1
// SPDX-License-Identifier: GPL-2.0
2
/*
3
 * Alchemy clocks.
4
 *
5
 * Exposes all configurable internal clock sources to the clk framework.
6
 *
7
 * We have:
8
 *  - Root source, usually 12MHz supplied by an external crystal
9
 *  - 3 PLLs which generate multiples of root rate [AUX, CPU, AUX2]
10
 *
11
 * Dividers:
12
 *  - 6 clock dividers with:
13
 *   * selectable source [one of the PLLs],
14
 *   * output divided between [2 .. 512 in steps of 2] (!Au1300)
15
 *     or [1 .. 256 in steps of 1] (Au1300),
16
 *   * can be enabled individually.
17
 *
18
 * - up to 6 "internal" (fixed) consumers which:
19
 *   * take either AUXPLL or one of the above 6 dividers as input,
20
 *   * divide this input by 1, 2, or 4 (and 3 on Au1300).
21
 *   * can be disabled separately.
22
 *
23
 * Misc clocks:
24
 * - sysbus clock: CPU core clock (CPUPLL) divided by 2, 3 or 4.
25
 *    depends on board design and should be set by bootloader, read-only.
26
 * - peripheral clock: half the rate of sysbus clock, source for a lot
27
 *    of peripheral blocks, read-only.
28
 * - memory clock: clk rate to main memory chips, depends on board
29
 *    design and is read-only,
30
 * - lrclk: the static bus clock signal for synchronous operation.
31
 *    depends on board design, must be set by bootloader,
32
 *    but may be required to correctly configure devices attached to
33
 *    the static bus. The Au1000/1500/1100 manuals call it LCLK, on
34
 *    later models it's called RCLK.
35
 */
36

37
#include <linux/init.h>
38
#include <linux/io.h>
39
#include <linux/clk.h>
40
#include <linux/clk-provider.h>
41
#include <linux/clkdev.h>
42
#include <linux/slab.h>
43
#include <linux/spinlock.h>
44
#include <linux/types.h>
45
#include <asm/mach-au1x00/au1000.h>
46

47
/* Base clock: 12MHz is the default in all databooks, and I haven't
48
 * found any board yet which uses a different rate.
49
 */
50
#define ALCHEMY_ROOTCLK_RATE	12000000
51

52
/*
53
 * the internal sources which can be driven by the PLLs and dividers.
54
 * Names taken from the databooks, refer to them for more information,
55
 * especially which ones are share a clock line.
56
 */
57
static const char * const alchemy_au1300_intclknames[] = {
58
	"lcd_intclk", "gpemgp_clk", "maempe_clk", "maebsa_clk",
59
	"EXTCLK0", "EXTCLK1"
60
};
61

62
static const char * const alchemy_au1200_intclknames[] = {
63
	"lcd_intclk", NULL, NULL, NULL, "EXTCLK0", "EXTCLK1"
64
};
65

66
static const char * const alchemy_au1550_intclknames[] = {
67
	"usb_clk", "psc0_intclk", "psc1_intclk", "pci_clko",
68
	"EXTCLK0", "EXTCLK1"
69
};
70

71
static const char * const alchemy_au1100_intclknames[] = {
72
	"usb_clk", "lcd_intclk", NULL, "i2s_clk", "EXTCLK0", "EXTCLK1"
73
};
74

75
static const char * const alchemy_au1500_intclknames[] = {
76
	NULL, "usbd_clk", "usbh_clk", "pci_clko", "EXTCLK0", "EXTCLK1"
77
};
78

79
static const char * const alchemy_au1000_intclknames[] = {
80
	"irda_clk", "usbd_clk", "usbh_clk", "i2s_clk", "EXTCLK0",
81
	"EXTCLK1"
82
};
83

84
/* aliases for a few on-chip sources which are either shared
85
 * or have gone through name changes.
86
 */
87
static struct clk_aliastable {
88
	char *alias;
89
	char *base;
90
	int cputype;
91
} alchemy_clk_aliases[] __initdata = {
92
	{ "usbh_clk", "usb_clk",    ALCHEMY_CPU_AU1100 },
93
	{ "usbd_clk", "usb_clk",    ALCHEMY_CPU_AU1100 },
94
	{ "irda_clk", "usb_clk",    ALCHEMY_CPU_AU1100 },
95
	{ "usbh_clk", "usb_clk",    ALCHEMY_CPU_AU1550 },
96
	{ "usbd_clk", "usb_clk",    ALCHEMY_CPU_AU1550 },
97
	{ "psc2_intclk", "usb_clk", ALCHEMY_CPU_AU1550 },
98
	{ "psc3_intclk", "EXTCLK0", ALCHEMY_CPU_AU1550 },
99
	{ "psc0_intclk", "EXTCLK0", ALCHEMY_CPU_AU1200 },
100
	{ "psc1_intclk", "EXTCLK1", ALCHEMY_CPU_AU1200 },
101
	{ "psc0_intclk", "EXTCLK0", ALCHEMY_CPU_AU1300 },
102
	{ "psc2_intclk", "EXTCLK0", ALCHEMY_CPU_AU1300 },
103
	{ "psc1_intclk", "EXTCLK1", ALCHEMY_CPU_AU1300 },
104
	{ "psc3_intclk", "EXTCLK1", ALCHEMY_CPU_AU1300 },
105

