572. 

  572. 				 target - freq_max);
    573. 

  573. 

  574. 			if (!error)
    575. 

  575. 				break;
    576. 

  576. 

  577. 			continue;
    578. 

  578. 		}
    579. 

  579. 

  580. 		if (unlikely(freq->frequency / target >= div_max)) {
    581. 

  581. 			unsigned long freq_min;
    582. 

  582. 

  583. 			freq_min = (freq->frequency + div_max / 2) / div_max;
    584. 

  584. 			if (error > freq_min - target) {
    585. 

  585. 				error = freq_min - target;
    586. 

  586. 				best = freq;
    587. 

  587. 				if (best_freq)
    588. 

  588. 					*best_freq = freq_min;
    589. 

  589. 			}
    590. 

  590. 

  591. 			pr_debug("too high freq %u, error %lu\n", freq->frequency,
    592. 

  592. 				 freq_min - target);
    593. 

  593. 

  594. 			if (!error)
    595. 

  595. 				break;
    596. 

  596. 

  597. 			continue;
    598. 

  598. 		}
    599. 

  599. 

  600. 		div = freq->frequency / target;
    601. 

  601. 		freq_high = freq->frequency / div;
    602. 

  602. 		freq_low = freq->frequency / (div + 1);
    603. 

  603. 

  604. 		if (freq_high - target < error) {
    605. 

  605. 			error = freq_high - target;
    606. 

  606. 			best = freq;
    607. 

  607. 			if (best_freq)
    608. 

  608. 				*best_freq = freq_high;
    609. 

  609. 		}
    610. 

  610. 

  611. 		if (target - freq_low < error) {
    612. 

  612. 			error = target - freq_low;
    613. 

  613. 			best = freq;
    614. 

  614. 			if (best_freq)
    615. 

  615. 				*best_freq = freq_low;
    616. 

  616. 		}
    617. 

  617. 

  618. 		pr_debug("%u / %lu = %lu, / %lu = %lu, best %lu, parent %u\n",
    619. 

  619. 			 freq->frequency, div, freq_high, div + 1, freq_low,
    620. 

  620. 			 *best_freq, best->frequency);
    621. 

  621. 

  622. 		if (!error)
    623. 

  623. 			break;
    624. 

  624. 	}
    625. 

  625. 

  626. 	if (parent_freq)
    627. 

  627. 		*parent_freq = best->frequency;
    628. 

  628. 

  629. 	return error;
    630. 

  630. }
    631. 

  631. EXPORT_SYMBOL_GPL(clk_round_parent);
    632. 

  632. 

  633. #ifdef CONFIG_PM
    634. 

  634. static int clks_sysdev_suspend(struct sys_device *dev, pm_message_t state)
    635. 

  635. {
    636. 

  636. 	static pm_message_t prev_state;
    637. 

  637. 	struct clk *clkp;
    638. 

  638. 

  639. 	switch (state.event) {
    640. 

  640. 	case PM_EVENT_ON:
    641. 

  641. 		/* Resumeing from hibernation */
    642. 

  642. 		if (prev_state.event != PM_EVENT_FREEZE)
    643. 

  643. 			break;
    644. 

  644. 

  645. 		list_for_each_entry(clkp, &clock_list, node) {
    646. 

  646. 			if (likely(clkp->ops)) {
    647. 

  647. 				unsigned long rate = clkp->rate;
    648. 

  648. 

  649. 				if (likely(clkp->ops->set_parent))
    650. 

  650. 					clkp->ops->set_parent(clkp,
    651. 

  651. 						clkp->parent);
    652. 

  652. 				if (likely(clkp->ops->set_rate))
    653. 

  653. 					clkp->ops->set_rate(clkp, rate);
    654. 

  654. 				else if (likely(clkp->ops->recalc))
    655. 

  655. 					clkp->rate = clkp->ops->recalc(clkp);
    656. 

  656. 			}
    657. 

  657. 		}
    658. 

  658. 		break;
    659. 

  659. 	case PM_EVENT_FREEZE:
    660. 

  660. 		break;
    661. 

  661. 	case PM_EVENT_SUSPEND:
    662. 

  662. 		break;
    663. 

  663. 	}
    664. 

  664. 

  665. 	prev_state = state;
    666. 

  666. 	return 0;
    667. 

  667. }
    668. 

  668. 

  669. static int clks_sysdev_resume(struct sys_device *dev)
    670. 

  670. {
    671. 

  671. 	return clks_sysdev_suspend(dev, PMSG_ON);
    672. 

  672. }
    673. 

  673. 

  674. static struct sysdev_class clks_sysdev_class = {
    675. 

  675. 	.name = "clks",
    676. 

  676. };
    677. 

  677. 

  678. static struct sysdev_driver clks_sysdev_driver = {
    679. 

  679. 	.suspend = clks_sysdev_suspend,
    680. 

