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|
// SPDX-License-Identifier: GPL-2.0
//
// Helper routines for R-Car sound ADG.
//
// Copyright (C) 2013 Kuninori Morimoto <kuninori.morimoto.gx@renesas.com>
#include <linux/clk-provider.h>
#include <linux/clkdev.h>
#include "rsnd.h"
#define CLKA 0
#define CLKB 1
#define CLKC 2
#define CLKI 3
#define CLKINMAX 4
#define CLKOUT 0
#define CLKOUT1 1
#define CLKOUT2 2
#define CLKOUT3 3
#define CLKOUTMAX 4
#define BRRx_MASK(x) (0x3FF & x)
static struct rsnd_mod_ops adg_ops = {
.name = "adg",
};
#define ADG_HZ_441 0
#define ADG_HZ_48 1
#define ADG_HZ_SIZE 2
struct rsnd_adg {
struct clk *clkin[CLKINMAX];
struct clk *clkout[CLKOUTMAX];
struct clk *null_clk;
struct clk_onecell_data onecell;
struct rsnd_mod mod;
int clkin_rate[CLKINMAX];
int clkin_size;
int clkout_size;
u32 ckr;
u32 brga;
u32 brgb;
int brg_rate[ADG_HZ_SIZE]; /* BRGA / BRGB */
};
#define for_each_rsnd_clkin(pos, adg, i) \
for (i = 0; \
(i < adg->clkin_size) && \
((pos) = adg->clkin[i]); \
i++)
#define for_each_rsnd_clkout(pos, adg, i) \
for (i = 0; \
(i < adg->clkout_size) && \
((pos) = adg->clkout[i]); \
i++)
#define rsnd_priv_to_adg(priv) ((struct rsnd_adg *)(priv)->adg)
static const char * const clkin_name_gen4[] = {
[CLKA] = "clkin",
};
static const char * const clkin_name_gen2[] = {
[CLKA] = "clk_a",
[CLKB] = "clk_b",
[CLKC] = "clk_c",
[CLKI] = "clk_i",
};
static const char * const clkout_name_gen2[] = {
[CLKOUT] = "audio_clkout",
[CLKOUT1] = "audio_clkout1",
[CLKOUT2] = "audio_clkout2",
[CLKOUT3] = "audio_clkout3",
};
static u32 rsnd_adg_calculate_brgx(unsigned long div)
{
int i;
if (!div)
return 0;
for (i = 3; i >= 0; i--) {
int ratio = 2 << (i * 2);
if (0 == (div % ratio))
return (u32)((i << 8) | ((div / ratio) - 1));
}
return ~0;
}
static u32 rsnd_adg_ssi_ws_timing_gen2(struct rsnd_dai_stream *io)
{
struct rsnd_mod *ssi_mod = rsnd_io_to_mod_ssi(io);
int id = rsnd_mod_id(ssi_mod);
int ws = id;
if (rsnd_ssi_is_pin_sharing(io)) {
switch (id) {
case 1:
case 2:
case 9:
ws = 0;
break;
case 4:
ws = 3;
break;
case 8:
ws = 7;
break;
}
} else {
/*
* SSI8 is not connected to ADG.