106
	{ NULL, NULL, 0 },
107
};
108

109
#define IOMEM(x)	((void __iomem *)(KSEG1ADDR(CPHYSADDR(x))))
110

111
/* access locks to SYS_FREQCTRL0/1 and SYS_CLKSRC registers */
112
static spinlock_t alchemy_clk_fg0_lock;
113
static spinlock_t alchemy_clk_fg1_lock;
114
static DEFINE_SPINLOCK(alchemy_clk_csrc_lock);
115

116
/* CPU Core clock *****************************************************/
117

118
static unsigned long alchemy_clk_cpu_recalc(struct clk_hw *hw,
119
					    unsigned long parent_rate)
120
{
121
	unsigned long t;
122

123
	/*
124
	 * On early Au1000, sys_cpupll was write-only. Since these
125
	 * silicon versions of Au1000 are not sold, we don't bend
126
	 * over backwards trying to determine the frequency.
127
	 */
128
	if (unlikely(au1xxx_cpu_has_pll_wo()))
129
		t = 396000000;
130
	else {
131
		t = alchemy_rdsys(AU1000_SYS_CPUPLL) & 0x7f;
132
		if (alchemy_get_cputype() < ALCHEMY_CPU_AU1300)
133
			t &= 0x3f;
134
		t *= parent_rate;
135
	}
136

137
	return t;
138
}
139

140
void __init alchemy_set_lpj(void)
141
{
142
	preset_lpj = alchemy_clk_cpu_recalc(NULL, ALCHEMY_ROOTCLK_RATE);
143
	preset_lpj /= 2 * HZ;
144
}
145

146
static const struct clk_ops alchemy_clkops_cpu = {
147
	.recalc_rate	= alchemy_clk_cpu_recalc,
148
};
149

150
static struct clk __init *alchemy_clk_setup_cpu(const char *parent_name,
151
						int ctype)
152
{
153
	struct clk_init_data id;
154
	struct clk_hw *h;
155
	struct clk *clk;
156

157
	h = kzalloc(sizeof(*h), GFP_KERNEL);
158
	if (!h)
159
		return ERR_PTR(-ENOMEM);
160

161
	id.name = ALCHEMY_CPU_CLK;
162
	id.parent_names = &parent_name;
163
	id.num_parents = 1;
164
	id.flags = 0;
165
	id.ops = &alchemy_clkops_cpu;
166
	h->init = &id;
167

168
	clk = clk_register(NULL, h);
169
	if (IS_ERR(clk)) {
170
		pr_err("failed to register clock\n");
171
		kfree(h);
172
	}
173

174
	return clk;
175
}
176

177
/* AUXPLLs ************************************************************/
178

179
struct alchemy_auxpll_clk {
180
	struct clk_hw hw;
181
	unsigned long reg;	/* au1300 has also AUXPLL2 */
182
	int maxmult;		/* max multiplier */
183
};
184
#define to_auxpll_clk(x) container_of(x, struct alchemy_auxpll_clk, hw)
185

186
static unsigned long alchemy_clk_aux_recalc(struct clk_hw *hw,
187
					    unsigned long parent_rate)
188
{
189
	struct alchemy_auxpll_clk *a = to_auxpll_clk(hw);
190

191
	return (alchemy_rdsys(a->reg) & 0xff) * parent_rate;
192
}
193

194
static int alchemy_clk_aux_setr(struct clk_hw *hw,
195
				unsigned long rate,
196
				unsigned long parent_rate)
197
{
198
	struct alchemy_auxpll_clk *a = to_auxpll_clk(hw);
199
	unsigned long d = rate;
200

201
	if (rate)
202
		d /= parent_rate;
203
	else
204
		d = 0;
205

206
	/* minimum is 84MHz, max is 756-1032 depending on variant */
207
	if (((d < 7) && (d != 0)) || (d > a->maxmult))
208
		return -EINVAL;
209

210
	alchemy_wrsys(d, a->reg);
211
	return 0;
212
}
213

214
static long alchemy_clk_aux_roundr(struct clk_hw *hw,
215
					    unsigned long rate,
216
					    unsigned long *parent_rate)
217
{
218
	struct alchemy_auxpll_clk *a = to_auxpll_clk(hw);
219
	unsigned long mult;
220

221
	if (!rate || !*parent_rate)
222
		return 0;
223

224
	mult = rate / (*parent_rate);
225

226
	if (mult && (mult < 7))
227
		mult = 7;
228
	if (mult > a->maxmult)
229
		mult = a->maxmult;
230

231
	return (*parent_rate) * mult;
232
}
233

234
static const struct clk_ops alchemy_clkops_aux = {
235
	.recalc_rate	= alchemy_clk_aux_recalc,
236
	.set_rate	= alchemy_clk_aux_setr,
237
	.round_rate	= alchemy_clk_aux_roundr,
238
};
239

240
static struct clk __init *alchemy_clk_setup_aux(const char *parent_name,
241
						char *name, int maxmult,
242
						unsigned long reg)
243
{
244
	struct clk_init_data id;
245
	struct clk *c;
246
	struct alchemy_auxpll_clk *a;
247

248
	a = kzalloc(sizeof(*a), GFP_KERNEL);
249
	if (!a)
250
		return ERR_PTR(-ENOMEM);
251

252
	id.name = name;
253
	id.parent_names = &parent_name;
254
	id.num_parents = 1;
255
	id.flags = CLK_GET_RATE_NOCACHE;
256
	id.ops = &alchemy_clkops_aux;
257

