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Kirill Smelkov
linux
Commits
3f250722
Commit
3f250722
authored
Sep 10, 2003
by
Benjamin Herrenschmidt
Browse files
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dmasound update from Christoph Hellwig
parent
875aeb35
Changes
16
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16 changed files
with
4640 additions
and
305 deletions
+4640
-305
sound/oss/dmasound/Kconfig
sound/oss/dmasound/Kconfig
+2
-2
sound/oss/dmasound/Makefile
sound/oss/dmasound/Makefile
+9
-4
sound/oss/dmasound/awacs_defs.h
sound/oss/dmasound/awacs_defs.h
+28
-6
sound/oss/dmasound/dac3550a.c
sound/oss/dmasound/dac3550a.c
+222
-0
sound/oss/dmasound/dmasound_awacs.c
sound/oss/dmasound/dmasound_awacs.c
+354
-293
sound/oss/dmasound/tas3001c.c
sound/oss/dmasound/tas3001c.c
+861
-0
sound/oss/dmasound/tas3001c.h
sound/oss/dmasound/tas3001c.h
+64
-0
sound/oss/dmasound/tas3001c_tables.c
sound/oss/dmasound/tas3001c_tables.c
+375
-0
sound/oss/dmasound/tas3004.c
sound/oss/dmasound/tas3004.c
+1124
-0
sound/oss/dmasound/tas3004.h
sound/oss/dmasound/tas3004.h
+77
-0
sound/oss/dmasound/tas3004_tables.c
sound/oss/dmasound/tas3004_tables.c
+301
-0
sound/oss/dmasound/tas_common.c
sound/oss/dmasound/tas_common.c
+212
-0
sound/oss/dmasound/tas_common.h
sound/oss/dmasound/tas_common.h
+284
-0
sound/oss/dmasound/tas_eq_prefs.h
sound/oss/dmasound/tas_eq_prefs.h
+24
-0
sound/oss/dmasound/tas_ioctl.h
sound/oss/dmasound/tas_ioctl.h
+24
-0
sound/oss/dmasound/trans_16.c
sound/oss/dmasound/trans_16.c
+679
-0
No files found.
sound/oss/dmasound/Kconfig
View file @
3f250722
...
@@ -12,9 +12,9 @@ config DMASOUND_ATARI
...
@@ -12,9 +12,9 @@ config DMASOUND_ATARI
want). If you want to compile it as a module, say M here and read
want). If you want to compile it as a module, say M here and read
<file:Documentation/modules.txt>.
<file:Documentation/modules.txt>.
config DMASOUND_
AWACS
config DMASOUND_
PMAC
tristate "PowerMac DMA sound support"
tristate "PowerMac DMA sound support"
depends on PPC_PMAC && SOUND
depends on PPC_PMAC && SOUND
&& I2C
help
help
If you want to use the internal audio of your PowerMac in Linux,
If you want to use the internal audio of your PowerMac in Linux,
answer Y to this question. This will provide a Sun-like /dev/audio,
answer Y to this question. This will provide a Sun-like /dev/audio,
...
...
sound/oss/dmasound/Makefile
View file @
3f250722
...
@@ -2,7 +2,12 @@
...
@@ -2,7 +2,12 @@
# Makefile for the DMA sound driver
# Makefile for the DMA sound driver
#
#
dmasound_pmac-y
+=
dmasound_awacs.o
\
trans_16.o dac3550a.o tas_common.o
\
tas3001c.o tas3001c_tables.o
\
tas3004.o tas3004_tables.o
obj-$(CONFIG_DMASOUND_ATARI)
+=
dmasound_core.o dmasound_atari.o
obj-$(CONFIG_DMASOUND_ATARI)
+=
dmasound_core.o dmasound_atari.o
obj-$(CONFIG_DMASOUND_
AWACS)
+=
dmasound_core.o dmasound_awacs
.o
obj-$(CONFIG_DMASOUND_
PMAC)
+=
dmasound_core.o dmasound_pmac
.o
obj-$(CONFIG_DMASOUND_PAULA)
+=
dmasound_core.o dmasound_paula.o
obj-$(CONFIG_DMASOUND_PAULA)
+=
dmasound_core.o dmasound_paula.o
obj-$(CONFIG_DMASOUND_Q40)
+=
dmasound_core.o dmasound_q40.o
obj-$(CONFIG_DMASOUND_Q40)
+=
dmasound_core.o dmasound_q40.o
sound/oss/dmasound/awacs_defs.h
View file @
3f250722
...
@@ -71,17 +71,20 @@ struct awacs_regs {
...
@@ -71,17 +71,20 @@ struct awacs_regs {
/* ------- - --- ----- - ------ */
/* ------- - --- ----- - ------ */
#define MASK_GAINRIGHT (0xf)
/* Gain Right Mask */
#define MASK_GAINRIGHT (0xf)
/* Gain Right Mask */
#define MASK_GAINLEFT (0xf << 4)
/* Gain Left Mask */
#define MASK_GAINLEFT (0xf << 4)
/* Gain Left Mask */
#define MASK_GAINLINE (0x1 << 8)
/*
Change Gain for Line???
*/
#define MASK_GAINLINE (0x1 << 8)
/*
Disable Mic preamp
*/
#define MASK_GAINMIC (0x0 << 8)
/*
Change Gain for Mic???
*/
#define MASK_GAINMIC (0x0 << 8)
/*
Enable Mic preamp
*/
#define MASK_MUX_CD (0x1 << 9)
/* Select CD in MUX */
#define MASK_MUX_CD (0x1 << 9)
/* Select CD in MUX */
#define MASK_MUX_
AUDIN (0x1 << 10)
/* Select Audio In
in MUX */
#define MASK_MUX_
MIC (0x1 << 10)
/* Select Mic
in MUX */
#define MASK_MUX_
MIC (0x1 << 11)
/* Select Mic
in MUX */
#define MASK_MUX_
AUDIN (0x1 << 11)
/* Select Audio In
in MUX */
#define MASK_MUX_LINE MASK_MUX_AUDIN
#define MASK_MUX_LINE MASK_MUX_AUDIN
#define GAINRIGHT(x) ((x) & MASK_GAINRIGHT)
#define GAINRIGHT(x) ((x) & MASK_GAINRIGHT)
#define GAINLEFT(x) (((x) << 4) & MASK_GAINLEFT)
#define GAINLEFT(x) (((x) << 4) & MASK_GAINLEFT)
#define DEF_CD_GAIN 0x00bb
#define DEF_MIC_GAIN 0x00cc
/* Address 1 Bit Masks */
/* Address 1 Bit Masks */
/* ------- - --- ----- */
/* ------- - --- ----- */
#define MASK_ADDR1RES1 (0x3)
/* Reserved */
#define MASK_ADDR1RES1 (0x3)
/* Reserved */
...
@@ -93,7 +96,10 @@ struct awacs_regs {
...
@@ -93,7 +96,10 @@ struct awacs_regs {
#define MASK_ADDR1RES2 (0x1 << 8)
/* Reserved */
#define MASK_ADDR1RES2 (0x1 << 8)
/* Reserved */
#define MASK_AMUTE (0x1 << 9)
/* Output A (Headphone) Mute when 1 */
#define MASK_AMUTE (0x1 << 9)
/* Output A (Headphone) Mute when 1 */
#define MASK_HDMUTE MASK_AMUTE
#define MASK_HDMUTE MASK_AMUTE
#define MASK_PAROUT (0x3 << 10)
/* Parallel Out (???) */
#define MASK_PAROUT0 (0x1 << 10)
/* Parallel Output 0 */
#define MASK_PAROUT1 (0x2 << 10)
/* Parallel Output 1 */
#define MASK_MIC_BOOST (0x4)
/* screamer mic boost */
#define SAMPLERATE_48000 (0x0 << 3)
/* 48 or 44.1 kHz */
#define SAMPLERATE_48000 (0x0 << 3)
/* 48 or 44.1 kHz */
#define SAMPLERATE_32000 (0x1 << 3)
/* 32 or 29.4 kHz */
#define SAMPLERATE_32000 (0x1 << 3)
/* 32 or 29.4 kHz */
...
