1
/*-
2
 * Copyright (c) 2014-2016 Jared D. McNeill <[email protected]>
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 * All rights reserved.
4
 *
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 * Redistribution and use in source and binary forms, with or without
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 * modification, are permitted provided that the following conditions
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 * are met:
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 * 1. Redistributions of source code must retain the above copyright
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 *    notice, this list of conditions and the following disclaimer.
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 * 2. Redistributions in binary form must reproduce the above copyright
11
 *    notice, this list of conditions and the following disclaimer in the
12
 *    documentation and/or other materials provided with the distribution.
13
 *
14
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
15
 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
16
 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
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 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
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 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
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 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
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 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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 * SUCH DAMAGE.
25
 */
26

27
/*
28
 * Allwinner A10/A20 and H3 Audio Codec
29
 */
30

31
#include <sys/param.h>
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#include <sys/systm.h>
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#include <sys/bus.h>
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#include <sys/rman.h>
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#include <sys/condvar.h>
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#include <sys/kernel.h>
37
#include <sys/module.h>
38
#include <sys/gpio.h>
39

40
#include <machine/bus.h>
41

42
#include <dev/sound/pcm/sound.h>
43

44
#include <dev/ofw/ofw_bus.h>
45
#include <dev/ofw/ofw_bus_subr.h>
46

47
#include <dev/gpio/gpiobusvar.h>
48

49
#include <dev/clk/clk.h>
50
#include <dev/hwreset/hwreset.h>
51

52
#include "sunxi_dma_if.h"
53
#include "mixer_if.h"
54

55
struct a10codec_info;
56

57
struct a10codec_config {
58
	/* mixer class */
59
	struct kobj_class *mixer_class;
60

61
	/* toggle DAC/ADC mute */
62
	void		(*mute)(struct a10codec_info *, int, int);
63

64
	/* DRQ types */
65
	u_int		drqtype_codec;
66
	u_int		drqtype_sdram;
67

68
	/* register map */
69
	bus_size_t	DPC,
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			DAC_FIFOC,
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			DAC_FIFOS,
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			DAC_TXDATA,
73
			ADC_FIFOC,
74
			ADC_FIFOS,
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			ADC_RXDATA,
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			DAC_CNT,
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			ADC_CNT;
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};
79

80
#define	TX_TRIG_LEVEL	0xf
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#define	RX_TRIG_LEVEL	0x7
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#define	DRQ_CLR_CNT	0x3
83

84
#define	AC_DAC_DPC(_sc)		((_sc)->cfg->DPC)	
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#define	 DAC_DPC_EN_DA			0x80000000
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#define	AC_DAC_FIFOC(_sc)	((_sc)->cfg->DAC_FIFOC)
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#define	 DAC_FIFOC_FS_SHIFT		29
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#define	 DAC_FIFOC_FS_MASK		(7U << DAC_FIFOC_FS_SHIFT)
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#define	  DAC_FS_48KHZ			0
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#define	  DAC_FS_32KHZ			1
91
#define	  DAC_FS_24KHZ			2
92
#define	  DAC_FS_16KHZ			3
93
#define	  DAC_FS_12KHZ			4
94
#define	  DAC_FS_8KHZ			5
95
#define	  DAC_FS_192KHZ			6
96
#define	  DAC_FS_96KHZ			7
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#define	 DAC_FIFOC_FIFO_MODE_SHIFT	24
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#define	 DAC_FIFOC_FIFO_MODE_MASK	(3U << DAC_FIFOC_FIFO_MODE_SHIFT)
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#define	  FIFO_MODE_24_31_8		0
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#define	  FIFO_MODE_16_31_16		0
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#define	  FIFO_MODE_16_15_0		1
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#define	 DAC_FIFOC_DRQ_CLR_CNT_SHIFT	21
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#define	 DAC_FIFOC_DRQ_CLR_CNT_MASK	(3U << DAC_FIFOC_DRQ_CLR_CNT_SHIFT)
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#define	 DAC_FIFOC_TX_TRIG_LEVEL_SHIFT	8
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#define	 DAC_FIFOC_TX_TRIG_LEVEL_MASK	(0x7f << DAC_FIFOC_TX_TRIG_LEVEL_SHIFT)
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#define	 DAC_FIFOC_MONO_EN		(1U << 6)
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#define	 DAC_FIFOC_TX_BITS		(1U << 5)
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#define	 DAC_FIFOC_DRQ_EN		(1U << 4)
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#define	 DAC_FIFOC_FIFO_FLUSH		(1U << 0)
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#define	AC_DAC_FIFOS(_sc)	((_sc)->cfg->DAC_FIFOS)
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#define	AC_DAC_TXDATA(_sc)	((_sc)->cfg->DAC_TXDATA)
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#define	AC_ADC_FIFOC(_sc)	((_sc)->cfg->ADC_FIFOC)
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#define	 ADC_FIFOC_FS_SHIFT		29
114
#define	 ADC_FIFOC_FS_MASK		(7U << ADC_FIFOC_FS_SHIFT)
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#define	  ADC_FS_48KHZ		0
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#define	 ADC_FIFOC_EN_AD		(1U << 28)
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#define	 ADC_FIFOC_RX_FIFO_MODE		(1U << 24)
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#define	 ADC_FIFOC_RX_TRIG_LEVEL_SHIFT	8
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#define	 ADC_FIFOC_RX_TRIG_LEVEL_MASK	(0x1f << ADC_FIFOC_RX_TRIG_LEVEL_SHIFT)
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#define	 ADC_FIFOC_MONO_EN		(1U << 7)
121
#define	 ADC_FIFOC_RX_BITS		(1U << 6)
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#define	 ADC_FIFOC_DRQ_EN		(1U << 4)
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#define	 ADC_FIFOC_FIFO_FLUSH		(1U << 1)
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#define	AC_ADC_FIFOS(_sc)	((_sc)->cfg->ADC_FIFOS)
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#define	AC_ADC_RXDATA(_sc)	((_sc)->cfg->ADC_RXDATA)
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#define	AC_DAC_CNT(_sc)		((_sc)->cfg->DAC_CNT)
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#define	AC_ADC_CNT(_sc)		((_sc)->cfg->ADC_CNT)
128

129
static uint32_t a10codec_fmt[] = {
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	SND_FORMAT(AFMT_S16_LE, 1, 0),
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	SND_FORMAT(AFMT_S16_LE, 2, 0),
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	0
133
};
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static struct pcmchan_caps a10codec_pcaps = { 8000, 192000, a10codec_fmt, 0 };
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static struct pcmchan_caps a10codec_rcaps = { 8000, 48000, a10codec_fmt, 0 };
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138
struct a10codec_info;
139

