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linux-stable/sound/pci/lola/lola_clock.c
Lars-Peter Clausen a434713bfe ALSA: lola: Use DIV_ROUND_UP() instead of open-coding it 
Use DIV_ROUND_UP() instead of open-coding it. This documents intent
and makes it more clear what is going on for the casual reviewer.

Generated using the following the Coccinelle semantic patch.

// <smpl>
@r1@
expression x;
constant C1;
constant C2;
@@
 (x + C1) / C2

@script:python@
C1 << r1.C1;
C2 << r1.C2;
@@
try:
	if int(C1) != int(C2) - 1:
		cocci.include_match(False)
except:
	cocci.include_match(False)

@@
expression r1.x;
constant r1.C1;
constant r1.C2;
@@
-(((x) + C1) / C2)
+DIV_ROUND_UP(x, C2)
// </smpl>

Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
Link: https://lore.kernel.org/r/20201223172229.781-10-lars@metafoo.de
Signed-off-by: Takashi Iwai <tiwai@suse.de>
2020-12-25 09:11:52 +01:00

310 lines
7.4 KiB
C
Raw Blame History

// SPDX-License-Identifier: GPL-2.0-or-later
/*
* Support for Digigram Lola PCI-e boards
*
* Copyright (c) 2011 Takashi Iwai <tiwai@suse.de>
*/
#include <linux/kernel.h>
#include <linux/init.h>
#include <linux/delay.h>
#include <sound/core.h>
#include <sound/pcm.h>
#include "lola.h"
unsigned int lola_sample_rate_convert(unsigned int coded)
{
unsigned int freq;
/* base frequency */
switch (coded & 0x3) {
case 0: freq = 48000; break;
case 1: freq = 44100; break;
case 2: freq = 32000; break;
default: return 0; /* error */
}
/* multiplier / devisor */
switch (coded & 0x1c) {
case (0 << 2): break;
case (4 << 2): break;
case (1 << 2): freq *= 2; break;
case (2 << 2): freq *= 4; break;
case (5 << 2): freq /= 2; break;
case (6 << 2): freq /= 4; break;
default: return 0; /* error */
}
/* ajustement */
switch (coded & 0x60) {
case (0 << 5): break;
case (1 << 5): freq = (freq * 999) / 1000; break;
case (2 << 5): freq = (freq * 1001) / 1000; break;
default: return 0; /* error */
}
return freq;
}
/*
* Granualrity
*/
#define LOLA_MAXFREQ_AT_GRANULARITY_MIN 48000
#define LOLA_MAXFREQ_AT_GRANULARITY_BELOW_MAX 96000
static bool check_gran_clock_compatibility(struct lola *chip,
unsigned int val,
unsigned int freq)
{
if (!chip->granularity)
return true;
if (val < LOLA_GRANULARITY_MIN || val > LOLA_GRANULARITY_MAX ||
(val % LOLA_GRANULARITY_STEP) != 0)
return false;
if (val == LOLA_GRANULARITY_MIN) {
if (freq > LOLA_MAXFREQ_AT_GRANULARITY_MIN)
return false;
} else if (val < LOLA_GRANULARITY_MAX) {
if (freq > LOLA_MAXFREQ_AT_GRANULARITY_BELOW_MAX)
return false;
}
return true;
}
int lola_set_granularity(struct lola *chip, unsigned int val, bool force)
{
int err;
if (!force) {
if (val == chip->granularity)
return 0;
#if 0
/* change Gran only if there are no streams allocated ! */
if (chip->audio_in_alloc_mask || chip->audio_out_alloc_mask)
return -EBUSY;
#endif
if (!check_gran_clock_compatibility(chip, val,
chip->clock.cur_freq))
return -EINVAL;
}
chip->granularity = val;
val /= LOLA_GRANULARITY_STEP;
/* audio function group */
err = lola_codec_write(chip, 1, LOLA_VERB_SET_GRANULARITY_STEPS,
val, 0);
if (err < 0)
return err;
/* this can be a very slow function !!! */
usleep_range(400 * val, 20000);
return lola_codec_flush(chip);
}
/*
* Clock widget handling
*/
int lola_init_clock_widget(struct lola *chip, int nid)
{
unsigned int val;
int i, j, nitems, nb_verbs, idx, idx_list;
int err;
err = lola_read_param(chip, nid, LOLA_PAR_AUDIO_WIDGET_CAP, &val);
if (err < 0) {
dev_err(chip->card->dev, "Can't read wcaps for 0x%x\n", nid);
return err;
}
if ((val & 0xfff00000) != 0x01f00000) { /* test SubType and Type */
dev_dbg(chip->card->dev, "No valid clock widget\n");
return 0;
}
chip->clock.nid = nid;
chip->clock.items = val & 0xff;
dev_dbg(chip->card->dev, "clock_list nid=%x, entries=%d\n", nid,
chip->clock.items);
if (chip->clock.items > MAX_SAMPLE_CLOCK_COUNT) {
dev_err(chip->card->dev, "CLOCK_LIST too big: %d\n",
chip->clock.items);
return -EINVAL;
}
nitems = chip->clock.items;