* Thus SSI9 is using ws = 8
*/
if (id == 9)
ws = 8;
}
return (0x6 + ws) << 8;
}
static void __rsnd_adg_get_timesel_ratio(struct rsnd_priv *priv,
struct rsnd_dai_stream *io,
unsigned int target_rate,
unsigned int *target_val,
unsigned int *target_en)
{
struct rsnd_adg *adg = rsnd_priv_to_adg(priv);
struct device *dev = rsnd_priv_to_dev(priv);
int sel;
unsigned int val, en;
unsigned int min, diff;
unsigned int sel_rate[] = {
adg->clkin_rate[CLKA], /* 0000: CLKA */
adg->clkin_rate[CLKB], /* 0001: CLKB */
adg->clkin_rate[CLKC], /* 0010: CLKC */
adg->brg_rate[ADG_HZ_441], /* 0011: BRGA */
adg->brg_rate[ADG_HZ_48], /* 0100: BRGB */
};
min = ~0;
val = 0;
en = 0;
for (sel = 0; sel < ARRAY_SIZE(sel_rate); sel++) {
int idx = 0;
int step = 2;
int div;
if (!sel_rate[sel])
continue;
for (div = 2; div <= 98304; div += step) {
diff = abs(target_rate - sel_rate[sel] / div);
if (min > diff) {
val = (sel << 8) | idx;
min = diff;
en = 1 << (sel + 1); /* fixme */
}
/*
* step of 0_0000 / 0_0001 / 0_1101
* are out of order
*/
if ((idx > 2) && (idx % 2))
step *= 2;
if (idx == 0x1c) {
div += step;
step *= 2;
}
idx++;
}
}
if (min == ~0) {
dev_err(dev, "no Input clock\n");
return;
}
*target_val = val;
if (target_en)
*target_en = en;
}
static void rsnd_adg_get_timesel_ratio(struct rsnd_priv *priv,
struct rsnd_dai_stream *io,
unsigned int in_rate,
unsigned int out_rate,
u32 *in, u32 *out, u32 *en)
{
struct snd_pcm_runtime *runtime = rsnd_io_to_runtime(io);
unsigned int target_rate;
u32 *target_val;
u32 _in;
u32 _out;
u32 _en;
/* default = SSI WS */
_in =
_out = rsnd_adg_ssi_ws_timing_gen2(io);
target_rate = 0;
target_val = NULL;
_en = 0;
if (runtime->rate != in_rate) {
target_rate = out_rate;
target_val = &_out;
} else if (runtime->rate != out_rate) {
target_rate = in_rate;
target_val = &_in;
}
if (target_rate)
__rsnd_adg_get_timesel_ratio(priv, io,
target_rate,
target_val, &_en);
if (in)
*in = _in;
if (out)
*out = _out;
if (en)
*en = _en;
}
int rsnd_adg_set_cmd_timsel_gen2(struct rsnd_mod *cmd_mod,
struct rsnd_dai_stream *io)
{
struct rsnd_priv *priv = rsnd_mod_to_priv(cmd_mod);
struct rsnd_adg *adg = rsnd_priv_to_adg(priv);
struct rsnd_mod *adg_mod = rsnd_mod_get(adg);
int id = rsnd_mod_id(cmd_mod);
int shift = (id % 2) ? 16 : 0;
u32 mask, val;
rsnd_adg_get_timesel_ratio(priv, io,
rsnd_src_get_in_rate(priv, io),
rsnd_src_get_out_rate(priv, io),
NULL, &val, NULL);
val = val << shift;
mask = 0x0f1f << shift;
rsnd_mod_bset(adg_mod, CMDOUT_TIMSEL, mask, val);
return 0;
}
int rsnd_adg_set_src_timesel_gen2(struct rsnd_mod *src_mod,
struct rsnd_dai_stream *io,
unsigned int in_rate,
unsigned int out_rate)
{
struct rsnd_priv *priv = rsnd_mod_to_priv(src_mod);
struct rsnd_adg *adg = rsnd_priv_to_adg(priv);
struct rsnd_mod *adg_mod = rsnd_mod_get(adg);
u32 in, out;
u32 mask, en;
int id = rsnd_mod_id(src_mod);
int shift = (id % 2) ? 16 : 0;
rsnd_mod_make_sure(src_mod, RSND_MOD_SRC);
rsnd_adg_get_timesel_ratio(priv, io,
in_rate, out_rate,
&in, &out, &en);
in = in << shift;
out = out << shift;
mask = 0x0f1f << shift;
rsnd_mod_bset(adg_mod, SRCIN_TIMSEL(id / 2), mask, in);
rsnd_mod_bset(adg_mod, SRCOUT_TIMSEL(id / 2), mask, out);
if (en)
rsnd_mod_bset(adg_mod, DIV_EN, en, en);
return 0;
}
static void rsnd_adg_set_ssi_clk(struct rsnd_mod *ssi_mod, u32 val)
{
struct rsnd_priv *priv = rsnd_mod_to_priv(ssi_mod);
struct rsnd_adg *adg = rsnd_priv_to_adg(priv);
struct rsnd_mod *adg_mod = rsnd_mod_get(adg);
struct device *dev = rsnd_priv_to_dev(priv);
int id = rsnd_mod_id(ssi_mod);
int shift = (id % 4) * 8;
u32 mask = 0xFF << shift;
rsnd_mod_make_sure(ssi_mod, RSND_MOD_SSI);
val = val << shift;
/*
* SSI 8 is not connected to ADG.