  680. 	.resume = clks_sysdev_resume,
    681. 

  681. };
    682. 

  682. 

  683. static struct sys_device clks_sysdev_dev = {
    684. 

  684. 	.cls = &clks_sysdev_class,
    685. 

  685. };
    686. 

  686. 

  687. static int __init clk_sysdev_init(void)
    688. 

  688. {
    689. 

  689. 	sysdev_class_register(&clks_sysdev_class);
    690. 

  690. 	sysdev_driver_register(&clks_sysdev_class, &clks_sysdev_driver);
    691. 

  691. 	sysdev_register(&clks_sysdev_dev);
    692. 

  692. 

  693. 	return 0;
    694. 

  694. }
    695. 

  695. subsys_initcall(clk_sysdev_init);
    696. 

  696. #endif
    697. 

  697. 

  698. /*
    699. 

  699.  *	debugfs support to trace clock tree hierarchy and attributes
    700. 

  700.  */
    701. 

  701. static struct dentry *clk_debugfs_root;
    702. 

  702. 

  703. static int clk_debugfs_register_one(struct clk *c)
    704. 

  704. {
    705. 

  705. 	int err;
    706. 

  706. 	struct dentry *d, *child, *child_tmp;
    707. 

  707. 	struct clk *pa = c->parent;
    708. 

  708. 	char s[255];
    709. 

  709. 	char *p = s;
    710. 

  710. 

  711. 	p += sprintf(p, "%p", c);
    712. 

  712. 	d = debugfs_create_dir(s, pa ? pa->dentry : clk_debugfs_root);
    713. 

  713. 	if (!d)
    714. 

  714. 		return -ENOMEM;
    715. 

  715. 	c->dentry = d;
    716. 

  716. 

  717. 	d = debugfs_create_u8("usecount", S_IRUGO, c->dentry, (u8 *)&c->usecount);
    718. 

  718. 	if (!d) {
    719. 

  719. 		err = -ENOMEM;
    720. 

  720. 		goto err_out;
    721. 

  721. 	}
    722. 

  722. 	d = debugfs_create_u32("rate", S_IRUGO, c->dentry, (u32 *)&c->rate);
    723. 

  723. 	if (!d) {
    724. 

  724. 		err = -ENOMEM;
    725. 

  725. 		goto err_out;
    726. 

  726. 	}
    727. 

  727. 	d = debugfs_create_x32("flags", S_IRUGO, c->dentry, (u32 *)&c->flags);
    728. 

  728. 	if (!d) {
    729. 

  729. 		err = -ENOMEM;
    730. 

  730. 		goto err_out;
    731. 

  731. 	}
    732. 

  732. 	return 0;
    733. 

  733. 

  734. err_out:
    735. 

  735. 	d = c->dentry;
    736. 

  736. 	list_for_each_entry_safe(child, child_tmp, &d->d_subdirs, d_u.d_child)
    737. 

  737. 		debugfs_remove(child);
    738. 

  738. 	debugfs_remove(c->dentry);
    739. 

  739. 	return err;
    740. 

  740. }
    741. 

  741. 

  742. static int clk_debugfs_register(struct clk *c)
    743. 

  743. {
    744. 

  744. 	int err;
    745. 

  745. 	struct clk *pa = c->parent;
    746. 

  746. 

  747. 	if (pa && !pa->dentry) {
    748. 

  748. 		err = clk_debugfs_register(pa);
    749. 

  749. 		if (err)
    750. 

  750. 			return err;
    751. 

  751. 	}
    752. 

  752. 

  753. 	if (!c->dentry) {
    754. 

  754. 		err = clk_debugfs_register_one(c);
    755. 

  755. 		if (err)
    756. 

  756. 			return err;
    757. 

  757. 	}
    758. 

  758. 	return 0;
    759. 

  759. }
    760. 

  760. 

  761. static int __init clk_debugfs_init(void)
    762. 

  762. {
    763. 

  763. 	struct clk *c;
    764. 

  764. 	struct dentry *d;
    765. 

  765. 	int err;
    766. 

  766. 

  767. 	d = debugfs_create_dir("clock", NULL);
    768. 

  768. 	if (!d)
    769. 

  769. 		return -ENOMEM;
    770. 

  770. 	clk_debugfs_root = d;
    771. 

  771. 

  772. 	list_for_each_entry(c, &clock_list, node) {
    773. 

  773. 		err = clk_debugfs_register(c);
    774. 

  774. 		if (err)
    775. 

  775. 			goto err_out;
    776. 

  776. 	}
    777. 

  777. 	return 0;
    778. 

  778. err_out:
    779. 

  779. 	debugfs_remove_recursive(clk_debugfs_root);
    780. 

  780. 	return err;
    781. 

  781. }
    782. 

  782. late_initcall(clk_debugfs_init);
    783.