258
	a->reg = reg;
259
	a->maxmult = maxmult;
260
	a->hw.init = &id;
261

262
	c = clk_register(NULL, &a->hw);
263
	if (!IS_ERR(c))
264
		clk_register_clkdev(c, name, NULL);
265
	else
266
		kfree(a);
267

268
	return c;
269
}
270

271
/* sysbus_clk *********************************************************/
272

273
static struct clk __init  *alchemy_clk_setup_sysbus(const char *pn)
274
{
275
	unsigned long v = (alchemy_rdsys(AU1000_SYS_POWERCTRL) & 3) + 2;
276
	struct clk *c;
277

278
	c = clk_register_fixed_factor(NULL, ALCHEMY_SYSBUS_CLK,
279
				      pn, 0, 1, v);
280
	if (!IS_ERR(c))
281
		clk_register_clkdev(c, ALCHEMY_SYSBUS_CLK, NULL);
282
	return c;
283
}
284

285
/* Peripheral Clock ***************************************************/
286

287
static struct clk __init *alchemy_clk_setup_periph(const char *pn)
288
{
289
	/* Peripheral clock runs at half the rate of sysbus clk */
290
	struct clk *c;
291

292
	c = clk_register_fixed_factor(NULL, ALCHEMY_PERIPH_CLK,
293
				      pn, 0, 1, 2);
294
	if (!IS_ERR(c))
295
		clk_register_clkdev(c, ALCHEMY_PERIPH_CLK, NULL);
296
	return c;
297
}
298

299
/* mem clock **********************************************************/
300

301
static struct clk __init *alchemy_clk_setup_mem(const char *pn, int ct)
302
{
303
	void __iomem *addr = IOMEM(AU1000_MEM_PHYS_ADDR);
304
	unsigned long v;
305
	struct clk *c;
306
	int div;
307

308
	switch (ct) {
309
	case ALCHEMY_CPU_AU1550:
310
	case ALCHEMY_CPU_AU1200:
311
		v = __raw_readl(addr + AU1550_MEM_SDCONFIGB);
312
		div = (v & (1 << 15)) ? 1 : 2;
313
		break;
314
	case ALCHEMY_CPU_AU1300:
315
		v = __raw_readl(addr + AU1550_MEM_SDCONFIGB);
316
		div = (v & (1 << 31)) ? 1 : 2;
317
		break;
318
	case ALCHEMY_CPU_AU1000:
319
	case ALCHEMY_CPU_AU1500:
320
	case ALCHEMY_CPU_AU1100:
321
	default:
322
		div = 2;
323
		break;
324
	}
325

326
	c = clk_register_fixed_factor(NULL, ALCHEMY_MEM_CLK, pn,
327
				      0, 1, div);
328
	if (!IS_ERR(c))
329
		clk_register_clkdev(c, ALCHEMY_MEM_CLK, NULL);
330
	return c;
331
}
332

333
/* lrclk: external synchronous static bus clock ***********************/
334

335
static struct clk __init *alchemy_clk_setup_lrclk(const char *pn, int t)
336
{
337
	/* Au1000, Au1500: MEM_STCFG0[11]: If bit is set, lrclk=pclk/5,
338
	 * otherwise lrclk=pclk/4.
339
	 * All other variants: MEM_STCFG0[15:13] = divisor.
340
	 * L/RCLK = periph_clk / (divisor + 1)
341
	 * On Au1000, Au1500, Au1100 it's called LCLK,
342
	 * on later models it's called RCLK, but it's the same thing.
343
	 */
344
	struct clk *c;
345
	unsigned long v = alchemy_rdsmem(AU1000_MEM_STCFG0);
346

347
	switch (t) {
348
	case ALCHEMY_CPU_AU1000:
349
	case ALCHEMY_CPU_AU1500:
350
		v = 4 + ((v >> 11) & 1);
351
		break;
352
	default:	/* all other models */
353
		v = ((v >> 13) & 7) + 1;
354
	}
355
	c = clk_register_fixed_factor(NULL, ALCHEMY_LR_CLK,
356
				      pn, 0, 1, v);
357
	if (!IS_ERR(c))
358
		clk_register_clkdev(c, ALCHEMY_LR_CLK, NULL);
359
	return c;
360
}
361

362
/* Clock dividers and muxes *******************************************/
363

364
/* data for fgen and csrc mux-dividers */
365
struct alchemy_fgcs_clk {
366
	struct clk_hw hw;
367
	spinlock_t *reglock;	/* register lock		  */
368
	unsigned long reg;	/* SYS_FREQCTRL0/1		  */
369
	int shift;		/* offset in register		  */
370
	int parent;		/* parent before disable [Au1300] */
371
	int isen;		/* is it enabled?		  */
372
	int *dt;		/* dividertable for csrc	  */
373
};
374
#define to_fgcs_clk(x) container_of(x, struct alchemy_fgcs_clk, hw)
375

376
static long alchemy_calc_div(unsigned long rate, unsigned long prate,
377
			       int scale, int maxdiv, unsigned long *rv)
378
{
379
	long div1, div2;
380

381
	div1 = prate / rate;
382
	if ((prate / div1) > rate)
383
		div1++;
384

385
	if (scale == 2) {	/* only div-by-multiple-of-2 possible */
386
		if (div1 & 1)
387
			div1++;	/* stay <=prate */
388
	}
389