* it works with SSI 7
*/
if (id == 8)
return;
rsnd_mod_bset(adg_mod, AUDIO_CLK_SEL(id / 4), mask, val);
dev_dbg(dev, "AUDIO_CLK_SEL is 0x%x\n", val);
}
int rsnd_adg_clk_query(struct rsnd_priv *priv, unsigned int rate)
{
struct rsnd_adg *adg = rsnd_priv_to_adg(priv);
struct clk *clk;
int i;
int sel_table[] = {
[CLKA] = 0x1,
[CLKB] = 0x2,
[CLKC] = 0x3,
[CLKI] = 0x0,
};
/*
* find suitable clock from
* AUDIO_CLKA/AUDIO_CLKB/AUDIO_CLKC/AUDIO_CLKI.
*/
for_each_rsnd_clkin(clk, adg, i)
if (rate == adg->clkin_rate[i])
return sel_table[i];
/*
* find divided clock from BRGA/BRGB
*/
if (rate == adg->brg_rate[ADG_HZ_441])
return 0x10;
if (rate == adg->brg_rate[ADG_HZ_48])
return 0x20;
return -EIO;
}
int rsnd_adg_ssi_clk_stop(struct rsnd_mod *ssi_mod)
{
rsnd_adg_set_ssi_clk(ssi_mod, 0);
return 0;
}
int rsnd_adg_ssi_clk_try_start(struct rsnd_mod *ssi_mod, unsigned int rate)
{
struct rsnd_priv *priv = rsnd_mod_to_priv(ssi_mod);
struct rsnd_adg *adg = rsnd_priv_to_adg(priv);
struct device *dev = rsnd_priv_to_dev(priv);
struct rsnd_mod *adg_mod = rsnd_mod_get(adg);
int data;
u32 ckr = 0;
data = rsnd_adg_clk_query(priv, rate);
if (data < 0)
return data;
rsnd_adg_set_ssi_clk(ssi_mod, data);
if (0 == (rate % 8000))
ckr = 0x80000000; /* BRGB output = 48kHz */
rsnd_mod_bset(adg_mod, BRGCKR, 0x80770000, adg->ckr | ckr);
dev_dbg(dev, "CLKOUT is based on BRG%c (= %dHz)\n",
(ckr) ? 'B' : 'A',
(ckr) ? adg->brg_rate[ADG_HZ_48] :
adg->brg_rate[ADG_HZ_441]);
return 0;
}
void rsnd_adg_clk_control(struct rsnd_priv *priv, int enable)
{
struct rsnd_adg *adg = rsnd_priv_to_adg(priv);
struct rsnd_mod *adg_mod = rsnd_mod_get(adg);
struct clk *clk;
int i;
if (enable) {
rsnd_mod_bset(adg_mod, BRGCKR, 0x80770000, adg->ckr);
rsnd_mod_write(adg_mod, BRRA, adg->brga);
rsnd_mod_write(adg_mod, BRRB, adg->brgb);
}
for_each_rsnd_clkin(clk, adg, i) {
if (enable) {
clk_prepare_enable(clk);
/*
* We shouldn't use clk_get_rate() under
* atomic context. Let's keep it when
* rsnd_adg_clk_enable() was called
*/
adg->clkin_rate[i] = clk_get_rate(clk);
} else {
clk_disable_unprepare(clk);
}
}
}
static struct clk *rsnd_adg_create_null_clk(struct rsnd_priv *priv,
const char * const name,
const char *parent)
{
struct device *dev = rsnd_priv_to_dev(priv);
struct clk *clk;
clk = clk_register_fixed_rate(dev, name, parent, 0, 0);
if (IS_ERR_OR_NULL(clk)) {
dev_err(dev, "create null clk error\n");
return ERR_CAST(clk);
}
return clk;
}
static struct clk *rsnd_adg_null_clk_get(struct rsnd_priv *priv)
{
struct rsnd_adg *adg = priv->adg;