@@ -162,8 +168,9 @@ struct awacs_regs {
...
@@ -162,8 +168,9 @@ struct awacs_regs {
#define RATE_LOW 1
/* HIGH = 48kHz, etc; LOW = 44.1kHz, etc. */
#define RATE_LOW 1
/* HIGH = 48kHz, etc; LOW = 44.1kHz, etc. */
/*******************/
/* Burgundy values */
/* Burgundy values */
/*******************/
#define MASK_ADDR_BURGUNDY_INPSEL21 (0x11 << 12)
#define MASK_ADDR_BURGUNDY_INPSEL21 (0x11 << 12)
#define MASK_ADDR_BURGUNDY_INPSEL3 (0x12 << 12)
#define MASK_ADDR_BURGUNDY_INPSEL3 (0x12 << 12)
...
@@ -226,4 +233,19 @@ struct awacs_regs {
...
@@ -226,4 +233,19 @@ struct awacs_regs {
#define DEF_BURGUNDY_ATTENLINEOUT (0xCC)
#define DEF_BURGUNDY_ATTENLINEOUT (0xCC)
#define DEF_BURGUNDY_ATTENHP (0xCC)
#define DEF_BURGUNDY_ATTENHP (0xCC)
/*********************/
/* i2s layout values */
/*********************/
#define I2S_REG_INT_CTL 0x00
#define I2S_REG_SERIAL_FORMAT 0x10
#define I2S_REG_CODEC_MSG_OUT 0x20
#define I2S_REG_CODEC_MSG_IN 0x30
#define I2S_REG_FRAME_COUNT 0x40
#define I2S_REG_FRAME_MATCH 0x50
#define I2S_REG_DATAWORD_SIZES 0x60
#define I2S_REG_PEAKLEVEL_SEL 0x70
#define I2S_REG_PEAKLEVEL_IN0 0x80
#define I2S_REG_PEAKLEVEL_IN1 0x90
#endif
/* _AWACS_DEFS_H_ */
#endif
/* _AWACS_DEFS_H_ */
sound/oss/dmasound/dac3550a.c
0 → 100644
View file @
3f250722
/*
* Driver for the i2c/i2s based DAC3550a sound chip used
* on some Apple iBooks. Also known as "DACA".
*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file COPYING in the main directory of this archive
* for more details.
*/
#include <linux/version.h>
#include <linux/module.h>
#include <linux/slab.h>
#include <linux/proc_fs.h>
#include <linux/ioport.h>
#include <linux/sysctl.h>
#include <linux/types.h>
#include <linux/i2c.h>
#include <linux/init.h>
#include <asm/uaccess.h>
#include <asm/errno.h>
#include <asm/io.h>
#include "dmasound.h"
/* FYI: This code was derived from the tas3001c.c Texas/Tumbler mixer
* control code, as well as info derived from the AppleDACAAudio driver
* from Darwin CVS (main thing I derived being register numbers and
* values, as well as when to make the calls). */
#define I2C_DRIVERID_DACA (0xFDCB)
#define DACA_VERSION "0.1"
#define DACA_DATE "20010930"
static
int
cur_left_vol
;
static
int
cur_right_vol
;
static
struct
i2c_client
*
daca_client
;
static
int
daca_attach_adapter
(
struct
i2c_adapter
*
adapter
);
static
int
daca_detect_client
(
struct
i2c_adapter
*
adapter
,
int
address
);
static
int
daca_detach_client
(
struct
i2c_client
*
client
);
/* Unique ID allocation */
static
int
daca_id
;
struct
daca_data
{
int
arf
;
/* place holder for furture use */
};
struct
i2c_driver
daca_driver
=
{
.
owner
=
THIS_MODULE
,
.
name
=
"DAC3550A driver V "
DACA_VERSION
,
.
id
=
I2C_DRIVERID_DACA
,
.
flags
=
I2C_DF_NOTIFY
,
.
attach_adapter
=
daca_attach_adapter
,
.
detach_client
=
daca_detach_client
,
};
#define VOL_MAX ((1<<20) - 1)
void
daca_get_volume
(
uint
*
left_vol
,
uint
*
right_vol
)
{
*
left_vol
=
cur_left_vol
>>
5
;
*
right_vol
=
cur_right_vol
>>
5
;
}
int
daca_set_volume
(
uint
left_vol
,
uint
right_vol
)
{
unsigned
short
voldata
;
if
(
!
daca_client
)
return
-
1
;
/* Derived from experience, not from any specific values */
left_vol
<<=
5
;
right_vol
<<=
5
;
if
(
left_vol
>
VOL_MAX
)
left_vol
=
VOL_MAX
;
if
(
right_vol
>
VOL_MAX
)
right_vol
=
VOL_MAX
;
voldata
=
((
left_vol
>>
14
)
&
0x3f
)
<<
8
;
voldata
|=
(
right_vol
>>
14
)
&
0x3f
;
if
(
i2c_smbus_write_word_data
(
daca_client
,
2
,
voldata
)
<
0
)
{
printk
(
"daca: failed to set volume
\n
"
);
return
-
1
;
}
cur_left_vol
=
left_vol
;
cur_right_vol
=
right_vol
;
return
0
;
}
int
daca_leave_sleep
(
void
)
{
if
(
!
daca_client
)
return
-
1
;
/* Do a short sleep, just to make sure I2C bus is awake and paying
* attention to us
*/
wait_ms
(
20
);
/* Write the sample rate reg the value it needs */
i2c_smbus_write_byte_data
(
daca_client
,
1
,
8
);
daca_set_volume
(
cur_left_vol
>>
5
,
cur_right_vol
>>
5
);
/* Another short delay, just to make sure the other I2C bus writes
* have taken...
*/
wait_ms
(
20
);
/* Write the global config reg - invert right power amp,
* DAC on, use 5-volt mode */
i2c_smbus_write_byte_data
(
daca_client
,
3
,
0x45
);
return
0
;
}
int
daca_enter_sleep
(
void
)
{
if
(
!
daca_client
)
return
-
1
;
i2c_smbus_write_byte_data
(
daca_client
,
1
,
8
);
daca_set_volume
(
cur_left_vol
>>
5
,
cur_right_vol
>>
5
);
/* Write the global config reg - invert right power amp,
* DAC on, enter low-power mode, use 5-volt mode
*/
i2c_smbus_write_byte_data
(
daca_client
,
3
,
0x65
);
return
0
;
}
static
int
daca_attach_adapter
(
struct
i2c_adapter
*
adapter
)
{
if
(
!
strncmp
(
adapter
->
name
,
"mac-io"
,
6
))
daca_detect_client
(
adapter
,
0x4d
);
return
0
;
}
static
int
daca_init_client
(
struct
i2c_client
*
new_client
)
{
/*
* Probe is not working with the current i2c-keywest
* driver. We try to use addr 0x4d on each adapters
* instead, by setting the format register.
*
* FIXME: I'm sure that can be obtained from the
* device-tree. --BenH.