390
	div2 = (div1 / scale) - 1;	/* value to write to register */
391

392
	if (div2 > maxdiv)
393
		div2 = maxdiv;
394
	if (rv)
395
		*rv = div2;
396

397
	div1 = ((div2 + 1) * scale);
398
	return div1;
399
}
400

401
static int alchemy_clk_fgcs_detr(struct clk_hw *hw,
402
				 struct clk_rate_request *req,
403
				 int scale, int maxdiv)
404
{
405
	struct clk_hw *pc, *bpc, *free;
406
	long tdv, tpr, pr, nr, br, bpr, diff, lastdiff;
407
	int j;
408

409
	lastdiff = INT_MAX;
410
	bpr = 0;
411
	bpc = NULL;
412
	br = -EINVAL;
413
	free = NULL;
414

415
	/* look at the rates each enabled parent supplies and select
416
	 * the one that gets closest to but not over the requested rate.
417
	 */
418
	for (j = 0; j < 7; j++) {
419
		pc = clk_hw_get_parent_by_index(hw, j);
420
		if (!pc)
421
			break;
422

423
		/* if this parent is currently unused, remember it.
424
		 * XXX: we would actually want clk_has_active_children()
425
		 * but this is a good-enough approximation for now.
426
		 */
427
		if (!clk_hw_is_prepared(pc)) {
428
			if (!free)
429
				free = pc;
430
		}
431

432
		pr = clk_hw_get_rate(pc);
433
		if (pr < req->rate)
434
			continue;
435

436
		/* what can hardware actually provide */
437
		tdv = alchemy_calc_div(req->rate, pr, scale, maxdiv, NULL);
438
		nr = pr / tdv;
439
		diff = req->rate - nr;
440
		if (nr > req->rate)
441
			continue;
442

443
		if (diff < lastdiff) {
444
			lastdiff = diff;
445
			bpr = pr;
446
			bpc = pc;
447
			br = nr;
448
		}
449
		if (diff == 0)
450
			break;
451
	}
452

453
	/* if we couldn't get the exact rate we wanted from the enabled
454
	 * parents, maybe we can tell an available disabled/inactive one
455
	 * to give us a rate we can divide down to the requested rate.
456
	 */
457
	if (lastdiff && free) {
458
		for (j = (maxdiv == 4) ? 1 : scale; j <= maxdiv; j += scale) {
459
			tpr = req->rate * j;
460
			if (tpr < 0)
461
				break;
462
			pr = clk_hw_round_rate(free, tpr);
463

464
			tdv = alchemy_calc_div(req->rate, pr, scale, maxdiv,
465
					       NULL);
466
			nr = pr / tdv;
467
			diff = req->rate - nr;
468
			if (nr > req->rate)
469
				continue;
470
			if (diff < lastdiff) {
471
				lastdiff = diff;
472
				bpr = pr;
473
				bpc = free;
474
				br = nr;
475
			}
476
			if (diff == 0)
477
				break;
478
		}
479
	}
480

481
	if (br < 0)
482
		return br;
483

484
	req->best_parent_rate = bpr;
485
	req->best_parent_hw = bpc;
486
	req->rate = br;
487

488
	return 0;
489
}
490

491
static int alchemy_clk_fgv1_en(struct clk_hw *hw)
492
{
493
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
494
	unsigned long v, flags;
495

496
	spin_lock_irqsave(c->reglock, flags);
497
	v = alchemy_rdsys(c->reg);
498
	v |= (1 << 1) << c->shift;
499
	alchemy_wrsys(v, c->reg);
500
	spin_unlock_irqrestore(c->reglock, flags);
501

502
	return 0;
503
}
504

505
static int alchemy_clk_fgv1_isen(struct clk_hw *hw)
506
{
507
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
508
	unsigned long v = alchemy_rdsys(c->reg) >> (c->shift + 1);
509

510
	return v & 1;
511
}
512

513
static void alchemy_clk_fgv1_dis(struct clk_hw *hw)
514
{
515
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
516
	unsigned long v, flags;
517

518
	spin_lock_irqsave(c->reglock, flags);
519
	v = alchemy_rdsys(c->reg);
520
	v &= ~((1 << 1) << c->shift);
521
	alchemy_wrsys(v, c->reg);
522
	spin_unlock_irqrestore(c->reglock, flags);
523
}
524

525
static int alchemy_clk_fgv1_setp(struct clk_hw *hw, u8 index)
526
{
527
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
528
	unsigned long v, flags;
529

530
	spin_lock_irqsave(c->reglock, flags);
531
	v = alchemy_rdsys(c->reg);
532
	if (index)
533
		v |= (1 << c->shift);
534
	else
535
		v &= ~(1 << c->shift);
536
	alchemy_wrsys(v, c->reg);
537
	spin_unlock_irqrestore(c->reglock, flags);
538

539
	return 0;
540
}
541

542
static u8 alchemy_clk_fgv1_getp(struct clk_hw *hw)
543
{
544
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
545

546
	return (alchemy_rdsys(c->reg) >> c->shift) & 1;
547
}
548

549
static int alchemy_clk_fgv1_setr(struct clk_hw *hw, unsigned long rate,
550
				 unsigned long parent_rate)
551
{
552
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
553
	unsigned long div, v, flags, ret;
554
	int sh = c->shift + 2;
555