nb_verbs = DIV_ROUND_UP(nitems, 4);
idx = 0;
idx_list = 0;
for (i = 0; i < nb_verbs; i++) {
unsigned int res_ex;
unsigned short items[4];
err = lola_codec_read(chip, nid, LOLA_VERB_GET_CLOCK_LIST,
idx, 0, &val, &res_ex);
if (err < 0) {
dev_err(chip->card->dev, "Can't read CLOCK_LIST\n");
return -EINVAL;
}
items[0] = val & 0xfff;
items[1] = (val >> 16) & 0xfff;
items[2] = res_ex & 0xfff;
items[3] = (res_ex >> 16) & 0xfff;
for (j = 0; j < 4; j++) {
unsigned char type = items[j] >> 8;
unsigned int freq = items[j] & 0xff;
int format = LOLA_CLOCK_FORMAT_NONE;
bool add_clock = true;
if (type == LOLA_CLOCK_TYPE_INTERNAL) {
freq = lola_sample_rate_convert(freq);
if (freq < chip->sample_rate_min)
add_clock = false;
else if (freq == 48000) {
chip->clock.cur_index = idx_list;
chip->clock.cur_freq = 48000;
chip->clock.cur_valid = true;
}
} else if (type == LOLA_CLOCK_TYPE_VIDEO) {
freq = lola_sample_rate_convert(freq);
if (freq < chip->sample_rate_min)
add_clock = false;
/* video clock has a format (0:NTSC, 1:PAL)*/
if (items[j] & 0x80)
format = LOLA_CLOCK_FORMAT_NTSC;
else
format = LOLA_CLOCK_FORMAT_PAL;
}
if (add_clock) {
struct lola_sample_clock *sc;
sc = &chip->clock.sample_clock[idx_list];
sc->type = type;
sc->format = format;
sc->freq = freq;
/* keep the index used with the board */
chip->clock.idx_lookup[idx_list] = idx;
idx_list++;
} else {
chip->clock.items--;
}
if (++idx >= nitems)
break;
}
}
return 0;
}
/* enable unsolicited events of the clock widget */
int lola_enable_clock_events(struct lola *chip)
{
unsigned int res;
int err;
err = lola_codec_read(chip, chip->clock.nid,
LOLA_VERB_SET_UNSOLICITED_ENABLE,
LOLA_UNSOLICITED_ENABLE | LOLA_UNSOLICITED_TAG,
0, &res, NULL);
if (err < 0)
return err;
if (res) {
dev_warn(chip->card->dev, "error in enable_clock_events %d\n",
res);
return -EINVAL;
}
return 0;
}
int lola_set_clock_index(struct lola *chip, unsigned int idx)
{
unsigned int res;
int err;
err = lola_codec_read(chip, chip->clock.nid,
LOLA_VERB_SET_CLOCK_SELECT,
chip->clock.idx_lookup[idx],
0, &res, NULL);
if (err < 0)
return err;
if (res) {
dev_warn(chip->card->dev, "error in set_clock %d\n", res);
return -EINVAL;
}
return 0;
}
bool lola_update_ext_clock_freq(struct lola *chip, unsigned int val)
{
unsigned int tag;
/* the current EXTERNAL clock information gets updated by interrupt
* with an unsolicited response
*/
if (!val)
return false;
tag = (val >> LOLA_UNSOL_RESP_TAG_OFFSET) & LOLA_UNSOLICITED_TAG_MASK;
if (tag != LOLA_UNSOLICITED_TAG)
return false;
/* only for current = external clocks */
if (chip->clock.sample_clock[chip->clock.cur_index].type !=
LOLA_CLOCK_TYPE_INTERNAL) {
chip->clock.cur_freq = lola_sample_rate_convert(val & 0x7f);
chip->clock.cur_valid = (val & 0x100) != 0;
}
return true;
}
int lola_set_clock(struct lola *chip, int idx)
{
int freq = 0;
bool valid = false;
if (idx == chip->clock.cur_index) {
/* current clock is allowed */
freq = chip->clock.cur_freq;
valid = chip->clock.cur_valid;
} else if (chip->clock.sample_clock[idx].type ==
LOLA_CLOCK_TYPE_INTERNAL) {
/* internal clocks allowed */
freq = chip->clock.sample_clock[idx].freq;
valid = true;
}
if (!freq || !valid)
return -EINVAL;
if (!check_gran_clock_compatibility(chip, chip->granularity, freq))
return -EINVAL;
if (idx != chip->clock.cur_index) {
int err = lola_set_clock_index(chip, idx);
if (err < 0)
return err;
/* update new settings */
chip->clock.cur_index = idx;
chip->clock.cur_freq = freq;
chip->clock.cur_valid = true;
}
return 0;
}
int lola_set_sample_rate(struct lola *chip, int rate)
{
int i;
if (chip->clock.cur_freq == rate && chip->clock.cur_valid)
return 0;
/* search for new dwClockIndex */
for (i = 0; i < chip->clock.items; i++) {
if (chip->clock.sample_clock[i].type == LOLA_CLOCK_TYPE_INTERNAL &&
chip->clock.sample_clock[i].freq == rate)
break;
}
if (i >= chip->clock.items)
return -EINVAL;
return lola_set_clock(chip, i);
}
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