*/
/* Write the global config reg - invert right power amp,
* DAC on, use 5-volt mode
*/
if
(
i2c_smbus_write_byte_data
(
new_client
,
3
,
0x45
))
return
-
1
;
i2c_smbus_write_byte_data
(
new_client
,
1
,
8
);
daca_client
=
new_client
;
daca_set_volume
(
15000
,
15000
);
return
0
;
}
static
int
daca_detect_client
(
struct
i2c_adapter
*
adapter
,
int
address
)
{
const
char
*
client_name
=
"DAC 3550A Digital Equalizer"
;
struct
i2c_client
*
new_client
;
struct
daca_data
*
data
;
int
rc
=
-
ENODEV
;
new_client
=
kmalloc
(
sizeof
(
*
new_client
)
+
sizeof
(
*
data
),
GFP_KERNEL
);
if
(
!
new_client
)
return
-
ENOMEM
;
new_client
->
addr
=
address
;
new_client
->
adapter
=
adapter
;
new_client
->
driver
=
&
daca_driver
;
new_client
->
flags
=
0
;
strcpy
(
new_client
->
name
,
client_name
);
new_client
->
id
=
daca_id
++
;
/* racy... */
data
=
(
struct
daca_data
*
)(
new_client
+
1
);
dev_set_drvdata
(
&
new_client
->
dev
,
data
);
if
(
daca_init_client
(
new_client
))
goto
bail
;
/* Tell the i2c layer a new client has arrived */
if
(
i2c_attach_client
(
new_client
))
goto
bail
;
return
0
;
bail:
kfree
(
new_client
);
return
rc
;
}
static
int
daca_detach_client
(
struct
i2c_client
*
client
)
{
if
(
client
==
daca_client
)
daca_client
=
NULL
;
i2c_detach_client
(
client
);
kfree
(
client
);
return
0
;
}
void
daca_cleanup
(
void
)
{
i2c_del_driver
(
&
daca_driver
);
}
int
daca_init
(
void
)
{
printk
(
"dac3550a driver version %s (%s)
\n
"
,
DACA_VERSION
,
DACA_DATE
);
return
i2c_add_driver
(
&
daca_driver
);
}
sound/oss/dmasound/dmasound_awacs.c
View file @
3f250722
...
@@ -45,7 +45,14 @@
...
@@ -45,7 +45,14 @@
* 01/02/2002 [0.7] - BenH
* 01/02/2002 [0.7] - BenH
* - all sort of minor bits went in since the latest update, I
* - all sort of minor bits went in since the latest update, I
* bumped the version number for that reason
* bumped the version number for that reason
*/
*
* 07/26/2002 [0.8] - BenH
* - More minor bits since last changelog (I should be more careful
* with those)
* - Support for snapper & better tumbler integration by Toby Sargeant
* - Headphone detect for scremer by Julien Blache
* - More tumbler fixed by Andreas Schwab
*/
/* GENERAL FIXME/TODO: check that the assumptions about what is written to
/* GENERAL FIXME/TODO: check that the assumptions about what is written to
mac-io is valid for DACA & Tumbler.
mac-io is valid for DACA & Tumbler.
...
@@ -68,6 +75,7 @@
...
@@ -68,6 +75,7 @@
#include <linux/irq.h>
#include <linux/irq.h>
#include <linux/spinlock.h>
#include <linux/spinlock.h>
#include <linux/kmod.h>
#include <linux/kmod.h>
#include <linux/interrupt.h>
#include <asm/semaphore.h>
#include <asm/semaphore.h>
#ifdef CONFIG_ADB_CUDA
#ifdef CONFIG_ADB_CUDA
#include <linux/cuda.h>
#include <linux/cuda.h>
...
@@ -89,10 +97,14 @@
...
@@ -89,10 +97,14 @@
#include "awacs_defs.h"
#include "awacs_defs.h"
#include "dmasound.h"
#include "dmasound.h"
#include "tas3001c.h"
#include "tas3004.h"
#include "tas_common.h"
#define DMASOUND_AWACS_REVISION 0
#define DMASOUND_AWACS_REVISION 0
#define DMASOUND_AWACS_EDITION 7
#define DMASOUND_AWACS_EDITION 7
#define AWACS_SNAPPER 110
/* fake revision # for snapper */
#define AWACS_BURGUNDY 100
/* fake revision # for burgundy */
#define AWACS_BURGUNDY 100
/* fake revision # for burgundy */
#define AWACS_TUMBLER 90
/* fake revision # for tumbler */
#define AWACS_TUMBLER 90
/* fake revision # for tumbler */
#define AWACS_DACA 80
/* fake revision # for daca (ibook) */
#define AWACS_DACA 80
/* fake revision # for daca (ibook) */
...
@@ -103,11 +115,13 @@
...
@@ -103,11 +115,13 @@
*/
*/
static
int
awacs_irq
,
awacs_tx_irq
,
awacs_rx_irq
;
static
int
awacs_irq
,
awacs_tx_irq
,
awacs_rx_irq
;
static
volatile
struct
awacs_regs
*
awacs
;
static
volatile
struct
awacs_regs
*
awacs
;
static
volatile
u32
*
i2s
;
static
volatile
struct
dbdma_regs
*
awacs_txdma
,
*
awacs_rxdma
;
static
volatile
struct
dbdma_regs
*
awacs_txdma
,
*
awacs_rxdma
;
static
int
awacs_rate_index
;
static
int
awacs_rate_index
;
static
int
awacs_subframe
;
static
int
awacs_subframe
;
static
int
awacs_spkr_vol
;
static
int
awacs_spkr_vol
;
static
struct
device_node
*
awacs_node
;
static
struct
device_node
*
awacs_node
;
static
struct
device_node
*
i2s_node
;
static
char
awacs_name
[
64
];
static
char
awacs_name
[
64
];
static
int
awacs_revision
;
static
int
awacs_revision
;
...
@@ -164,6 +178,8 @@ static int mic_lev;
...
@@ -164,6 +178,8 @@ static int mic_lev;
static
int
cd_lev
=
0x6363
;
/* 99 % */
static
int
cd_lev
=
0x6363
;
/* 99 % */
static
int
line_lev
;
static
int
line_lev
;
static
int
hdp_connected
;
/*
/*
* Stuff for outputting a beep. The values range from -327 to +327
* Stuff for outputting a beep. The values range from -327 to +327
* so we can multiply by an amplitude in the range 0..100 to get a
* so we can multiply by an amplitude in the range 0..100 to get a
...
@@ -215,7 +231,6 @@ static int awacs_beep_state;
...
@@ -215,7 +231,6 @@ static int awacs_beep_state;
static
short
*
beep_buf
;
static
short
*
beep_buf
;
static
void
*
beep_dbdma_cmd_space
;
static
void
*
beep_dbdma_cmd_space
;
static
volatile
struct
dbdma_cmd
*
beep_dbdma_cmd
;
static
volatile
struct
dbdma_cmd
*
beep_dbdma_cmd
;
static
void
(
*
orig_mksound
)(
unsigned
int
,
unsigned
int
);
/* Burgundy functions */
/* Burgundy functions */
static
void
awacs_burgundy_wcw
(
unsigned
addr
,
unsigned
newval
);
static
void
awacs_burgundy_wcw
(
unsigned
addr
,
unsigned
newval
);
...
@@ -286,25 +301,12 @@ extern TRANS transAwacsExpand ;
...
@@ -286,25 +301,12 @@ extern TRANS transAwacsExpand ;
extern
TRANS
transAwacsNormalRead
;
extern
TRANS
transAwacsNormalRead
;
extern
int
daca_init
(
void
);
extern
int
daca_init
(
void
);
extern
int
daca_cleanup
(
void
);
extern
void
daca_cleanup
(
void
);
extern
int
daca_set_volume
(
uint
left_vol
,
uint
right_vol
);
extern
int
daca_set_volume
(
uint
left_vol
,
uint
right_vol
);
extern
void
daca_get_volume
(
uint
*
left_vol
,
uint
*
right_vol
);
extern
void
daca_get_volume
(
uint
*
left_vol
,
uint
*
right_vol
);
extern
int
daca_enter_sleep
(
void
);
extern
int
daca_enter_sleep
(
void
);
extern
int
daca_leave_sleep
(
void
);
extern
int
daca_leave_sleep
(
void
);
extern
int
tas_init
(
void
);
extern
int
tas_cleanup
(
void
);
extern
int
tumbler_set_volume
(
uint
left_vol
,
uint
right_vol
);
extern
void
tumbler_get_volume
(
uint
*
left_vol
,
uint
*
right_vol
);
extern
void
tumbler_set_treble
(
int
treble
);
extern
void
tumbler_get_treble
(
int
*
treble
);
extern
void
tumbler_set_bass
(
int
bass
);
extern
void
tumbler_get_bass
(
int
*
bass
);
extern
void
tumbler_set_pcm_lvl
(
int
pcm_lvl
);
extern
void
tumbler_get_pcm_lvl
(
int
*
pcm_lvl
);
extern
int
tumbler_enter_sleep
(
void
);
extern
int
tumbler_leave_sleep
(
void
);
#define TRY_LOCK() \
#define TRY_LOCK() \
if ((rc = down_interruptible(&dmasound_sem)) != 0) \
if ((rc = down_interruptible(&dmasound_sem)) != 0) \
return rc;
return rc;
...