556
	if (!rate || !parent_rate || rate > (parent_rate / 2))
557
		return -EINVAL;
558
	ret = alchemy_calc_div(rate, parent_rate, 2, 512, &div);
559
	spin_lock_irqsave(c->reglock, flags);
560
	v = alchemy_rdsys(c->reg);
561
	v &= ~(0xff << sh);
562
	v |= div << sh;
563
	alchemy_wrsys(v, c->reg);
564
	spin_unlock_irqrestore(c->reglock, flags);
565

566
	return 0;
567
}
568

569
static unsigned long alchemy_clk_fgv1_recalc(struct clk_hw *hw,
570
					     unsigned long parent_rate)
571
{
572
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
573
	unsigned long v = alchemy_rdsys(c->reg) >> (c->shift + 2);
574

575
	v = ((v & 0xff) + 1) * 2;
576
	return parent_rate / v;
577
}
578

579
static int alchemy_clk_fgv1_detr(struct clk_hw *hw,
580
				 struct clk_rate_request *req)
581
{
582
	return alchemy_clk_fgcs_detr(hw, req, 2, 512);
583
}
584

585
/* Au1000, Au1100, Au15x0, Au12x0 */
586
static const struct clk_ops alchemy_clkops_fgenv1 = {
587
	.recalc_rate	= alchemy_clk_fgv1_recalc,
588
	.determine_rate	= alchemy_clk_fgv1_detr,
589
	.set_rate	= alchemy_clk_fgv1_setr,
590
	.set_parent	= alchemy_clk_fgv1_setp,
591
	.get_parent	= alchemy_clk_fgv1_getp,
592
	.enable		= alchemy_clk_fgv1_en,
593
	.disable	= alchemy_clk_fgv1_dis,
594
	.is_enabled	= alchemy_clk_fgv1_isen,
595
};
596

597
static void __alchemy_clk_fgv2_en(struct alchemy_fgcs_clk *c)
598
{
599
	unsigned long v = alchemy_rdsys(c->reg);
600

601
	v &= ~(3 << c->shift);
602
	v |= (c->parent & 3) << c->shift;
603
	alchemy_wrsys(v, c->reg);
604
	c->isen = 1;
605
}
606

607
static int alchemy_clk_fgv2_en(struct clk_hw *hw)
608
{
609
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
610
	unsigned long flags;
611

612
	/* enable by setting the previous parent clock */
613
	spin_lock_irqsave(c->reglock, flags);
614
	__alchemy_clk_fgv2_en(c);
615
	spin_unlock_irqrestore(c->reglock, flags);
616

617
	return 0;
618
}
619

620
static int alchemy_clk_fgv2_isen(struct clk_hw *hw)
621
{
622
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
623

624
	return ((alchemy_rdsys(c->reg) >> c->shift) & 3) != 0;
625
}
626

627
static void alchemy_clk_fgv2_dis(struct clk_hw *hw)
628
{
629
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
630
	unsigned long v, flags;
631

632
	spin_lock_irqsave(c->reglock, flags);
633
	v = alchemy_rdsys(c->reg);
634
	v &= ~(3 << c->shift);	/* set input mux to "disabled" state */
635
	alchemy_wrsys(v, c->reg);
636
	c->isen = 0;
637
	spin_unlock_irqrestore(c->reglock, flags);
638
}
639

640
static int alchemy_clk_fgv2_setp(struct clk_hw *hw, u8 index)
641
{
642
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
643
	unsigned long flags;
644

645
	spin_lock_irqsave(c->reglock, flags);
646
	c->parent = index + 1;	/* value to write to register */
647
	if (c->isen)
648
		__alchemy_clk_fgv2_en(c);
649
	spin_unlock_irqrestore(c->reglock, flags);
650

651
	return 0;
652
}
653

654
static u8 alchemy_clk_fgv2_getp(struct clk_hw *hw)
655
{
656
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
657
	unsigned long flags, v;
658

659
	spin_lock_irqsave(c->reglock, flags);
660
	v = c->parent - 1;
661
	spin_unlock_irqrestore(c->reglock, flags);
662
	return v;
663
}
664

665
/* fg0-2 and fg4-6 share a "scale"-bit. With this bit cleared, the
666
 * dividers behave exactly as on previous models (dividers are multiples
667
 * of 2); with the bit set, dividers are multiples of 1, halving their
668
 * range, but making them also much more flexible.
669
 */
670
static int alchemy_clk_fgv2_setr(struct clk_hw *hw, unsigned long rate,
671
				 unsigned long parent_rate)
672
{
673
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
674
	int sh = c->shift + 2;
675
	unsigned long div, v, flags, ret;
676

677
	if (!rate || !parent_rate || rate > parent_rate)
678
		return -EINVAL;
679

680
	v = alchemy_rdsys(c->reg) & (1 << 30); /* test "scale" bit */
681
	ret = alchemy_calc_div(rate, parent_rate, v ? 1 : 2,
682
			       v ? 256 : 512, &div);
683

684
	spin_lock_irqsave(c->reglock, flags);
685
	v = alchemy_rdsys(c->reg);
686
	v &= ~(0xff << sh);
687
	v |= (div & 0xff) << sh;
688
	alchemy_wrsys(v, c->reg);
689
	spin_unlock_irqrestore(c->reglock, flags);
690

691
	return 0;
692
}
693

694
static unsigned long alchemy_clk_fgv2_recalc(struct clk_hw *hw,
695
					     unsigned long parent_rate)
696
{
697
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
698
	int sh = c->shift + 2;
699
	unsigned long v, t;
700