if (!adg->null_clk) {
static const char * const name = "rsnd_adg_null";
adg->null_clk = rsnd_adg_create_null_clk(priv, name, NULL);
}
return adg->null_clk;
}
static void rsnd_adg_null_clk_clean(struct rsnd_priv *priv)
{
struct rsnd_adg *adg = priv->adg;
if (adg->null_clk)
clk_unregister_fixed_rate(adg->null_clk);
}
static int rsnd_adg_get_clkin(struct rsnd_priv *priv)
{
struct rsnd_adg *adg = priv->adg;
struct device *dev = rsnd_priv_to_dev(priv);
struct clk *clk;
const char * const *clkin_name;
int clkin_size;
int i;
clkin_name = clkin_name_gen2;
clkin_size = ARRAY_SIZE(clkin_name_gen2);
if (rsnd_is_gen4(priv)) {
clkin_name = clkin_name_gen4;
clkin_size = ARRAY_SIZE(clkin_name_gen4);
}
for (i = 0; i < clkin_size; i++) {
clk = devm_clk_get(dev, clkin_name[i]);
if (IS_ERR_OR_NULL(clk))
clk = rsnd_adg_null_clk_get(priv);
if (IS_ERR_OR_NULL(clk))
goto err;
adg->clkin[i] = clk;
}
adg->clkin_size = clkin_size;
return 0;
err:
dev_err(dev, "adg clock IN get failed\n");
rsnd_adg_null_clk_clean(priv);
return -EIO;
}
static void rsnd_adg_unregister_clkout(struct rsnd_priv *priv)
{
struct rsnd_adg *adg = priv->adg;
struct clk *clk;
int i;
for_each_rsnd_clkout(clk, adg, i)
clk_unregister_fixed_rate(clk);
}
static int rsnd_adg_get_clkout(struct rsnd_priv *priv)
{
struct rsnd_adg *adg = priv->adg;
struct clk *clk;
struct device *dev = rsnd_priv_to_dev(priv);
struct device_node *np = dev->of_node;
struct property *prop;
u32 ckr, brgx, brga, brgb;
u32 req_rate[ADG_HZ_SIZE] = {};
uint32_t count = 0;
unsigned long req_Hz[ADG_HZ_SIZE];
int clkout_size;
int i, req_size;
int approximate = 0;
const char *parent_clk_name = NULL;
const char * const *clkout_name;
int brg_table[] = {
[CLKA] = 0x0,
[CLKB] = 0x1,
[CLKC] = 0x4,
[CLKI] = 0x2,
};
ckr = 0;
brga = 0xff; /* default */
brgb = 0xff; /* default */
/*
* ADG supports BRRA/BRRB output only
* this means all clkout0/1/2/3 will be same rate
*/
prop = of_find_property(np, "clock-frequency", NULL);
if (!prop)
goto rsnd_adg_get_clkout_end;
req_size = prop->length / sizeof(u32);
if (req_size > ADG_HZ_SIZE) {
dev_err(dev, "too many clock-frequency\n");
return -EINVAL;
}
of_property_read_u32_array(np, "clock-frequency", req_rate, req_size);
req_Hz[ADG_HZ_48] = 0;
req_Hz[ADG_HZ_441] = 0;
for (i = 0; i < req_size; i++) {
if (0 == (req_rate[i] % 44100))
req_Hz[ADG_HZ_441] = req_rate[i];
if (0 == (req_rate[i] % 48000))
req_Hz[ADG_HZ_48] = req_rate[i];
}
/*
* This driver is assuming that AUDIO_CLKA/AUDIO_CLKB/AUDIO_CLKC
* have 44.1kHz or 48kHz base clocks for now.