140
struct a10codec_chinfo {
141
	struct snd_dbuf		*buffer;
142
	struct pcm_channel	*channel;	
143
	struct a10codec_info	*parent;
144
	bus_dmamap_t		dmamap;
145
	void			*dmaaddr;
146
	bus_addr_t		physaddr;
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	bus_size_t		fifo;
148
	device_t		dmac;
149
	void			*dmachan;
150

151
	int			dir;
152
	int			run;
153
	uint32_t		pos;
154
	uint32_t		format;
155
	uint32_t		blocksize;
156
	uint32_t		speed;
157
};
158

159
struct a10codec_info {
160
	device_t		dev;
161
	struct resource		*res[2];
162
	struct mtx		*lock;
163
	bus_dma_tag_t		dmat;
164
	unsigned		dmasize;
165
	void			*ih;
166

167
	struct a10codec_config	*cfg;
168

169
	struct a10codec_chinfo	play;
170
	struct a10codec_chinfo	rec;
171
};
172

173
static struct resource_spec a10codec_spec[] = {
174
	{ SYS_RES_MEMORY,	0,	RF_ACTIVE },
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	{ -1, 0 }
176
};
177

178
#define	CODEC_ANALOG_READ(sc, reg)		bus_read_4((sc)->res[1], (reg))
179
#define	CODEC_ANALOG_WRITE(sc, reg, val)	bus_write_4((sc)->res[1], (reg), (val))
180

181
#define	CODEC_READ(sc, reg)		bus_read_4((sc)->res[0], (reg))
182
#define	CODEC_WRITE(sc, reg, val)	bus_write_4((sc)->res[0], (reg), (val))
183

184
/*
185
 * A10/A20 mixer interface
186
 */
187

188
#define	A10_DAC_ACTL	0x10
189
#define	 A10_DACAREN			(1U << 31)
190
#define	 A10_DACALEN			(1U << 30)
191
#define	 A10_MIXEN			(1U << 29)
192
#define	 A10_DACPAS			(1U << 8)
193
#define	 A10_PAMUTE			(1U << 6)
194
#define	 A10_PAVOL_SHIFT		0
195
#define	 A10_PAVOL_MASK			(0x3f << A10_PAVOL_SHIFT)
196
#define	A10_ADC_ACTL	0x28
197
#define	 A10_ADCREN			(1U << 31)
198
#define	 A10_ADCLEN			(1U << 30)
199
#define	 A10_PREG1EN			(1U << 29)
200
#define	 A10_PREG2EN			(1U << 28)
201
#define	 A10_VMICEN			(1U << 27)
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#define	 A10_ADCG_SHIFT			20
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#define	 A10_ADCG_MASK			(7U << A10_ADCG_SHIFT)
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#define	 A10_ADCIS_SHIFT		17
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#define	 A10_ADCIS_MASK			(7U << A10_ADCIS_SHIFT)
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#define	  A10_ADC_IS_LINEIN			0
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#define	  A10_ADC_IS_FMIN			1
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#define	  A10_ADC_IS_MIC1			2
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#define	  A10_ADC_IS_MIC2			3
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#define	  A10_ADC_IS_MIC1_L_MIC2_R		4
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#define	  A10_ADC_IS_MIC1_LR_MIC2_LR		5
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#define	  A10_ADC_IS_OMIX			6
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#define	  A10_ADC_IS_LINEIN_L_MIC1_R		7
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#define	 A10_LNRDF			(1U << 16)
215
#define	 A10_LNPREG_SHIFT		13
216
#define	 A10_LNPREG_MASK		(7U << A10_LNPREG_SHIFT)
217
#define	 A10_PA_EN			(1U << 4)
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#define	 A10_DDE			(1U << 3)
219

220
static int
221
a10_mixer_init(struct snd_mixer *m)
222
{
223
	struct a10codec_info *sc = mix_getdevinfo(m);
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	uint32_t val;
225

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	mix_setdevs(m, SOUND_MASK_VOLUME | SOUND_MASK_LINE | SOUND_MASK_RECLEV);
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	mix_setrecdevs(m, SOUND_MASK_LINE | SOUND_MASK_LINE1 | SOUND_MASK_MIC);
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	/* Unmute input source to PA */
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	val = CODEC_READ(sc, A10_DAC_ACTL);
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	val |= A10_PAMUTE;
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	CODEC_WRITE(sc, A10_DAC_ACTL, val);
233

234
	/* Enable PA */
235
	val = CODEC_READ(sc, A10_ADC_ACTL);
236
	val |= A10_PA_EN;
237
	CODEC_WRITE(sc, A10_ADC_ACTL, val);
238

239
	return (0);
240
}
241

242
static const struct a10_mixer {
243
	unsigned reg;
244
	unsigned mask;
245
	unsigned shift;
246
} a10_mixers[SOUND_MIXER_NRDEVICES] = {
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	[SOUND_MIXER_VOLUME]	= { A10_DAC_ACTL, A10_PAVOL_MASK,
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				    A10_PAVOL_SHIFT },
249
	[SOUND_MIXER_LINE]	= { A10_ADC_ACTL, A10_LNPREG_MASK,
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				    A10_LNPREG_SHIFT },
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	[SOUND_MIXER_RECLEV]	= { A10_ADC_ACTL, A10_ADCG_MASK,
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				    A10_ADCG_SHIFT },
253
}; 
254

255
static int
256
a10_mixer_set(struct snd_mixer *m, unsigned dev, unsigned left,
257
    unsigned right)
258
{
259
	struct a10codec_info *sc = mix_getdevinfo(m);
260
	uint32_t val;
261
	unsigned nvol, max;
262

263
	max = a10_mixers[dev].mask >> a10_mixers[dev].shift;
264
	nvol = (left * max) / 100;
265

266
	val = CODEC_READ(sc, a10_mixers[dev].reg);
267
	val &= ~a10_mixers[dev].mask;
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	val |= (nvol << a10_mixers[dev].shift);
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	CODEC_WRITE(sc, a10_mixers[dev].reg, val);
270

271
	left = right = (left * 100) / max;
272
	return (left | (right << 8));
273
}
274

275
static uint32_t
276
a10_mixer_setrecsrc(struct snd_mixer *m, uint32_t src)
277
{
278
	struct a10codec_info *sc = mix_getdevinfo(m);
279
	uint32_t val;
280