701
	v = alchemy_rdsys(c->reg);
702
	t = parent_rate / (((v >> sh) & 0xff) + 1);
703
	if ((v & (1 << 30)) == 0)		/* test scale bit */
704
		t /= 2;
705

706
	return t;
707
}
708

709
static int alchemy_clk_fgv2_detr(struct clk_hw *hw,
710
				 struct clk_rate_request *req)
711
{
712
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
713
	int scale, maxdiv;
714

715
	if (alchemy_rdsys(c->reg) & (1 << 30)) {
716
		scale = 1;
717
		maxdiv = 256;
718
	} else {
719
		scale = 2;
720
		maxdiv = 512;
721
	}
722

723
	return alchemy_clk_fgcs_detr(hw, req, scale, maxdiv);
724
}
725

726
/* Au1300 larger input mux, no separate disable bit, flexible divider */
727
static const struct clk_ops alchemy_clkops_fgenv2 = {
728
	.recalc_rate	= alchemy_clk_fgv2_recalc,
729
	.determine_rate	= alchemy_clk_fgv2_detr,
730
	.set_rate	= alchemy_clk_fgv2_setr,
731
	.set_parent	= alchemy_clk_fgv2_setp,
732
	.get_parent	= alchemy_clk_fgv2_getp,
733
	.enable		= alchemy_clk_fgv2_en,
734
	.disable	= alchemy_clk_fgv2_dis,
735
	.is_enabled	= alchemy_clk_fgv2_isen,
736
};
737

738
static const char * const alchemy_clk_fgv1_parents[] = {
739
	ALCHEMY_CPU_CLK, ALCHEMY_AUXPLL_CLK
740
};
741

742
static const char * const alchemy_clk_fgv2_parents[] = {
743
	ALCHEMY_AUXPLL2_CLK, ALCHEMY_CPU_CLK, ALCHEMY_AUXPLL_CLK
744
};
745

746
static const char * const alchemy_clk_fgen_names[] = {
747
	ALCHEMY_FG0_CLK, ALCHEMY_FG1_CLK, ALCHEMY_FG2_CLK,
748
	ALCHEMY_FG3_CLK, ALCHEMY_FG4_CLK, ALCHEMY_FG5_CLK };
749

750
static int __init alchemy_clk_init_fgens(int ctype)
751
{
752
	struct clk *c;
753
	struct clk_init_data id;
754
	struct alchemy_fgcs_clk *a;
755
	unsigned long v;
756
	int i, ret;
757

758
	switch (ctype) {
759
	case ALCHEMY_CPU_AU1000...ALCHEMY_CPU_AU1200:
760
		id.ops = &alchemy_clkops_fgenv1;
761
		id.parent_names = alchemy_clk_fgv1_parents;
762
		id.num_parents = 2;
763
		break;
764
	case ALCHEMY_CPU_AU1300:
765
		id.ops = &alchemy_clkops_fgenv2;
766
		id.parent_names = alchemy_clk_fgv2_parents;
767
		id.num_parents = 3;
768
		break;
769
	default:
770
		return -ENODEV;
771
	}
772
	id.flags = CLK_SET_RATE_PARENT | CLK_GET_RATE_NOCACHE;
773

774
	a = kcalloc(6, sizeof(*a), GFP_KERNEL);
775
	if (!a)
776
		return -ENOMEM;
777

778
	spin_lock_init(&alchemy_clk_fg0_lock);
779
	spin_lock_init(&alchemy_clk_fg1_lock);
780
	ret = 0;
781
	for (i = 0; i < 6; i++) {
782
		id.name = alchemy_clk_fgen_names[i];
783
		a->shift = 10 * (i < 3 ? i : i - 3);
784
		if (i > 2) {
785
			a->reg = AU1000_SYS_FREQCTRL1;
786
			a->reglock = &alchemy_clk_fg1_lock;
787
		} else {
788
			a->reg = AU1000_SYS_FREQCTRL0;
789
			a->reglock = &alchemy_clk_fg0_lock;
790
		}
791

792
		/* default to first parent if bootloader has set
793
		 * the mux to disabled state.
794
		 */
795
		if (ctype == ALCHEMY_CPU_AU1300) {
796
			v = alchemy_rdsys(a->reg);
797
			a->parent = (v >> a->shift) & 3;
798
			if (!a->parent) {
799
				a->parent = 1;
800
				a->isen = 0;
801
			} else
802
				a->isen = 1;
803
		}
804

805
		a->hw.init = &id;
806
		c = clk_register(NULL, &a->hw);
807
		if (IS_ERR(c))
808
			ret++;
809
		else
810
			clk_register_clkdev(c, id.name, NULL);
811
		a++;
812
	}
813

814
	return ret;
815
}
816

817
/* internal sources muxes *********************************************/
818

819
static int alchemy_clk_csrc_isen(struct clk_hw *hw)
820
{
821
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
822
	unsigned long v = alchemy_rdsys(c->reg);
823

824
	return (((v >> c->shift) >> 2) & 7) != 0;
825
}
826

827
static void __alchemy_clk_csrc_en(struct alchemy_fgcs_clk *c)
828
{
829
	unsigned long v = alchemy_rdsys(c->reg);
830

831
	v &= ~((7 << 2) << c->shift);
832
	v |= ((c->parent & 7) << 2) << c->shift;
833
	alchemy_wrsys(v, c->reg);
834
	c->isen = 1;
835
}
836