*
* SSI itself can divide parent clock by 1/1 - 1/16
* see
* rsnd_adg_ssi_clk_try_start()
* rsnd_ssi_master_clk_start()
*/
/*
* [APPROXIMATE]
*
* clk_i (internal clock) can't create accurate rate, it will be approximate rate.
*
* <Note>
*
* clk_i needs x2 of required maximum rate.
* see
* - Minimum division of BRRA/BRRB
* - rsnd_ssi_clk_query()
*
* Sample Settings for TDM 8ch, 32bit width
*
* 8(ch) x 32(bit) x 44100(Hz) x 2<Note> = 22579200
* 8(ch) x 32(bit) x 48000(Hz) x 2<Note> = 24576000
*
* clock-frequency = <22579200 24576000>;
*/
for_each_rsnd_clkin(clk, adg, i) {
u32 rate, div;
rate = clk_get_rate(clk);
if (0 == rate) /* not used */
continue;
/* BRGA */
if (i == CLKI)
/* see [APPROXIMATE] */
rate = (clk_get_rate(clk) / req_Hz[ADG_HZ_441]) * req_Hz[ADG_HZ_441];
if (!adg->brg_rate[ADG_HZ_441] && req_Hz[ADG_HZ_441] && (0 == rate % 44100)) {
div = rate / req_Hz[ADG_HZ_441];
brgx = rsnd_adg_calculate_brgx(div);
if (BRRx_MASK(brgx) == brgx) {
brga = brgx;
adg->brg_rate[ADG_HZ_441] = rate / div;
ckr |= brg_table[i] << 20;
if (req_Hz[ADG_HZ_441])
parent_clk_name = __clk_get_name(clk);
if (i == CLKI)
approximate = 1;
}
}
/* BRGB */
if (i == CLKI)
/* see [APPROXIMATE] */
rate = (clk_get_rate(clk) / req_Hz[ADG_HZ_48]) * req_Hz[ADG_HZ_48];
if (!adg->brg_rate[ADG_HZ_48] && req_Hz[ADG_HZ_48] && (0 == rate % 48000)) {
div = rate / req_Hz[ADG_HZ_48];
brgx = rsnd_adg_calculate_brgx(div);
if (BRRx_MASK(brgx) == brgx) {
brgb = brgx;
adg->brg_rate[ADG_HZ_48] = rate / div;
ckr |= brg_table[i] << 16;
if (req_Hz[ADG_HZ_48])
parent_clk_name = __clk_get_name(clk);
if (i == CLKI)
approximate = 1;
}
}
}
if (!(adg->brg_rate[ADG_HZ_48] && req_Hz[ADG_HZ_48]) &&
!(adg->brg_rate[ADG_HZ_441] && req_Hz[ADG_HZ_441]))
goto rsnd_adg_get_clkout_end;
if (approximate)
dev_info(dev, "It uses CLK_I as approximate rate");
clkout_name = clkout_name_gen2;
clkout_size = ARRAY_SIZE(clkout_name_gen2);
if (rsnd_is_gen4(priv))
clkout_size = 1; /* reuse clkout_name_gen2[] */
/*
* ADG supports BRRA/BRRB output only.