@@ -331,7 +333,7 @@ static inline int ioctl_return2(int *addr, int value)
...
@@ -331,7 +333,7 @@ static inline int ioctl_return2(int *addr, int value)
}
}
/*** AE - TUMBLER
START *********
************************************************/
/*** AE - TUMBLER
/ SNAPPER START
************************************************/
int
gpio_audio_reset
,
gpio_audio_reset_pol
;
int
gpio_audio_reset
,
gpio_audio_reset_pol
;
...
@@ -393,31 +395,35 @@ read_audio_gpio(int gpio_addr)
...
@@ -393,31 +395,35 @@ read_audio_gpio(int gpio_addr)
return
((
pmac_call_feature
(
PMAC_FTR_READ_GPIO
,
NULL
,
gpio_addr
,
0
)
&
0x02
)
!=
0
);
return
((
pmac_call_feature
(
PMAC_FTR_READ_GPIO
,
NULL
,
gpio_addr
,
0
)
&
0x02
)
!=
0
);
}
}
/*
* Headphone interrupt via GPIO (Tumbler, Snapper, DACA)
*/
static
irqreturn_t
static
irqreturn_t
headphone_intr
(
int
irq
,
void
*
devid
,
struct
pt_regs
*
regs
)
headphone_intr
(
int
irq
,
void
*
devid
,
struct
pt_regs
*
regs
)
{
{
int
handled
=
0
;
unsigned
long
flags
;
spin_lock
(
&
dmasound
.
lock
);
spin_lock_irqsave
(
&
dmasound
.
lock
,
flags
);
if
(
read_audio_gpio
(
gpio_headphone_detect
)
==
gpio_headphone_detect_pol
)
{
if
(
read_audio_gpio
(
gpio_headphone_detect
)
==
gpio_headphone_detect_pol
)
{
handled
=
1
;
printk
(
KERN_INFO
"Audio jack plugged, muting speakers.
\n
"
);
printk
(
KERN_INFO
"Audio jack plugged, muting speakers.
\n
"
);
write_audio_gpio
(
gpio_amp_mute
,
gpio_amp_mute_pol
);
write_audio_gpio
(
gpio_headphone_mute
,
!
gpio_headphone_mute_pol
);
write_audio_gpio
(
gpio_headphone_mute
,
!
gpio_headphone_mute_pol
);
write_audio_gpio
(
gpio_amp_mute
,
gpio_amp_mute_pol
);
tas_output_device_change
(
sound_device_id
,
TAS_OUTPUT_HEADPHONES
,
0
);
}
else
{
}
else
{
handled
=
1
;
printk
(
KERN_INFO
"Audio jack unplugged, enabling speakers.
\n
"
);
printk
(
KERN_INFO
"Audio jack unplugged, enabling speakers.
\n
"
);
write_audio_gpio
(
gpio_amp_mute
,
!
gpio_amp_mute_pol
);
write_audio_gpio
(
gpio_amp_mute
,
!
gpio_amp_mute_pol
);
write_audio_gpio
(
gpio_headphone_mute
,
gpio_headphone_mute_pol
);
write_audio_gpio
(
gpio_headphone_mute
,
gpio_headphone_mute_pol
);
tas_output_device_change
(
sound_device_id
,
TAS_OUTPUT_INTERNAL_SPKR
,
0
);
}
}
spin_unlock
(
&
dmasound
.
lock
);
spin_unlock
_irqrestore
(
&
dmasound
.
lock
,
flags
);
return
IRQ_
RETVAL
(
handled
)
;
return
IRQ_
HANDLED
;
}
}
/* Initialize tumbler */
/* Initialize tumbler */
static
int
static
int
awacs_tumbler
_init
(
void
)
tas_dmasound
_init
(
void
)
{
{
setup_audio_gpio
(
setup_audio_gpio
(
"audio-hw-reset"
,
"audio-hw-reset"
,
...
@@ -474,15 +480,124 @@ awacs_tumbler_init(void)
...
@@ -474,15 +480,124 @@ awacs_tumbler_init(void)
static
int
static
int
awacs_tumbler
_cleanup
(
void
)
tas_dmasound
_cleanup
(
void
)
{
{
if
(
gpio_headphone_irq
)
if
(
gpio_headphone_irq
)
free_irq
(
gpio_headphone_irq
,
0
);
free_irq
(
gpio_headphone_irq
,
0
);
return
0
;
return
0
;
}
}
/* We don't support 48k yet */
static
int
tas_freqs
[
1
]
=
{
44100
}
;
static
int
tas_freqs_ok
[
1
]
=
{
1
}
;
/* don't know what to do really - just have to leave it where
* OF left things
*/
static
int
tas_set_frame_rate
(
void
)
{
if
(
i2s
)
{
out_le32
(
i2s
+
(
I2S_REG_SERIAL_FORMAT
>>
2
),
0x41190000
);
out_le32
(
i2s
+
(
I2S_REG_DATAWORD_SIZES
>>
2
),
0x02000200
);
}
dmasound
.
hard
.
speed
=
44100
;
awacs_rate_index
=
0
;
return
44100
;
}
static
int
tas_mixer_ioctl
(
u_int
cmd
,
u_long
arg
)
{
int
data
;
int
rc
;
/*** AE - TUMBLER END *********************************************************/
rc
=
tas_device_ioctl
(
cmd
,
arg
);
if
(
rc
!=
-
EINVAL
)
{
return
rc
;
}
if
((
cmd
&
~
0xff
)
==
MIXER_WRITE
(
0
)
&&
tas_supported_mixers
()
&
(
1
<<
(
cmd
&
0xff
)))
{
rc
=
get_user
(
data
,
(
int
*
)(
arg
));
if
(
rc
<
0
)
return
rc
;
tas_set_mixer_level
(
cmd
&
0xff
,
data
);
tas_get_mixer_level
(
cmd
&
0xff
,
&
data
);
return
ioctl_return2
((
int
*
)(
arg
),
data
);
}
if
((
cmd
&
~
0xff
)
==
MIXER_READ
(
0
)
&&
tas_supported_mixers
()
&
(
1
<<
(
cmd
&
0xff
)))
{
tas_get_mixer_level
(
cmd
&
0xff
,
&
data
);
return
ioctl_return2
((
int
*
)(
arg
),
data
);
}
switch
(
cmd
)
{
case
SOUND_MIXER_READ_DEVMASK
:
data
=
tas_supported_mixers
()
|
SOUND_MASK_SPEAKER
;
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_READ_STEREODEVS
:
data
=
tas_stereo_mixers
();
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_READ_CAPS
:
rc
=
IOCTL_OUT
(
arg
,
0
);
break
;
case
SOUND_MIXER_READ_RECMASK
:
data
=
0
;
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_READ_RECSRC
:
data
=
0
;
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_WRITE_RECSRC
:
IOCTL_IN
(
arg
,
data
);
data
=
0
;
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_WRITE_SPEAKER
:
/* really bell volume */
IOCTL_IN
(
arg
,
data
);
beep_vol
=
data
&
0xff
;
/* fall through */
case
SOUND_MIXER_READ_SPEAKER
:
rc
=
IOCTL_OUT
(
arg
,
(
beep_vol
<<
8
)
|
beep_vol
);
break
;
case
SOUND_MIXER_OUTMASK
:
case
SOUND_MIXER_OUTSRC
:
default:
rc
=
-
EINVAL
;
}
return
rc
;
}
static
void
__init
tas_init_frame_rates
(
unsigned
int
*
prop
,
unsigned
int
l
)
{
int
i
;
if
(
prop
)
{
for
(
i
=
0
;
i
<
1
;
i
++
)
tas_freqs_ok
[
i
]
=
0
;
for
(
l
/=
sizeof
(
int
);
l
>
0
;
--
l
)
{
unsigned
int
r
=
*
prop
++
;
/* Apple 'Fixed' format */
if
(
r
>=
0x10000
)
r
>>=
16
;
for
(
i
=
0
;
i
<
1
;
++
i
)
{
if
(
r
==
tas_freqs
[
i
])
{
tas_freqs_ok
[
i
]
=
1
;
break
;
}
}
}
}
/* else we assume that all the rates are available */
}
/*** AE - TUMBLER / SNAPPER END ************************************************/
...