281
	val = CODEC_READ(sc, A10_ADC_ACTL);
282

283
	switch (src) {
284
	case SOUND_MASK_LINE:	/* line-in */
285
		val &= ~A10_ADCIS_MASK;
286
		val |= (A10_ADC_IS_LINEIN << A10_ADCIS_SHIFT);
287
		break;
288
	case SOUND_MASK_MIC:	/* MIC1 */
289
		val &= ~A10_ADCIS_MASK;
290
		val |= (A10_ADC_IS_MIC1 << A10_ADCIS_SHIFT);
291
		break;
292
	case SOUND_MASK_LINE1:	/* MIC2 */
293
		val &= ~A10_ADCIS_MASK;
294
		val |= (A10_ADC_IS_MIC2 << A10_ADCIS_SHIFT);
295
		break;
296
	default:
297
		break;
298
	}
299

300
	CODEC_WRITE(sc, A10_ADC_ACTL, val);
301

302
	switch ((val & A10_ADCIS_MASK) >> A10_ADCIS_SHIFT) {
303
	case A10_ADC_IS_LINEIN:
304
		return (SOUND_MASK_LINE);
305
	case A10_ADC_IS_MIC1:
306
		return (SOUND_MASK_MIC);
307
	case A10_ADC_IS_MIC2:
308
		return (SOUND_MASK_LINE1);
309
	default:
310
		return (0);
311
	}
312
}
313

314
static void
315
a10_mute(struct a10codec_info *sc, int mute, int dir)
316
{
317
	uint32_t val;
318

319
	if (dir == PCMDIR_PLAY) {
320
		val = CODEC_READ(sc, A10_DAC_ACTL);
321
		if (mute) {
322
			/* Disable DAC analog l/r channels and output mixer */
323
			val &= ~A10_DACAREN;
324
			val &= ~A10_DACALEN;
325
			val &= ~A10_DACPAS;
326
		} else {
327
			/* Enable DAC analog l/r channels and output mixer */
328
			val |= A10_DACAREN;
329
			val |= A10_DACALEN;
330
			val |= A10_DACPAS;
331
		}
332
		CODEC_WRITE(sc, A10_DAC_ACTL, val);
333
	} else {
334
		val = CODEC_READ(sc, A10_ADC_ACTL);
335
		if (mute) {
336
			/* Disable ADC analog l/r channels, MIC1 preamp,
337
			 * and VMIC pin voltage
338
			 */
339
			val &= ~A10_ADCREN;
340
			val &= ~A10_ADCLEN;
341
			val &= ~A10_PREG1EN;
342
			val &= ~A10_VMICEN;
343
		} else {
344
			/* Enable ADC analog l/r channels, MIC1 preamp,
345
			 * and VMIC pin voltage
346
			 */
347
			val |= A10_ADCREN;
348
			val |= A10_ADCLEN;
349
			val |= A10_PREG1EN;
350
			val |= A10_VMICEN;
351
		}
352
		CODEC_WRITE(sc, A10_ADC_ACTL, val);
353
	}
354
}
355

356
static kobj_method_t a10_mixer_methods[] = {
357
	KOBJMETHOD(mixer_init,		a10_mixer_init),
358
	KOBJMETHOD(mixer_set,		a10_mixer_set),
359
	KOBJMETHOD(mixer_setrecsrc,	a10_mixer_setrecsrc),
360
	KOBJMETHOD_END
361
};
362
MIXER_DECLARE(a10_mixer);
363

364
/*
365
 * H3 mixer interface
366
 */
367

368
#define	H3_PR_CFG		0x00
369
#define	 H3_AC_PR_RST		(1 << 28)
370
#define	 H3_AC_PR_RW		(1 << 24)
371
#define	 H3_AC_PR_ADDR_SHIFT	16
372
#define	 H3_AC_PR_ADDR_MASK	(0x1f << H3_AC_PR_ADDR_SHIFT)
373
#define	 H3_ACDA_PR_WDAT_SHIFT	8
374
#define	 H3_ACDA_PR_WDAT_MASK	(0xff << H3_ACDA_PR_WDAT_SHIFT)
375
#define	 H3_ACDA_PR_RDAT_SHIFT	0
376
#define	 H3_ACDA_PR_RDAT_MASK	(0xff << H3_ACDA_PR_RDAT_SHIFT)
377

378
#define	H3_LOMIXSC		0x01
379
#define	 H3_LOMIXSC_LDAC	(1 << 1)
380
#define	H3_ROMIXSC		0x02
381
#define	 H3_ROMIXSC_RDAC	(1 << 1)
382
#define	H3_DAC_PA_SRC		0x03
383
#define	 H3_DACAREN		(1 << 7)
384
#define	 H3_DACALEN		(1 << 6)
385
#define	 H3_RMIXEN		(1 << 5)
386
#define	 H3_LMIXEN		(1 << 4)
387
#define	H3_LINEIN_GCTR		0x05
388
#define	 H3_LINEING_SHIFT	4
389
#define	 H3_LINEING_MASK	(0x7 << H3_LINEING_SHIFT)
390
#define	H3_MIC_GCTR		0x06
391
#define	 H3_MIC1_GAIN_SHIFT	4
392
#define	 H3_MIC1_GAIN_MASK	(0x7 << H3_MIC1_GAIN_SHIFT)
393
#define	 H3_MIC2_GAIN_SHIFT	0
394
#define	 H3_MIC2_GAIN_MASK	(0x7 << H3_MIC2_GAIN_SHIFT)
395
#define	H3_PAEN_CTR		0x07
396
#define	 H3_LINEOUTEN		(1 << 7)
397
#define	H3_LINEOUT_VOLC		0x09
398
#define	 H3_LINEOUTVOL_SHIFT	3
399
#define	 H3_LINEOUTVOL_MASK	(0x1f << H3_LINEOUTVOL_SHIFT)
400
#define	H3_MIC2G_LINEOUT_CTR	0x0a
401
#define	 H3_LINEOUT_LSEL	(1 << 3)
402
#define	 H3_LINEOUT_RSEL	(1 << 2)
403
#define	H3_LADCMIXSC		0x0c
404
#define	H3_RADCMIXSC		0x0d
405
#define	 H3_ADCMIXSC_MIC1	(1 << 6)
406
#define	 H3_ADCMIXSC_MIC2	(1 << 5)
407
#define	 H3_ADCMIXSC_LINEIN	(1 << 2)
408
#define	 H3_ADCMIXSC_OMIXER	(3 << 0)
409
#define	H3_ADC_AP_EN		0x0f
410
#define	 H3_ADCREN		(1 << 7)
411
#define	 H3_ADCLEN		(1 << 6)
412
#define	 H3_ADCG_SHIFT		0
413
#define	 H3_ADCG_MASK		(0x7 << H3_ADCG_SHIFT)
414

415
static u_int 
416
h3_pr_read(struct a10codec_info *sc, u_int addr)
417
{
418
	uint32_t val;
419