837
static int alchemy_clk_csrc_en(struct clk_hw *hw)
838
{
839
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
840
	unsigned long flags;
841

842
	/* enable by setting the previous parent clock */
843
	spin_lock_irqsave(c->reglock, flags);
844
	__alchemy_clk_csrc_en(c);
845
	spin_unlock_irqrestore(c->reglock, flags);
846

847
	return 0;
848
}
849

850
static void alchemy_clk_csrc_dis(struct clk_hw *hw)
851
{
852
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
853
	unsigned long v, flags;
854

855
	spin_lock_irqsave(c->reglock, flags);
856
	v = alchemy_rdsys(c->reg);
857
	v &= ~((3 << 2) << c->shift);	/* mux to "disabled" state */
858
	alchemy_wrsys(v, c->reg);
859
	c->isen = 0;
860
	spin_unlock_irqrestore(c->reglock, flags);
861
}
862

863
static int alchemy_clk_csrc_setp(struct clk_hw *hw, u8 index)
864
{
865
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
866
	unsigned long flags;
867

868
	spin_lock_irqsave(c->reglock, flags);
869
	c->parent = index + 1;	/* value to write to register */
870
	if (c->isen)
871
		__alchemy_clk_csrc_en(c);
872
	spin_unlock_irqrestore(c->reglock, flags);
873

874
	return 0;
875
}
876

877
static u8 alchemy_clk_csrc_getp(struct clk_hw *hw)
878
{
879
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
880

881
	return c->parent - 1;
882
}
883

884
static unsigned long alchemy_clk_csrc_recalc(struct clk_hw *hw,
885
					     unsigned long parent_rate)
886
{
887
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
888
	unsigned long v = (alchemy_rdsys(c->reg) >> c->shift) & 3;
889

890
	return parent_rate / c->dt[v];
891
}
892

893
static int alchemy_clk_csrc_setr(struct clk_hw *hw, unsigned long rate,
894
				 unsigned long parent_rate)
895
{
896
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
897
	unsigned long d, v, flags;
898
	int i;
899

900
	if (!rate || !parent_rate || rate > parent_rate)
901
		return -EINVAL;
902

903
	d = (parent_rate + (rate / 2)) / rate;
904
	if (d > 4)
905
		return -EINVAL;
906
	if ((d == 3) && (c->dt[2] != 3))
907
		d = 4;
908

909
	for (i = 0; i < 4; i++)
910
		if (c->dt[i] == d)
911
			break;
912

913
	if (i >= 4)
914
		return -EINVAL;	/* oops */
915

916
	spin_lock_irqsave(c->reglock, flags);
917
	v = alchemy_rdsys(c->reg);
918
	v &= ~(3 << c->shift);
919
	v |= (i & 3) << c->shift;
920
	alchemy_wrsys(v, c->reg);
921
	spin_unlock_irqrestore(c->reglock, flags);
922

923
	return 0;
924
}
925

926
static int alchemy_clk_csrc_detr(struct clk_hw *hw,
927
				 struct clk_rate_request *req)
928
{
929
	struct alchemy_fgcs_clk *c = to_fgcs_clk(hw);
930
	int scale = c->dt[2] == 3 ? 1 : 2; /* au1300 check */
931

932
	return alchemy_clk_fgcs_detr(hw, req, scale, 4);
933
}
934

935
static const struct clk_ops alchemy_clkops_csrc = {
936
	.recalc_rate	= alchemy_clk_csrc_recalc,
937
	.determine_rate	= alchemy_clk_csrc_detr,
938
	.set_rate	= alchemy_clk_csrc_setr,
939
	.set_parent	= alchemy_clk_csrc_setp,
940
	.get_parent	= alchemy_clk_csrc_getp,
941
	.enable		= alchemy_clk_csrc_en,
942
	.disable	= alchemy_clk_csrc_dis,
943
	.is_enabled	= alchemy_clk_csrc_isen,
944
};
945

946
static const char * const alchemy_clk_csrc_parents[] = {
947
	/* disabled at index 0 */ ALCHEMY_AUXPLL_CLK,
948
	ALCHEMY_FG0_CLK, ALCHEMY_FG1_CLK, ALCHEMY_FG2_CLK,
949
	ALCHEMY_FG3_CLK, ALCHEMY_FG4_CLK, ALCHEMY_FG5_CLK
950
};
951

952
/* divider tables */
953
static int alchemy_csrc_dt1[] = { 1, 4, 1, 2 };	/* rest */
954
static int alchemy_csrc_dt2[] = { 1, 4, 3, 2 };	/* Au1300 */
955

956
static int __init alchemy_clk_setup_imux(int ctype)
957
{
958
	struct alchemy_fgcs_clk *a;
959
	const char * const *names;
960
	struct clk_init_data id;
961
	unsigned long v;
962
	int i, ret, *dt;
963
	struct clk *c;
964

965
	id.ops = &alchemy_clkops_csrc;
966
	id.parent_names = alchemy_clk_csrc_parents;
967
	id.num_parents = 7;
968
	id.flags = CLK_SET_RATE_PARENT | CLK_GET_RATE_NOCACHE;
969