@@ -503,8 +618,10 @@ static void PMacFree(void *ptr, unsigned int size)
...
@@ -503,8 +618,10 @@ static void PMacFree(void *ptr, unsigned int size)
static
int
__init
PMacIrqInit
(
void
)
static
int
__init
PMacIrqInit
(
void
)
{
{
if
(
request_irq
(
awacs_irq
,
pmac_awacs_intr
,
0
,
"Built-in Sound misc"
,
0
)
if
(
awacs
)
||
request_irq
(
awacs_tx_irq
,
pmac_awacs_tx_intr
,
0
,
"Built-in Sound out"
,
0
)
if
(
request_irq
(
awacs_irq
,
pmac_awacs_intr
,
0
,
"Built-in Sound misc"
,
0
))
return
0
;
if
(
request_irq
(
awacs_tx_irq
,
pmac_awacs_tx_intr
,
0
,
"Built-in Sound out"
,
0
)
||
request_irq
(
awacs_rx_irq
,
pmac_awacs_rx_intr
,
0
,
"Built-in Sound in"
,
0
))
||
request_irq
(
awacs_rx_irq
,
pmac_awacs_rx_intr
,
0
,
"Built-in Sound in"
,
0
))
return
0
;
return
0
;
return
1
;
return
1
;
...
@@ -517,23 +634,28 @@ static void PMacIrqCleanup(void)
...
@@ -517,23 +634,28 @@ static void PMacIrqCleanup(void)
DBDMA_DO_STOP
(
awacs_txdma
);
DBDMA_DO_STOP
(
awacs_txdma
);
DBDMA_DO_STOP
(
awacs_rxdma
);
DBDMA_DO_STOP
(
awacs_rxdma
);
if
(
awacs
)
/* disable interrupts from awacs interface */
/* disable interrupts from awacs interface */
out_le32
(
&
awacs
->
control
,
in_le32
(
&
awacs
->
control
)
&
0xfff
);
out_le32
(
&
awacs
->
control
,
in_le32
(
&
awacs
->
control
)
&
0xfff
);
/* Switch off the sound clock */
/* Switch off the sound clock */
pmac_call_feature
(
PMAC_FTR_SOUND_CHIP_ENABLE
,
awacs_node
,
0
,
0
);
pmac_call_feature
(
PMAC_FTR_SOUND_CHIP_ENABLE
,
awacs_node
,
0
,
0
);
/* Make sure proper bits are set on pismo & tipb */
/* Make sure proper bits are set on pismo & tipb */
if
(
machine_is_compatible
(
"PowerBook3,1"
)
||
if
(
(
machine_is_compatible
(
"PowerBook3,1"
)
||
machine_is_compatible
(
"PowerBook3,2"
))
{
machine_is_compatible
(
"PowerBook3,2"
))
&&
awacs
)
{
awacs_reg
[
1
]
|=
MASK_PAROUT0
|
MASK_PAROUT1
;
awacs_reg
[
1
]
|=
MASK_PAROUT0
|
MASK_PAROUT1
;
awacs_write
(
MASK_ADDR1
|
awacs_reg
[
1
]);
awacs_write
(
MASK_ADDR1
|
awacs_reg
[
1
]);
wait_ms
(
200
);
wait_ms
(
200
);
}
}
if
(
awacs
)
free_irq
(
awacs_irq
,
0
);
free_irq
(
awacs_irq
,
0
);
free_irq
(
awacs_tx_irq
,
0
);
free_irq
(
awacs_tx_irq
,
0
);
free_irq
(
awacs_rx_irq
,
0
);
free_irq
(
awacs_rx_irq
,
0
);
/* all OF versions I've seen use this value */
if
(
awacs
)
iounmap
((
void
*
)
awacs
);
iounmap
((
void
*
)
awacs
);
if
(
i2s
)
iounmap
((
void
*
)
i2s
);
iounmap
((
void
*
)
awacs_txdma
);
iounmap
((
void
*
)
awacs_txdma
);
iounmap
((
void
*
)
awacs_rxdma
);
iounmap
((
void
*
)
awacs_rxdma
);
...
@@ -547,10 +669,8 @@ static void PMacIrqCleanup(void)
...
@@ -547,10 +669,8 @@ static void PMacIrqCleanup(void)
kfree
(
awacs_rx_cmd_space
);
kfree
(
awacs_rx_cmd_space
);
if
(
beep_dbdma_cmd_space
)
if
(
beep_dbdma_cmd_space
)
kfree
(
beep_dbdma_cmd_space
);
kfree
(
beep_dbdma_cmd_space
);
if
(
beep_buf
)
{
if
(
beep_buf
)
kfree
(
beep_buf
);
kfree
(
beep_buf
);
kd_mksound
=
orig_mksound
;
}
#ifdef CONFIG_PMAC_PBOOK
#ifdef CONFIG_PMAC_PBOOK
pmu_unregister_sleep_notifier
(
&
awacs_sleep_notifier
);
pmu_unregister_sleep_notifier
(
&
awacs_sleep_notifier
);
#endif
#endif
...
@@ -563,26 +683,16 @@ static void PMacSilence(void)
...
@@ -563,26 +683,16 @@ static void PMacSilence(void)
DBDMA_DO_STOP
(
awacs_txdma
);
DBDMA_DO_STOP
(
awacs_txdma
);
}
}
static
int
tumbler_freqs
[
2
]
=
{
48000
,
44100
}
;
static
int
tumbler_freqs_ok
[
2
]
=
{
1
,
1
}
;
/* don't know what to do really - just have to leave it where
* OF left things
*/
static
int
tumbler_set_frame_rate
(
void
)
{
dmasound
.
hard
.
speed
=
44100
;
awacs_rate_index
=
0
;
return
44100
;
}
/* don't know what to do really - just have to leave it where
/* don't know what to do really - just have to leave it where
* OF left things
* OF left things
*/
*/
static
int
daca_set_frame_rate
(
void
)
static
int
daca_set_frame_rate
(
void
)
{
{
if
(
i2s
)
{
out_le32
(
i2s
+
(
I2S_REG_SERIAL_FORMAT
>>
2
),
0x41190000
);
out_le32
(
i2s
+
(
I2S_REG_DATAWORD_SIZES
>>
2
),
0x02000200
);
}
dmasound
.
hard
.
speed
=
44100
;
dmasound
.
hard
.
speed
=
44100
;
awacs_rate_index
=
0
;
awacs_rate_index
=
0
;
return
44100
;
return
44100
;
...
@@ -593,7 +703,8 @@ static int awacs_freqs[8] = {
...
@@ -593,7 +703,8 @@ static int awacs_freqs[8] = {
};
};
static
int
awacs_freqs_ok
[
8
]
=
{
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
};
static
int
awacs_freqs_ok
[
8
]
=
{
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
};
static
int
awacs_set_frame_rate
(
int
desired
,
int
catch_r
)
static
int
awacs_set_frame_rate
(
int
desired
,
int
catch_r
)
{
{
int
tolerance
,
i
=
8
;
int
tolerance
,
i
=
8
;
/*
/*
...
@@ -617,13 +728,9 @@ static int awacs_set_frame_rate(int desired, int catch_r)
...