420
	/* Read current value */
421
	val = CODEC_ANALOG_READ(sc, H3_PR_CFG);
422

423
	/* De-assert reset */
424
	val |= H3_AC_PR_RST;
425
	CODEC_ANALOG_WRITE(sc, H3_PR_CFG, val);
426

427
	/* Read mode */
428
	val &= ~H3_AC_PR_RW;
429
	CODEC_ANALOG_WRITE(sc, H3_PR_CFG, val);
430

431
	/* Set address */
432
	val &= ~H3_AC_PR_ADDR_MASK;
433
	val |= (addr << H3_AC_PR_ADDR_SHIFT);
434
	CODEC_ANALOG_WRITE(sc, H3_PR_CFG, val);
435

436
	/* Read data */
437
	return (CODEC_ANALOG_READ(sc , H3_PR_CFG) & H3_ACDA_PR_RDAT_MASK);
438
}
439

440
static void
441
h3_pr_write(struct a10codec_info *sc, u_int addr, u_int data)
442
{
443
	uint32_t val;
444

445
	/* Read current value */
446
	val = CODEC_ANALOG_READ(sc, H3_PR_CFG);
447

448
	/* De-assert reset */
449
	val |= H3_AC_PR_RST;
450
	CODEC_ANALOG_WRITE(sc, H3_PR_CFG, val);
451

452
	/* Set address */
453
	val &= ~H3_AC_PR_ADDR_MASK;
454
	val |= (addr << H3_AC_PR_ADDR_SHIFT);
455
	CODEC_ANALOG_WRITE(sc, H3_PR_CFG, val);
456

457
	/* Write data */
458
	val &= ~H3_ACDA_PR_WDAT_MASK;
459
	val |= (data << H3_ACDA_PR_WDAT_SHIFT);
460
	CODEC_ANALOG_WRITE(sc, H3_PR_CFG, val);
461

462
	/* Write mode */
463
	val |= H3_AC_PR_RW;
464
	CODEC_ANALOG_WRITE(sc, H3_PR_CFG, val);
465
}
466

467
static void
468
h3_pr_set_clear(struct a10codec_info *sc, u_int addr, u_int set, u_int clr)
469
{
470
	u_int old, new;
471

472
	old = h3_pr_read(sc, addr);
473
	new = set | (old & ~clr);
474
	h3_pr_write(sc, addr, new);
475
}
476

477
static int
478
h3_mixer_init(struct snd_mixer *m)
479
{
480
	int rid=1;
481
	pcell_t reg[2];
482
	phandle_t analogref;
483
	struct a10codec_info *sc = mix_getdevinfo(m);
484

485
	if (OF_getencprop(ofw_bus_get_node(sc->dev), "allwinner,codec-analog-controls",
486
	    &analogref, sizeof(analogref)) <= 0) {
487
		return (ENXIO);
488
	}
489

490
	if (OF_getencprop(OF_node_from_xref(analogref), "reg",
491
	    reg, sizeof(reg)) <= 0) {
492
		return (ENXIO);
493
	}
494

495
	sc->res[1] = bus_alloc_resource(sc->dev, SYS_RES_MEMORY, &rid, reg[0],
496
	    reg[0]+reg[1], reg[1], RF_ACTIVE );
497

498
	if (sc->res[1] == NULL) {
499
		return (ENXIO);
500
	}
501

502
	mix_setdevs(m, SOUND_MASK_PCM | SOUND_MASK_VOLUME | SOUND_MASK_RECLEV |
503
	    SOUND_MASK_MIC | SOUND_MASK_LINE | SOUND_MASK_LINE1);
504
	mix_setrecdevs(m, SOUND_MASK_MIC | SOUND_MASK_LINE | SOUND_MASK_LINE1 |
505
	    SOUND_MASK_IMIX);
506

507
	pcm_setflags(sc->dev, pcm_getflags(sc->dev) | SD_F_SOFTPCMVOL);
508

509
	/* Right & Left LINEOUT enable */
510
	h3_pr_set_clear(sc, H3_PAEN_CTR, H3_LINEOUTEN, 0);
511
	h3_pr_set_clear(sc, H3_MIC2G_LINEOUT_CTR,
512
	    H3_LINEOUT_LSEL | H3_LINEOUT_RSEL, 0);
513

514
	return (0);
515
}
516

517
static const struct h3_mixer {
518
	unsigned reg;
519
	unsigned mask;
520
	unsigned shift;
521
} h3_mixers[SOUND_MIXER_NRDEVICES] = {
522
	[SOUND_MIXER_VOLUME]	= { H3_LINEOUT_VOLC, H3_LINEOUTVOL_MASK,
523
				    H3_LINEOUTVOL_SHIFT },
524
	[SOUND_MIXER_RECLEV]	= { H3_ADC_AP_EN, H3_ADCG_MASK,
525
				    H3_ADCG_SHIFT },
526
	[SOUND_MIXER_LINE]	= { H3_LINEIN_GCTR, H3_LINEING_MASK,
527
				    H3_LINEING_SHIFT },
528
	[SOUND_MIXER_MIC]	= { H3_MIC_GCTR, H3_MIC1_GAIN_MASK,
529
				    H3_MIC1_GAIN_SHIFT },
530
	[SOUND_MIXER_LINE1]	= { H3_MIC_GCTR, H3_MIC2_GAIN_MASK,
531
				    H3_MIC2_GAIN_SHIFT },
532
};
533

534
static int
535
h3_mixer_set(struct snd_mixer *m, unsigned dev, unsigned left,
536
    unsigned right)
537
{
538
	struct a10codec_info *sc = mix_getdevinfo(m);
539
	unsigned nvol, max;
540

541
	max = h3_mixers[dev].mask >> h3_mixers[dev].shift;
542
	nvol = (left * max) / 100;
543

544
	h3_pr_set_clear(sc, h3_mixers[dev].reg,
545
	    nvol << h3_mixers[dev].shift, h3_mixers[dev].mask);
546

547
	left = right = (left * 100) / max;
548
	return (left | (right << 8));
549
}
550

551
static uint32_t
552
h3_mixer_setrecsrc(struct snd_mixer *m, uint32_t src)
553
{
554
	struct a10codec_info *sc = mix_getdevinfo(m);
555
	uint32_t val;
556

557
	val = 0;
558
	src &= (SOUND_MASK_LINE | SOUND_MASK_MIC |
559
	    SOUND_MASK_LINE1 | SOUND_MASK_IMIX);
560

561
	if ((src & SOUND_MASK_LINE) != 0)	/* line-in */
562
		val |= H3_ADCMIXSC_LINEIN;
563
	if ((src & SOUND_MASK_MIC) != 0)	/* MIC1 */
564
		val |= H3_ADCMIXSC_MIC1;
565
	if ((src & SOUND_MASK_LINE1) != 0)	/* MIC2 */
566
		val |= H3_ADCMIXSC_MIC2;
567
	if ((src & SOUND_MASK_IMIX) != 0)	/* l/r output mixer */
568
		val |= H3_ADCMIXSC_OMIXER;
569