970
	dt = alchemy_csrc_dt1;
971
	switch (ctype) {
972
	case ALCHEMY_CPU_AU1000:
973
		names = alchemy_au1000_intclknames;
974
		break;
975
	case ALCHEMY_CPU_AU1500:
976
		names = alchemy_au1500_intclknames;
977
		break;
978
	case ALCHEMY_CPU_AU1100:
979
		names = alchemy_au1100_intclknames;
980
		break;
981
	case ALCHEMY_CPU_AU1550:
982
		names = alchemy_au1550_intclknames;
983
		break;
984
	case ALCHEMY_CPU_AU1200:
985
		names = alchemy_au1200_intclknames;
986
		break;
987
	case ALCHEMY_CPU_AU1300:
988
		dt = alchemy_csrc_dt2;
989
		names = alchemy_au1300_intclknames;
990
		break;
991
	default:
992
		return -ENODEV;
993
	}
994

995
	a = kcalloc(6, sizeof(*a), GFP_KERNEL);
996
	if (!a)
997
		return -ENOMEM;
998

999
	ret = 0;
1000

1001
	for (i = 0; i < 6; i++) {
1002
		id.name = names[i];
1003
		if (!id.name)
1004
			goto next;
1005

1006
		a->shift = i * 5;
1007
		a->reg = AU1000_SYS_CLKSRC;
1008
		a->reglock = &alchemy_clk_csrc_lock;
1009
		a->dt = dt;
1010

1011
		/* default to first parent clock if mux is initially
1012
		 * set to disabled state.
1013
		 */
1014
		v = alchemy_rdsys(a->reg);
1015
		a->parent = ((v >> a->shift) >> 2) & 7;
1016
		if (!a->parent) {
1017
			a->parent = 1;
1018
			a->isen = 0;
1019
		} else
1020
			a->isen = 1;
1021

1022
		a->hw.init = &id;
1023
		c = clk_register(NULL, &a->hw);
1024
		if (IS_ERR(c))
1025
			ret++;
1026
		else
1027
			clk_register_clkdev(c, id.name, NULL);
1028
next:
1029
		a++;
1030
	}
1031

1032
	return ret;
1033
}
1034

1035

1036
/**********************************************************************/
1037

1038

1039
#define ERRCK(x)						\
1040
	if (IS_ERR(x)) {					\
1041
		ret = PTR_ERR(x);				\
1042
		goto out;					\
1043
	}
1044

1045
static int __init alchemy_clk_init(void)
1046
{
1047
	int ctype = alchemy_get_cputype(), ret, i;
1048
	struct clk_aliastable *t = alchemy_clk_aliases;
1049
	struct clk *c;
1050

1051
	/* Root of the Alchemy clock tree: external 12MHz crystal osc */
1052
	c = clk_register_fixed_rate(NULL, ALCHEMY_ROOT_CLK, NULL,
1053
					   0, ALCHEMY_ROOTCLK_RATE);
1054
	ERRCK(c)
1055

1056
	/* CPU core clock */
1057
	c = alchemy_clk_setup_cpu(ALCHEMY_ROOT_CLK, ctype);
1058
	ERRCK(c)
1059

1060
	/* AUXPLLs: max 1GHz on Au1300, 748MHz on older models */
1061
	i = (ctype == ALCHEMY_CPU_AU1300) ? 84 : 63;
1062
	c = alchemy_clk_setup_aux(ALCHEMY_ROOT_CLK, ALCHEMY_AUXPLL_CLK,
1063
				  i, AU1000_SYS_AUXPLL);
1064
	ERRCK(c)
1065

1066
	if (ctype == ALCHEMY_CPU_AU1300) {
1067
		c = alchemy_clk_setup_aux(ALCHEMY_ROOT_CLK,
1068
					  ALCHEMY_AUXPLL2_CLK, i,
1069
					  AU1300_SYS_AUXPLL2);
1070
		ERRCK(c)
1071
	}
1072

1073
	/* sysbus clock: cpu core clock divided by 2, 3 or 4 */
1074
	c = alchemy_clk_setup_sysbus(ALCHEMY_CPU_CLK);
1075
	ERRCK(c)
1076

1077
	/* peripheral clock: runs at half rate of sysbus clk */
1078
	c = alchemy_clk_setup_periph(ALCHEMY_SYSBUS_CLK);
1079
	ERRCK(c)
1080

1081
	/* SDR/DDR memory clock */
1082
	c = alchemy_clk_setup_mem(ALCHEMY_SYSBUS_CLK, ctype);
1083
	ERRCK(c)
1084

1085
	/* L/RCLK: external static bus clock for synchronous mode */
1086
	c = alchemy_clk_setup_lrclk(ALCHEMY_PERIPH_CLK, ctype);
1087
	ERRCK(c)
1088

1089
	/* Frequency dividers 0-5 */
1090
	ret = alchemy_clk_init_fgens(ctype);
1091
	if (ret) {
1092
		ret = -ENODEV;
1093
		goto out;
1094
	}
1095

1096
	/* diving muxes for internal sources */
1097
	ret = alchemy_clk_setup_imux(ctype);
1098
	if (ret) {
1099
		ret = -ENODEV;
1100
		goto out;
1101
	}
1102

1103
	/* set up aliases drivers might look for */
1104
	while (t->base) {
1105
		if (t->cputype == ctype)
1106
			clk_add_alias(t->alias, NULL, t->base, NULL);
1107
		t++;
1108
	}
1109

1110
	pr_info("Alchemy clocktree installed\n");
1111
	return 0;
1112

1113
out:
1114
	return ret;
1115
}
1116
postcore_initcall(alchemy_clk_init);
1117

1118