@@ -617,13 +728,9 @@ static int awacs_set_frame_rate(int desired, int catch_r)
return
dmasound
.
hard
.
speed
;
return
dmasound
.
hard
.
speed
;
}
}
static
int
burgundy_frame_rates
=
1
;
static
int
static
int
burgundy_set_frame_rate
(
void
)
burgundy_set_frame_rate
(
void
)
{
{
#ifdef DEBUG_DMASOUND
if
(
burgundy_frame_rates
>
1
)
printk
(
"dmasound_pmac: warning Burgundy had more than one frame rate
\n
"
);
#endif
awacs_rate_index
=
0
;
awacs_rate_index
=
0
;
awacs_reg
[
1
]
=
(
awacs_reg
[
1
]
&
~
MASK_SAMPLERATE
)
;
awacs_reg
[
1
]
=
(
awacs_reg
[
1
]
&
~
MASK_SAMPLERATE
)
;
/* XXX disable error interrupt on burgundy for now */
/* XXX disable error interrupt on burgundy for now */
...
@@ -631,24 +738,24 @@ if (burgundy_frame_rates > 1)
...
@@ -631,24 +738,24 @@ if (burgundy_frame_rates > 1)
return
44100
;
return
44100
;
}
}
static
int
set_frame_rate
(
int
desired
,
int
catch_r
)
static
int
set_frame_rate
(
int
desired
,
int
catch_r
)
{
{
switch
(
awacs_revision
)
{
switch
(
awacs_revision
)
{
case
AWACS_BURGUNDY
:
case
AWACS_BURGUNDY
:
dmasound
.
hard
.
speed
=
dmasound
.
hard
.
speed
=
burgundy_set_frame_rate
();
burgundy_set_frame_rate
();
break
;
break
;
case
AWACS_TUMBLER
:
case
AWACS_TUMBLER
:
dmasound
.
hard
.
speed
=
case
AWACS_SNAPPER
:
tumbler
_set_frame_rate
();
dmasound
.
hard
.
speed
=
tas
_set_frame_rate
();
break
;
break
;
case
AWACS_DACA
:
case
AWACS_DACA
:
dmasound
.
hard
.
speed
=
dmasound
.
hard
.
speed
=
daca_set_frame_rate
();
daca_set_frame_rate
();
break
;
break
;
default:
default:
dmasound
.
hard
.
speed
=
dmasound
.
hard
.
speed
=
awacs_set_frame_rate
(
desired
,
awacs_set_frame_rate
(
desired
,
catch_r
);
catch_r
);
break
;
break
;
}
}
return
dmasound
.
hard
.
speed
;
return
dmasound
.
hard
.
speed
;
...
@@ -698,10 +805,12 @@ static void PMacInit(void)
...
@@ -698,10 +805,12 @@ static void PMacInit(void)
dmasound
.
trans_write
=
&
transAwacsExpand
;
dmasound
.
trans_write
=
&
transAwacsExpand
;
dmasound
.
trans_read
=
&
transAwacsNormalRead
;
dmasound
.
trans_read
=
&
transAwacsNormalRead
;
if
(
awacs
)
{
if
(
hw_can_byteswap
&&
(
dmasound
.
hard
.
format
==
AFMT_S16_LE
))
if
(
hw_can_byteswap
&&
(
dmasound
.
hard
.
format
==
AFMT_S16_LE
))
out_le32
(
&
awacs
->
byteswap
,
BS_VAL
);
out_le32
(
&
awacs
->
byteswap
,
BS_VAL
);
else
else
out_le32
(
&
awacs
->
byteswap
,
0
);
out_le32
(
&
awacs
->
byteswap
,
0
);
}
expand_bal
=
-
dmasound
.
soft
.
speed
;
expand_bal
=
-
dmasound
.
soft
.
speed
;
}
}
...
@@ -787,18 +896,28 @@ static int awacs_volume_setter(int volume, int n, int mute, int lshift)
...
@@ -787,18 +896,28 @@ static int awacs_volume_setter(int volume, int n, int mute, int lshift)
static
int
PMacSetVolume
(
int
volume
)
static
int
PMacSetVolume
(
int
volume
)
{
{
return
awacs_volume_setter
(
volume
,
2
,
MASK_AMUTE
,
6
);
printk
(
KERN_WARNING
"Bogus call to PMacSetVolume !
\n
"
);
return
0
;
}
}
static
void
awacs_setup_for_beep
(
int
speed
)
{
out_le32
(
&
awacs
->
control
,
(
in_le32
(
&
awacs
->
control
)
&
~
0x1f00
)
|
((
speed
>
0
?
speed
:
awacs_rate_index
)
<<
8
));
if
(
hw_can_byteswap
&&
(
dmasound
.
hard
.
format
==
AFMT_S16_LE
)
&&
speed
==
-
1
)
out_le32
(
&
awacs
->
byteswap
,
BS_VAL
);
else
out_le32
(
&
awacs
->
byteswap
,
0
);
}
/* CHECK: how much of this *really* needs IRQs masked? */
static
void
__PMacPlay
(
void
)
static
void
__PMacPlay
(
void
)
{
{
volatile
struct
dbdma_cmd
*
cp
;
volatile
struct
dbdma_cmd
*
cp
;
int
next_frg
,
count
;
int
next_frg
,
count
;
unsigned
long
flags
;
/* CHECK: how much of this *really* needs IRQs masked? */
spin_lock_irqsave
(
&
dmasound
.
lock
,
flags
);
count
=
300
;
/* > two cycles at the lowest sample rate */
count
=
300
;
/* > two cycles at the lowest sample rate */
/* what we want to send next */
/* what we want to send next */
...
@@ -810,15 +929,8 @@ static void __PMacPlay(void)
...
@@ -810,15 +929,8 @@ static void __PMacPlay(void)
out_le32
(
&
awacs_txdma
->
control
,
(
RUN
|
PAUSE
|
FLUSH
|
WAKE
)
<<
16
);
out_le32
(
&
awacs_txdma
->
control
,
(
RUN
|
PAUSE
|
FLUSH
|
WAKE
)
<<
16
);
while
(
(
in_le32
(
&
awacs_txdma
->
status
)
&
RUN
)
&&
count
--
)
while
(
(
in_le32
(
&
awacs_txdma
->
status
)
&
RUN
)
&&
count
--
)
udelay
(
1
);
udelay
(
1
);
/* FIXME: check that this is OK for other chip sets */
if
(
awacs
)
out_le32
(
&
awacs
->
control
,
awacs_setup_for_beep
(
-
1
);
(
in_le32
(
&
awacs
->
control
)
&
~
0x1f00
)
|
(
awacs_rate_index
<<
8
));
if
(
hw_can_byteswap
&&
(
dmasound
.
hard
.
format
==
AFMT_S16_LE
))
out_le32
(
&
awacs
->
byteswap
,
BS_VAL
);
else
out_le32
(
&
awacs
->
byteswap
,
0
);
out_le32
(
&
awacs_txdma
->
cmdptr
,
out_le32
(
&
awacs_txdma
->
cmdptr
,
virt_to_bus
(
&
(
awacs_tx_cmds
[
next_frg
])));
virt_to_bus
(
&
(
awacs_tx_cmds
[
next_frg
])));
...
@@ -865,14 +977,18 @@ static void __PMacPlay(void)
...
@@ -865,14 +977,18 @@ static void __PMacPlay(void)
out_le32
(
&
awacs_txdma
->
control
,
((
RUN
|
WAKE
)
<<
16
)
+
(
RUN
|
WAKE
));
out_le32
(
&
awacs_txdma
->
control
,
((
RUN
|
WAKE
)
<<
16
)
+
(
RUN
|
WAKE
));
++
write_sq
.
active
;
++
write_sq
.
active
;
}
}
spin_unlock_irqrestore
(
&
dmasound
.
lock
,
flags
);
}
}
static
void
PMacPlay
(
void
)
static
void
PMacPlay
(
void
)
{
{
LOCK
();
LOCK
();
if
(
!
awacs_sleeping
)
if
(
!
awacs_sleeping
)
{
unsigned
long
flags
;
spin_lock_irqsave
(
&
dmasound
.
lock
,
flags
);
__PMacPlay
();
__PMacPlay
();
spin_unlock_irqrestore
(
&
dmasound
.
lock
,
flags
);
}
UNLOCK
();
UNLOCK
();
}
}
...