570
	h3_pr_write(sc, H3_LADCMIXSC, val);
571
	h3_pr_write(sc, H3_RADCMIXSC, val);
572

573
	return (src);
574
}
575

576
static void
577
h3_mute(struct a10codec_info *sc, int mute, int dir)
578
{
579
	if (dir == PCMDIR_PLAY) {
580
		if (mute) {
581
			/* Mute DAC l/r channels to output mixer */
582
			h3_pr_set_clear(sc, H3_LOMIXSC, 0, H3_LOMIXSC_LDAC);
583
			h3_pr_set_clear(sc, H3_ROMIXSC, 0, H3_ROMIXSC_RDAC);
584
			/* Disable DAC analog l/r channels and output mixer */
585
			h3_pr_set_clear(sc, H3_DAC_PA_SRC,
586
			    0, H3_DACAREN | H3_DACALEN | H3_RMIXEN | H3_LMIXEN);
587
		} else {
588
			/* Enable DAC analog l/r channels and output mixer */
589
			h3_pr_set_clear(sc, H3_DAC_PA_SRC,
590
			    H3_DACAREN | H3_DACALEN | H3_RMIXEN | H3_LMIXEN, 0);
591
			/* Unmute DAC l/r channels to output mixer */
592
			h3_pr_set_clear(sc, H3_LOMIXSC, H3_LOMIXSC_LDAC, 0);
593
			h3_pr_set_clear(sc, H3_ROMIXSC, H3_ROMIXSC_RDAC, 0);
594
		}
595
	} else {
596
		if (mute) {
597
			/* Disable ADC analog l/r channels */
598
			h3_pr_set_clear(sc, H3_ADC_AP_EN,
599
			    0, H3_ADCREN | H3_ADCLEN);
600
		} else {
601
			/* Enable ADC analog l/r channels */
602
			h3_pr_set_clear(sc, H3_ADC_AP_EN,
603
			    H3_ADCREN | H3_ADCLEN, 0);
604
		}
605
	}
606
}
607

608
static kobj_method_t h3_mixer_methods[] = {
609
	KOBJMETHOD(mixer_init,		h3_mixer_init),
610
	KOBJMETHOD(mixer_set,		h3_mixer_set),
611
	KOBJMETHOD(mixer_setrecsrc,	h3_mixer_setrecsrc),
612
	KOBJMETHOD_END
613
};
614
MIXER_DECLARE(h3_mixer);
615

616
/*
617
 * Channel interface
618
 */
619

620
static void
621
a10codec_dmamap_cb(void *arg, bus_dma_segment_t *segs, int nseg, int error)
622
{
623
	struct a10codec_chinfo *ch = arg;
624

625
	if (error != 0)
626
		return;
627

628
	ch->physaddr = segs[0].ds_addr;
629
}
630

631
static void
632
a10codec_transfer(struct a10codec_chinfo *ch)
633
{
634
	bus_addr_t src, dst;
635
	int error;
636

637
	if (ch->dir == PCMDIR_PLAY) {
638
		src = ch->physaddr + ch->pos;
639
		dst = ch->fifo;
640
	} else {
641
		src = ch->fifo;
642
		dst = ch->physaddr + ch->pos;
643
	}
644

645
	error = SUNXI_DMA_TRANSFER(ch->dmac, ch->dmachan, src, dst,
646
	    ch->blocksize);
647
	if (error) {
648
		ch->run = 0;
649
		device_printf(ch->parent->dev, "DMA transfer failed: %d\n",
650
		    error);
651
	}
652
}
653

654
static void
655
a10codec_dmaconfig(struct a10codec_chinfo *ch)
656
{
657
	struct a10codec_info *sc = ch->parent;
658
	struct sunxi_dma_config conf;
659

660
	memset(&conf, 0, sizeof(conf));
661
	conf.src_width = conf.dst_width = 16;
662
	conf.src_burst_len = conf.dst_burst_len = 4;
663

664
	if (ch->dir == PCMDIR_PLAY) {
665
		conf.dst_noincr = true;
666
		conf.src_drqtype = sc->cfg->drqtype_sdram;
667
		conf.dst_drqtype = sc->cfg->drqtype_codec;
668
	} else {
669
		conf.src_noincr = true;
670
		conf.src_drqtype = sc->cfg->drqtype_codec;
671
		conf.dst_drqtype = sc->cfg->drqtype_sdram;
672
	}
673

674
	SUNXI_DMA_SET_CONFIG(ch->dmac, ch->dmachan, &conf);
675
}
676

677
static void
678
a10codec_dmaintr(void *priv)
679
{
680
	struct a10codec_chinfo *ch = priv;
681
	unsigned bufsize;
682

683
	bufsize = sndbuf_getsize(ch->buffer);
684

685
	ch->pos += ch->blocksize;
686
	if (ch->pos >= bufsize)
687
		ch->pos -= bufsize;
688

689
	if (ch->run) {
690
		chn_intr(ch->channel);
691
		a10codec_transfer(ch);
692
	}
693
}
694

695
static unsigned
696
a10codec_fs(struct a10codec_chinfo *ch)
697
{
698
	switch (ch->speed) {
699
	case 48000:
700
		return (DAC_FS_48KHZ);
701
	case 24000:
702
		return (DAC_FS_24KHZ);
703
	case 12000:
704
		return (DAC_FS_12KHZ);
705
	case 192000:
706
		return (DAC_FS_192KHZ);
707
	case 32000:
708
		return (DAC_FS_32KHZ);
709
	case 16000:
710
		return (DAC_FS_16KHZ);
711
	case 8000:
712
		return (DAC_FS_8KHZ);
713
	case 96000:
714
		return (DAC_FS_96KHZ);
715
	default:
716
		return (DAC_FS_48KHZ);
717
	}
718
}
719

720
static void
721
a10codec_start(struct a10codec_chinfo *ch)
722
{
723
	struct a10codec_info *sc = ch->parent;
724
	uint32_t val;
725

726
	ch->pos = 0;
727

728
	if (ch->dir == PCMDIR_PLAY) {
729
		/* Flush DAC FIFO */
730
		CODEC_WRITE(sc, AC_DAC_FIFOC(sc), DAC_FIFOC_FIFO_FLUSH);
731