* this means all clkout0/1/2/3 will be * same rate
*/
of_property_read_u32(np, "#clock-cells", &count);
/*
* for clkout
*/
if (!count) {
clk = clk_register_fixed_rate(dev, clkout_name[CLKOUT],
parent_clk_name, 0, req_rate[0]);
if (IS_ERR_OR_NULL(clk))
goto err;
adg->clkout[CLKOUT] = clk;
adg->clkout_size = 1;
of_clk_add_provider(np, of_clk_src_simple_get, clk);
}
/*
* for clkout0/1/2/3
*/
else {
for (i = 0; i < clkout_size; i++) {
clk = clk_register_fixed_rate(dev, clkout_name[i],
parent_clk_name, 0,
req_rate[0]);
if (IS_ERR_OR_NULL(clk))
goto err;
adg->clkout[i] = clk;
}
adg->onecell.clks = adg->clkout;
adg->onecell.clk_num = clkout_size;
adg->clkout_size = clkout_size;
of_clk_add_provider(np, of_clk_src_onecell_get,
&adg->onecell);
}
rsnd_adg_get_clkout_end:
adg->ckr = ckr;
adg->brga = brga;
adg->brgb = brgb;
return 0;
err:
dev_err(dev, "adg clock OUT get failed\n");
rsnd_adg_unregister_clkout(priv);
return -EIO;
}
#if defined(DEBUG) || defined(CONFIG_DEBUG_FS)
__printf(3, 4)
static void dbg_msg(struct device *dev, struct seq_file *m,
const char *fmt, ...)
{
char msg[128];
va_list args;
va_start(args, fmt);
vsnprintf(msg, sizeof(msg), fmt, args);
va_end(args);
if (m)
seq_puts(m, msg);
else
dev_dbg(dev, "%s", msg);
}
void rsnd_adg_clk_dbg_info(struct rsnd_priv *priv, struct seq_file *m)
{
struct rsnd_adg *adg = rsnd_priv_to_adg(priv);
struct device *dev = rsnd_priv_to_dev(priv);
struct clk *clk;
int i;
for_each_rsnd_clkin(clk, adg, i)
dbg_msg(dev, m, "%-18s : %pa : %ld\n",
__clk_get_name(clk), clk, clk_get_rate(clk));
dbg_msg(dev, m, "BRGCKR = 0x%08x, BRRA/BRRB = 0x%x/0x%x\n",
adg->ckr, adg->brga, adg->brgb);
dbg_msg(dev, m, "BRGA (for 44100 base) = %d\n", adg->brg_rate[ADG_HZ_441]);
dbg_msg(dev, m, "BRGB (for 48000 base) = %d\n", adg->brg_rate[ADG_HZ_48]);
/*
* Actual CLKOUT will be exchanged in rsnd_adg_ssi_clk_try_start()
* by BRGCKR::BRGCKR_31
*/
for_each_rsnd_clkout(clk, adg, i)
dbg_msg(dev, m, "%-18s : %pa : %ld\n",
__clk_get_name(clk), clk, clk_get_rate(clk));
}
#else
#define rsnd_adg_clk_dbg_info(priv, m)
#endif
int rsnd_adg_probe(struct rsnd_priv *priv)
{
struct rsnd_adg *adg;
struct device *dev = rsnd_priv_to_dev(priv);
int ret;
adg = devm_kzalloc(dev, sizeof(*adg), GFP_KERNEL);
if (!adg)
return -ENOMEM;
ret = rsnd_mod_init(priv, &adg->mod, &adg_ops,
NULL, 0, 0);
if (ret)
return ret;
priv->adg = adg;
ret = rsnd_adg_get_clkin(priv);
if (ret)
return ret;
ret = rsnd_adg_get_clkout(priv);
if (ret)
return ret;
rsnd_adg_clk_enable(priv);
rsnd_adg_clk_dbg_info(priv, NULL);
return 0;
}
void rsnd_adg_remove(struct rsnd_priv *priv)
{
struct device *dev = rsnd_priv_to_dev(priv);
struct device_node *np = dev->of_node;
rsnd_adg_unregister_clkout(priv);
of_clk_del_provider(np);
rsnd_adg_clk_disable(priv);
/* It should be called after rsnd_adg_clk_disable() */
rsnd_adg_null_clk_clean(priv);
}
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