@@ -919,6 +1035,7 @@ pmac_awacs_tx_intr(int irq, void *devid, struct pt_regs *regs)
...
@@ -919,6 +1035,7 @@ pmac_awacs_tx_intr(int irq, void *devid, struct pt_regs *regs)
{
{
int
i
=
write_sq
.
front
;
int
i
=
write_sq
.
front
;
int
stat
;
int
stat
;
int
i_nowrap
=
write_sq
.
front
;
volatile
struct
dbdma_cmd
*
cp
;
volatile
struct
dbdma_cmd
*
cp
;
/* != 0 when we are dealing with a DEAD xfer */
/* != 0 when we are dealing with a DEAD xfer */
static
int
emergency_in_use
;
static
int
emergency_in_use
;
...
@@ -976,6 +1093,7 @@ printk("dmasound_pmac: tx-irq: xfer died - patching it up...\n") ;
...
@@ -976,6 +1093,7 @@ printk("dmasound_pmac: tx-irq: xfer died - patching it up...\n") ;
emergency_in_use
=
0
;
/* done that */
emergency_in_use
=
0
;
/* done that */
--
write_sq
.
count
;
--
write_sq
.
count
;
--
write_sq
.
active
;
--
write_sq
.
active
;
i_nowrap
++
;
if
(
++
i
>=
write_sq
.
max_count
)
if
(
++
i
>=
write_sq
.
max_count
)
i
=
0
;
i
=
0
;
}
}
...
@@ -988,7 +1106,7 @@ printk("dmasound_pmac: tx-irq: xfer died - patching it up...\n") ;
...
@@ -988,7 +1106,7 @@ printk("dmasound_pmac: tx-irq: xfer died - patching it up...\n") ;
}
}
/* if we used some data up then wake the writer to supply some more*/
/* if we used some data up then wake the writer to supply some more*/
if
(
i
!=
write_sq
.
front
)
if
(
i
_nowrap
!=
write_sq
.
front
)
WAKE_UP
(
write_sq
.
action_queue
);
WAKE_UP
(
write_sq
.
action_queue
);
write_sq
.
front
=
i
;
write_sq
.
front
=
i
;
...
@@ -1091,11 +1209,30 @@ static irqreturn_t
...
@@ -1091,11 +1209,30 @@ static irqreturn_t
pmac_awacs_intr
(
int
irq
,
void
*
devid
,
struct
pt_regs
*
regs
)
pmac_awacs_intr
(
int
irq
,
void
*
devid
,
struct
pt_regs
*
regs
)
{
{
int
ctrl
;
int
ctrl
;
int
status
;
int
r1
;
spin_lock
(
&
dmasound
.
lock
);
spin_lock
(
&
dmasound
.
lock
);
ctrl
=
in_le32
(
&
awacs
->
control
);
ctrl
=
in_le32
(
&
awacs
->
control
);
status
=
in_le32
(
&
awacs
->
codec_stat
);
if
(
ctrl
&
MASK_PORTCHG
)
{
if
(
ctrl
&
MASK_PORTCHG
)
{
/* do something when headphone is plugged/unplugged? */
/* tested on Screamer, should work on others too */
if
(
awacs_revision
==
AWACS_SCREAMER
)
{
if
(((
status
&
MASK_HDPCONN
)
>>
3
)
&&
(
hdp_connected
==
0
))
{
hdp_connected
=
1
;
r1
=
awacs_reg
[
1
]
|
MASK_SPKMUTE
;
awacs_reg
[
1
]
=
r1
;
awacs_write
(
r1
|
MASK_ADDR_MUTE
);
}
else
if
(((
status
&
MASK_HDPCONN
)
>>
3
==
0
)
&&
(
hdp_connected
==
1
))
{
hdp_connected
=
0
;
r1
=
awacs_reg
[
1
]
&
~
MASK_SPKMUTE
;
awacs_reg
[
1
]
=
r1
;
awacs_write
(
r1
|
MASK_ADDR_MUTE
);
}
}
}
}
if
(
ctrl
&
MASK_CNTLERR
)
{
if
(
ctrl
&
MASK_CNTLERR
)
{
int
err
=
(
in_le32
(
&
awacs
->
codec_stat
)
&
MASK_ERRCODE
)
>>
16
;
int
err
=
(
in_le32
(
&
awacs
->
codec_stat
)
&
MASK_ERRCODE
)
>>
16
;
...
@@ -1113,7 +1250,7 @@ static void
...
@@ -1113,7 +1250,7 @@ static void
awacs_write
(
int
val
)
awacs_write
(
int
val
)
{
{
int
count
=
300
;
int
count
=
300
;
if
(
awacs_revision
>=
AWACS_DACA
)
if
(
awacs_revision
>=
AWACS_DACA
||
!
awacs
)
return
;
return
;
while
((
in_le32
(
&
awacs
->
codec_ctrl
)
&
MASK_NEWECMD
)
&&
count
--
)
while
((
in_le32
(
&
awacs
->
codec_ctrl
)
&
MASK_NEWECMD
)
&&
count
--
)
...
@@ -1136,22 +1273,16 @@ static void awacs_nosound(unsigned long xx)
...
@@ -1136,22 +1273,16 @@ static void awacs_nosound(unsigned long xx)
out_le32
(
&
awacs_txdma
->
control
,
(
RUN
|
PAUSE
|
FLUSH
|
WAKE
)
<<
16
);
out_le32
(
&
awacs_txdma
->
control
,
(
RUN
|
PAUSE
|
FLUSH
|
WAKE
)
<<
16
);
while
((
in_le32
(
&
awacs_txdma
->
status
)
&
RUN
)
&&
count
--
)
while
((
in_le32
(
&
awacs_txdma
->
status
)
&
RUN
)
&&
count
--
)
udelay
(
1
);
udelay
(
1
);
/* FIXME: check this is OK for DACA, Tumbler */
if
(
awacs
)
out_le32
(
&
awacs
->
control
,
awacs_setup_for_beep
(
-
1
);
(
in_le32
(
&
awacs
->
control
)
&
~
0x1f00
)
|
(
awacs_rate_index
<<
8
));
if
(
hw_can_byteswap
&&
(
dmasound
.
hard
.
format
==
AFMT_S16_LE
))
out_le32
(
&
awacs
->
byteswap
,
BS_VAL
);
else
out_le32
(
&
awacs
->
byteswap
,
0
);
beep_playing
=
0
;
beep_playing
=
0
;
}
}
spin_unlock_irqrestore
(
&
dmasound
.
lock
,
flags
);
spin_unlock_irqrestore
(
&
dmasound
.
lock
,
flags
);
}
}
static
struct
timer_list
beep_timer
=
TIMER_INITIALIZER
(
awacs_nosound
,
0
,
0
);
static
struct
timer_list
beep_timer
=
TIMER_INITIALIZER
(
awacs_nosound
,
0
,
0
);
}
;
#if 0 /* would need to go through the input layer in 2.6, later.. --hch */
/* we generate the beep with a single dbdma command that loops a buffer
/* we generate the beep with a single dbdma command that loops a buffer
forever - without generating interrupts.
forever - without generating interrupts.
So, to stop it you have to stop dma output as per awacs_nosound.
So, to stop it you have to stop dma output as per awacs_nosound.
...
@@ -1237,17 +1368,15 @@ static void awacs_mksound(unsigned int hz, unsigned int ticks)
...