732
		/* Clear DAC FIFO status */
733
		CODEC_WRITE(sc, AC_DAC_FIFOS(sc),
734
		    CODEC_READ(sc, AC_DAC_FIFOS(sc)));
735

736
		/* Unmute output */
737
		sc->cfg->mute(sc, 0, ch->dir);
738

739
		/* Configure DAC DMA channel */
740
		a10codec_dmaconfig(ch);
741

742
		/* Configure DAC FIFO */
743
		CODEC_WRITE(sc, AC_DAC_FIFOC(sc),
744
		    (AFMT_CHANNEL(ch->format) == 1 ? DAC_FIFOC_MONO_EN : 0) |
745
		    (a10codec_fs(ch) << DAC_FIFOC_FS_SHIFT) |
746
		    (FIFO_MODE_16_15_0 << DAC_FIFOC_FIFO_MODE_SHIFT) |
747
		    (DRQ_CLR_CNT << DAC_FIFOC_DRQ_CLR_CNT_SHIFT) |
748
		    (TX_TRIG_LEVEL << DAC_FIFOC_TX_TRIG_LEVEL_SHIFT));
749

750
		/* Enable DAC DRQ */
751
		val = CODEC_READ(sc, AC_DAC_FIFOC(sc));
752
		val |= DAC_FIFOC_DRQ_EN;
753
		CODEC_WRITE(sc, AC_DAC_FIFOC(sc), val);
754
	} else {
755
		/* Flush ADC FIFO */
756
		CODEC_WRITE(sc, AC_ADC_FIFOC(sc), ADC_FIFOC_FIFO_FLUSH);
757

758
		/* Clear ADC FIFO status */
759
		CODEC_WRITE(sc, AC_ADC_FIFOS(sc),
760
		    CODEC_READ(sc, AC_ADC_FIFOS(sc)));
761

762
		/* Unmute input */
763
		sc->cfg->mute(sc, 0, ch->dir);
764

765
		/* Configure ADC DMA channel */
766
		a10codec_dmaconfig(ch);
767

768
		/* Configure ADC FIFO */
769
		CODEC_WRITE(sc, AC_ADC_FIFOC(sc),
770
		    ADC_FIFOC_EN_AD |
771
		    ADC_FIFOC_RX_FIFO_MODE |
772
		    (AFMT_CHANNEL(ch->format) == 1 ? ADC_FIFOC_MONO_EN : 0) |
773
		    (a10codec_fs(ch) << ADC_FIFOC_FS_SHIFT) |
774
		    (RX_TRIG_LEVEL << ADC_FIFOC_RX_TRIG_LEVEL_SHIFT));
775

776
		/* Enable ADC DRQ */
777
		val = CODEC_READ(sc, AC_ADC_FIFOC(sc));
778
		val |= ADC_FIFOC_DRQ_EN;
779
		CODEC_WRITE(sc, AC_ADC_FIFOC(sc), val);
780
	}
781

782
	/* Start DMA transfer */
783
	a10codec_transfer(ch);
784
}
785

786
static void
787
a10codec_stop(struct a10codec_chinfo *ch)
788
{
789
	struct a10codec_info *sc = ch->parent;
790

791
	/* Disable DMA channel */
792
	SUNXI_DMA_HALT(ch->dmac, ch->dmachan);
793

794
	sc->cfg->mute(sc, 1, ch->dir);
795

796
	if (ch->dir == PCMDIR_PLAY) {
797
		/* Disable DAC DRQ */
798
		CODEC_WRITE(sc, AC_DAC_FIFOC(sc), 0);
799
	} else {
800
		/* Disable ADC DRQ */
801
		CODEC_WRITE(sc, AC_ADC_FIFOC(sc), 0);
802
	}
803
}
804

805
static void *
806
a10codec_chan_init(kobj_t obj, void *devinfo, struct snd_dbuf *b,
807
    struct pcm_channel *c, int dir)
808
{
809
	struct a10codec_info *sc = devinfo;
810
	struct a10codec_chinfo *ch = dir == PCMDIR_PLAY ? &sc->play : &sc->rec;
811
	phandle_t xref;
812
	pcell_t *cells;
813
	int ncells, error;
814

815
	error = ofw_bus_parse_xref_list_alloc(ofw_bus_get_node(sc->dev),
816
	    "dmas", "#dma-cells", dir == PCMDIR_PLAY ? 1 : 0,
817
	    &xref, &ncells, &cells);
818
	if (error != 0) {
819
		device_printf(sc->dev, "cannot parse 'dmas' property\n");
820
		return (NULL);
821
	}
822
	OF_prop_free(cells);
823

824
	ch->parent = sc;
825
	ch->channel = c;
826
	ch->buffer = b;
827
	ch->dir = dir;
828
	ch->fifo = rman_get_start(sc->res[0]) +
829
	    (dir == PCMDIR_REC ? AC_ADC_RXDATA(sc) : AC_DAC_TXDATA(sc));
830

831
	ch->dmac = OF_device_from_xref(xref);
832
	if (ch->dmac == NULL) {
833
		device_printf(sc->dev, "cannot find DMA controller\n");
834
		device_printf(sc->dev, "xref = 0x%x\n", (u_int)xref);
835
		return (NULL);
836
	}
837
	ch->dmachan = SUNXI_DMA_ALLOC(ch->dmac, false, a10codec_dmaintr, ch);
838
	if (ch->dmachan == NULL) {
839
		device_printf(sc->dev, "cannot allocate DMA channel\n");
840
		return (NULL);
841
	}
842

843
	error = bus_dmamem_alloc(sc->dmat, &ch->dmaaddr,
844
	    BUS_DMA_NOWAIT | BUS_DMA_COHERENT, &ch->dmamap);
845
	if (error != 0) {
846
		device_printf(sc->dev, "cannot allocate channel buffer\n");
847
		return (NULL);
848
	}
849
	error = bus_dmamap_load(sc->dmat, ch->dmamap, ch->dmaaddr,
850
	    sc->dmasize, a10codec_dmamap_cb, ch, BUS_DMA_NOWAIT);
851
	if (error != 0) {
852
		device_printf(sc->dev, "cannot load DMA map\n");
853
		return (NULL);
854
	}
855
	memset(ch->dmaaddr, 0, sc->dmasize);
856

857
	if (sndbuf_setup(ch->buffer, ch->dmaaddr, sc->dmasize) != 0) {
858
		device_printf(sc->dev, "cannot setup sndbuf\n");
859
		return (NULL);
860
	}
861

862
	return (ch);
863
}
864

865
static int
866
a10codec_chan_free(kobj_t obj, void *data)
867
{
868
	struct a10codec_chinfo *ch = data;
869
	struct a10codec_info *sc = ch->parent;
870

871
	SUNXI_DMA_FREE(ch->dmac, ch->dmachan);
872
	bus_dmamap_unload(sc->dmat, ch->dmamap);
873
	bus_dmamem_free(sc->dmat, ch->dmaaddr, ch->dmamap);
874

875
	return (0);
876
}
877

878
static int
879
a10codec_chan_setformat(kobj_t obj, void *data, uint32_t format)
880
{
881
	struct a10codec_chinfo *ch = data;
882

883
	ch->format = format;
884

885
	return (0);
886
}
887

888
static uint32_t
889
a10codec_chan_setspeed(kobj_t obj, void *data, uint32_t speed)
890
{
891
	struct a10codec_chinfo *ch = data;
892

893
	/*
894
	 * The codec supports full duplex operation but both DAC and ADC
895
	 * use the same source clock (PLL2). Limit the available speeds to
896
	 * those supported by a 24576000 Hz input.
897
	 */
898
	switch (speed) {
899
	case 8000:
900
	case 12000:
901
	case 16000:
902
	case 24000:
903
	case 32000:
904
	case 48000:
905
		ch->speed = speed;
906
		break;
907
	case 96000:
908
	case 192000:
909
		/* 96 KHz / 192 KHz mode only supported for playback */
910
		if (ch->dir == PCMDIR_PLAY) {
911
			ch->speed = speed;
912
		} else {
913
			ch->speed = 48000;
914
		}
915
		break;
916
	case 44100:
917
		ch->speed = 48000;
918
		break;
919
	case 22050:
920
		ch->speed = 24000;
921
		break;
922
	case 11025:
923
		ch->speed = 12000;
924
		break;
925
	default:
926
		ch->speed = 48000;
927
		break;
928
	}
929

930
	return (ch->speed);
931
}
932

933
static uint32_t
934
a10codec_chan_setblocksize(kobj_t obj, void *data, uint32_t blocksize)
935
{
936
	struct a10codec_chinfo *ch = data;
937

938
	ch->blocksize = blocksize & ~3;
939

940
	return (ch->blocksize);
941
}
942

943
static int
944
a10codec_chan_trigger(kobj_t obj, void *data, int go)
945
{
946
	struct a10codec_chinfo *ch = data;
947
	struct a10codec_info *sc = ch->parent;
948

949
	if (!PCMTRIG_COMMON(go))
950
		return (0);
951

952
	snd_mtxlock(sc->lock);
953
	switch (go) {
954
	case PCMTRIG_START:
955
		ch->run = 1;
956
		a10codec_stop(ch);
957
		a10codec_start(ch);
958
		break;
959
	case PCMTRIG_STOP:
960
	case PCMTRIG_ABORT:
961
		ch->run = 0;
962
		a10codec_stop(ch);
963
		break;
964
	default:
965
		break;
966
	}
967
	snd_mtxunlock(sc->lock);
968

969
	return (0);
970
}
971

972
static uint32_t
973
a10codec_chan_getptr(kobj_t obj, void *data)
974
{
975
	struct a10codec_chinfo *ch = data;
976

977
	return (ch->pos);
978
}
979

980
static struct pcmchan_caps *
981
a10codec_chan_getcaps(kobj_t obj, void *data)
982
{
983
	struct a10codec_chinfo *ch = data;
984

985
	if (ch->dir == PCMDIR_PLAY) {
986
		return (&a10codec_pcaps);
987
	} else {
988
		return (&a10codec_rcaps);
989
	}
990
}
991

992
static kobj_method_t a10codec_chan_methods[] = {
993
	KOBJMETHOD(channel_init,		a10codec_chan_init),
994
	KOBJMETHOD(channel_free,		a10codec_chan_free),
995
	KOBJMETHOD(channel_setformat,		a10codec_chan_setformat),
996
	KOBJMETHOD(channel_setspeed,		a10codec_chan_setspeed),
997
	KOBJMETHOD(channel_setblocksize,	a10codec_chan_setblocksize),
998
	KOBJMETHOD(channel_trigger,		a10codec_chan_trigger),
999
	KOBJMETHOD(channel_getptr,		a10codec_chan_getptr),
1000
	KOBJMETHOD(channel_getcaps,		a10codec_chan_getcaps),
1001
	KOBJMETHOD_END
1002
};
1003
CHANNEL_DECLARE(a10codec_chan);
1004

1005
/*
1006
 * Device interface
1007
 */
1008

1009
static const struct a10codec_config a10_config = {
1010
	.mixer_class	= &a10_mixer_class,
1011
	.mute		= a10_mute,
1012
	.drqtype_codec	= 19,
1013
	.drqtype_sdram	= 22,
1014
	.DPC		= 0x00,
1015
	.DAC_FIFOC	= 0x04,
1016
	.DAC_FIFOS	= 0x08,
1017
	.DAC_TXDATA	= 0x0c,
1018
	.ADC_FIFOC	= 0x1c,
1019
	.ADC_FIFOS	= 0x20,
1020
	.ADC_RXDATA	= 0x24,
1021
	.DAC_CNT	= 0x30,
1022
	.ADC_CNT	= 0x34,
1023
};
1024

1025
static const struct a10codec_config h3_config = {
1026
	.mixer_class	= &h3_mixer_class,
1027
	.mute		= h3_mute,
1028
	.drqtype_codec	= 15,
1029
	.drqtype_sdram	= 1,
1030
	.DPC		= 0x00,
1031
	.DAC_FIFOC	= 0x04,
1032
	.DAC_FIFOS	= 0x08,
1033
	.DAC_TXDATA	= 0x20,
1034
	.ADC_FIFOC	= 0x10,
1035
	.ADC_FIFOS	= 0x14,
1036
	.ADC_RXDATA	= 0x18,
1037
	.DAC_CNT	= 0x40,
1038
	.ADC_CNT	= 0x44,
1039
};
1040

1041
static struct ofw_compat_data compat_data[] = {
1042
	{ "allwinner,sun4i-a10-codec",	(uintptr_t)&a10_config },
1043
	{ "allwinner,sun7i-a20-codec",	(uintptr_t)&a10_config },
1044
	{ "allwinner,sun8i-h3-codec",	(uintptr_t)&h3_config },
1045
	{ NULL, 0 }
1046
};
1047

1048
static int
1049
a10codec_probe(device_t dev)
1050
{
1051
	if (!ofw_bus_status_okay(dev))
1052
		return (ENXIO);
1053

1054
	if (ofw_bus_search_compatible(dev, compat_data)->ocd_data == 0)
1055
		return (ENXIO);
1056

1057
	device_set_desc(dev, "Allwinner Audio Codec");
1058
	return (BUS_PROBE_DEFAULT);
1059
}
1060

1061
static int
1062
a10codec_attach(device_t dev)
1063
{
1064
	struct a10codec_info *sc;
1065
	char status[SND_STATUSLEN];
1066
	struct gpiobus_pin *pa_pin;
1067
	phandle_t node;
1068
	clk_t clk_bus, clk_codec;
1069
	hwreset_t rst;
1070
	uint32_t val;
1071
	int error;
1072

1073
	node = ofw_bus_get_node(dev);
1074

1075
	sc = malloc(sizeof(*sc), M_DEVBUF, M_WAITOK | M_ZERO);
1076
	sc->cfg = (void *)ofw_bus_search_compatible(dev, compat_data)->ocd_data;
1077
	sc->dev = dev;
1078
	sc->lock = snd_mtxcreate(device_get_nameunit(dev), "a10codec softc");
1079

1080
	if (bus_alloc_resources(dev, a10codec_spec, sc->res)) {
1081
		device_printf(dev, "cannot allocate resources for device\n");
1082
		error = ENXIO;
1083
		goto fail;
1084
	}
1085

1086
	sc->dmasize = 131072;
1087
	error = bus_dma_tag_create(
1088
	    bus_get_dma_tag(dev),
1089
	    4, sc->dmasize,		/* alignment, boundary */
1090
	    BUS_SPACE_MAXADDR_32BIT,	/* lowaddr */
1091
	    BUS_SPACE_MAXADDR,		/* highaddr */
1092
	    NULL, NULL,			/* filter, filterarg */
1093
	    sc->dmasize, 1,		/* maxsize, nsegs */
1094
	    sc->dmasize, 0,		/* maxsegsize, flags */
1095
	    NULL, NULL,			/* lockfunc, lockarg */
1096
	    &sc->dmat);
1097
	if (error != 0) {
1098
		device_printf(dev, "cannot create DMA tag\n");
1099
		goto fail;
1100
	}
1101

1102
	/* Get clocks */
1103
	if (clk_get_by_ofw_name(dev, 0, "apb", &clk_bus) != 0 &&
1104
	    clk_get_by_ofw_name(dev, 0, "ahb", &clk_bus) != 0) {
1105
		device_printf(dev, "cannot find bus clock\n");
1106
		goto fail;
1107
	}
1108
	if (clk_get_by_ofw_name(dev, 0, "codec", &clk_codec) != 0) {
1109
		device_printf(dev, "cannot find codec clock\n");
1110
		goto fail;
1111
	}
1112

1113
	/* Gating bus clock for codec */
1114
	if (clk_enable(clk_bus) != 0) {
1115
		device_printf(dev, "cannot enable bus clock\n");
1116
		goto fail;
1117
	}
1118
	/* Activate audio codec clock. According to the A10 and A20 user
1119
	 * manuals, Audio_pll can be either 24.576MHz or 22.5792MHz. Most
1120
	 * audio sampling rates require an 24.576MHz input clock with the
1121
	 * exception of 44.1kHz, 22.05kHz, and 11.025kHz. Unfortunately,
1122
	 * both capture and playback use the same clock source so to
1123
	 * safely support independent full duplex operation, we use a fixed
1124
	 * 24.576MHz clock source and don't advertise native support for
1125
	 * the three sampling rates that require a 22.5792MHz input.
1126
	 */
1127
	error = clk_set_freq(clk_codec, 24576000, CLK_SET_ROUND_DOWN);
1128
	if (error != 0) {
1129
		device_printf(dev, "cannot set codec clock frequency\n");
1130
		goto fail;
1131
	}
1132
	/* Enable audio codec clock */
1133
	error = clk_enable(clk_codec);
1134
	if (error != 0) {
1135
		device_printf(dev, "cannot enable codec clock\n");
1136
		goto fail;
1137
	}
1138

1139
	/* De-assert hwreset */
1140
	if (hwreset_get_by_ofw_idx(dev, 0, 0, &rst) == 0) {
1141
		error = hwreset_deassert(rst);
1142
		if (error != 0) {
1143
			device_printf(dev, "cannot de-assert reset\n");
1144
			goto fail;
1145
		}
1146
	}
1147

1148
	/* Enable DAC */
1149
	val = CODEC_READ(sc, AC_DAC_DPC(sc));
1150
	val |= DAC_DPC_EN_DA;
1151
	CODEC_WRITE(sc, AC_DAC_DPC(sc), val);
1152

1153
	if (mixer_init(dev, sc->cfg->mixer_class, sc)) {
1154
		device_printf(dev, "mixer_init failed\n");
1155
		goto fail;
1156
	}
1157

1158
	/* Unmute PA */
1159
	if (gpio_pin_get_by_ofw_property(dev, node, "allwinner,pa-gpios",
1160
	    &pa_pin) == 0) {
1161
		error = gpio_pin_set_active(pa_pin, 1);
1162
		if (error != 0)
1163
			device_printf(dev, "failed to unmute PA\n");
1164
	}
1165

1166
	pcm_setflags(dev, pcm_getflags(dev) | SD_F_MPSAFE);
1167

1168
	pcm_init(dev, sc);
1169

1170
	pcm_addchan(dev, PCMDIR_PLAY, &a10codec_chan_class, sc);
1171
	pcm_addchan(dev, PCMDIR_REC, &a10codec_chan_class, sc);
1172

1173
	snprintf(status, SND_STATUSLEN, "at %s", ofw_bus_get_name(dev));
1174
	if (pcm_register(dev, status)) {
1175
		device_printf(dev, "pcm_register failed\n");
1176
		goto fail;
1177
	}
1178

1179
	return (0);
1180

1181
fail:
1182
	bus_release_resources(dev, a10codec_spec, sc->res);
1183
	snd_mtxfree(sc->lock);
1184
	free(sc, M_DEVBUF);
1185

1186
	return (ENXIO);
1187
}
1188

1189
static device_method_t a10codec_pcm_methods[] = {
1190
	/* Device interface */
1191
	DEVMETHOD(device_probe,		a10codec_probe),
1192
	DEVMETHOD(device_attach,	a10codec_attach),
1193

1194
	DEVMETHOD_END
1195
};
1196

1197
static driver_t a10codec_pcm_driver = {
1198
	"pcm",
1199
	a10codec_pcm_methods,
1200
	PCM_SOFTC_SIZE,
1201
};
1202

1203
DRIVER_MODULE(a10codec, simplebus, a10codec_pcm_driver, 0, 0);
1204
MODULE_DEPEND(a10codec, sound, SOUND_MINVER, SOUND_PREFVER, SOUND_MAXVER);
1205
MODULE_VERSION(a10codec, 1);
1206

1207