@@ -1237,17 +1368,15 @@ static void awacs_mksound(unsigned int hz, unsigned int ticks)
out_le32
(
&
awacs_txdma
->
control
,
(
RUN
|
WAKE
|
FLUSH
|
PAUSE
)
<<
16
);
out_le32
(
&
awacs_txdma
->
control
,
(
RUN
|
WAKE
|
FLUSH
|
PAUSE
)
<<
16
);
while
((
in_le32
(
&
awacs_txdma
->
status
)
&
RUN
)
&&
count
--
)
while
((
in_le32
(
&
awacs_txdma
->
status
)
&
RUN
)
&&
count
--
)
udelay
(
1
);
/* timeout > 2 samples at lowest rate*/
udelay
(
1
);
/* timeout > 2 samples at lowest rate*/
/* FIXME: check this is OK on DACA, Tumbler */
if
(
awacs
)
out_le32
(
&
awacs
->
control
,
awacs_setup_for_beep
(
beep_speed
);
(
in_le32
(
&
awacs
->
control
)
&
~
0x1f00
)
|
(
beep_speed
<<
8
));
out_le32
(
&
awacs
->
byteswap
,
0
);
/* force BE */
out_le32
(
&
awacs_txdma
->
cmdptr
,
virt_to_bus
(
beep_dbdma_cmd
));
out_le32
(
&
awacs_txdma
->
cmdptr
,
virt_to_bus
(
beep_dbdma_cmd
));
(
void
)
in_le32
(
&
awacs_txdma
->
status
);
(
void
)
in_le32
(
&
awacs_txdma
->
status
);
out_le32
(
&
awacs_txdma
->
control
,
RUN
|
(
RUN
<<
16
));
out_le32
(
&
awacs_txdma
->
control
,
RUN
|
(
RUN
<<
16
));
}
}
spin_unlock_irqrestore
(
&
dmasound
.
lock
,
flags
);
spin_unlock_irqrestore
(
&
dmasound
.
lock
,
flags
);
}
}
#endif
/* used in init and for wake-up */
/* used in init and for wake-up */
...
@@ -1267,10 +1396,12 @@ load_awacs(void)
...
@@ -1267,10 +1396,12 @@ load_awacs(void)
awacs_write
(
awacs_reg
[
1
]
+
MASK_ADDR1
);
awacs_write
(
awacs_reg
[
1
]
+
MASK_ADDR1
);
awacs_write
(
awacs_reg
[
7
]
+
MASK_ADDR7
);
awacs_write
(
awacs_reg
[
7
]
+
MASK_ADDR7
);
}
}
if
(
awacs
)
{
if
(
hw_can_byteswap
&&
(
dmasound
.
hard
.
format
==
AFMT_S16_LE
))
if
(
hw_can_byteswap
&&
(
dmasound
.
hard
.
format
==
AFMT_S16_LE
))
out_le32
(
&
awacs
->
byteswap
,
BS_VAL
);
out_le32
(
&
awacs
->
byteswap
,
BS_VAL
);
else
else
out_le32
(
&
awacs
->
byteswap
,
0
);
out_le32
(
&
awacs
->
byteswap
,
0
);
}
}
}
#ifdef CONFIG_PMAC_PBOOK
#ifdef CONFIG_PMAC_PBOOK
...
@@ -1280,6 +1411,8 @@ load_awacs(void)
...
@@ -1280,6 +1411,8 @@ load_awacs(void)
/* FIXME: sort out disabling/re-enabling of read stuff as well */
/* FIXME: sort out disabling/re-enabling of read stuff as well */
static
int
awacs_sleep_notify
(
struct
pmu_sleep_notifier
*
self
,
int
when
)
static
int
awacs_sleep_notify
(
struct
pmu_sleep_notifier
*
self
,
int
when
)
{
{
unsigned
long
flags
;
switch
(
when
)
{
switch
(
when
)
{
case
PBOOK_SLEEP_NOW
:
case
PBOOK_SLEEP_NOW
:
LOCK
();
LOCK
();
...
@@ -1297,9 +1430,18 @@ static int awacs_sleep_notify(struct pmu_sleep_notifier *self, int when)
...
@@ -1297,9 +1430,18 @@ static int awacs_sleep_notify(struct pmu_sleep_notifier *self, int when)
/* stop rx - if going - a bit of a daft user... but */
/* stop rx - if going - a bit of a daft user... but */
out_le32
(
&
awacs_rxdma
->
control
,
(
RUN
|
WAKE
|
FLUSH
<<
16
));
out_le32
(
&
awacs_rxdma
->
control
,
(
RUN
|
WAKE
|
FLUSH
<<
16
));
/* deny interrupts */
/* deny interrupts */
if
(
awacs
)
disable_irq
(
awacs_irq
);
disable_irq
(
awacs_tx_irq
);
disable_irq
(
awacs_rx_irq
);
/* Chip specific sleep code */
switch
(
awacs_revision
)
{
switch
(
awacs_revision
)
{
case
AWACS_TUMBLER
:
case
AWACS_TUMBLER
:
tumbler_enter_sleep
();
/* Stub for now */
case
AWACS_SNAPPER
:
write_audio_gpio
(
gpio_headphone_mute
,
gpio_headphone_mute_pol
);
write_audio_gpio
(
gpio_amp_mute
,
gpio_amp_mute_pol
);
tas_enter_sleep
();
write_audio_gpio
(
gpio_audio_reset
,
gpio_audio_reset_pol
);
break
;
break
;
case
AWACS_DACA
:
case
AWACS_DACA
:
daca_enter_sleep
();
daca_enter_sleep
();
...
@@ -1312,17 +1454,14 @@ static int awacs_sleep_notify(struct pmu_sleep_notifier *self, int when)
...
@@ -1312,17 +1454,14 @@ static int awacs_sleep_notify(struct pmu_sleep_notifier *self, int when)
out_le32
(
&
awacs
->
control
,
0x11
)
;
out_le32
(
&
awacs
->
control
,
0x11
)
;
break
;
break
;
}
}
disable_irq
(
awacs_irq
);
disable_irq
(
awacs_tx_irq
);
disable_irq
(
awacs_rx_irq
);
/* Disable sound clock */
/* Disable sound clock */
pmac_call_feature
(
PMAC_FTR_SOUND_CHIP_ENABLE
,
awacs_node
,
0
,
0
);
pmac_call_feature
(
PMAC_FTR_SOUND_CHIP_ENABLE
,
awacs_node
,
0
,
0
);
/* According to Darwin, we do that after turning off the sound
/* According to Darwin, we do that after turning off the sound
* chip clock. All this will have to be cleaned up once we properly
* chip clock. All this will have to be cleaned up once we properly
* parse the OF sound-objects
* parse the OF sound-objects
*/
*/
if
(
machine_is_compatible
(
"PowerBook3,1"
)
||
if
(
(
machine_is_compatible
(
"PowerBook3,1"
)
||
machine_is_compatible
(
"PowerBook3,2"
))
{
machine_is_compatible
(
"PowerBook3,2"
))
&&
awacs
)
{
awacs_reg
[
1
]
|=
MASK_PAROUT0
|
MASK_PAROUT1
;
awacs_reg
[
1
]
|=
MASK_PAROUT0
|
MASK_PAROUT1
;
awacs_write
(
MASK_ADDR1
|
awacs_reg
[
1
]);
awacs_write
(
MASK_ADDR1
|
awacs_reg
[
1
]);
wait_ms
(
200
);
wait_ms
(
200
);
...
@@ -1331,8 +1470,8 @@ static int awacs_sleep_notify(struct pmu_sleep_notifier *self, int when)
...
@@ -1331,8 +1470,8 @@ static int awacs_sleep_notify(struct pmu_sleep_notifier *self, int when)
case
PBOOK_WAKE
:
case
PBOOK_WAKE
:
/* Enable sound clock */
/* Enable sound clock */
pmac_call_feature
(
PMAC_FTR_SOUND_CHIP_ENABLE
,
awacs_node
,
0
,
1
);
pmac_call_feature
(
PMAC_FTR_SOUND_CHIP_ENABLE
,
awacs_node
,
0
,
1
);
if
(
machine_is_compatible
(
"PowerBook3,1"
)
||
if
(
(
machine_is_compatible
(
"PowerBook3,1"
)
||
machine_is_compatible
(
"PowerBook3,2"
))
{
machine_is_compatible
(
"PowerBook3,2"
))
&&
awacs
)
{
wait_ms
(
100
);
wait_ms
(
100
);
awacs_reg
[
1
]
&=
~
(
MASK_PAROUT0
|
MASK_PAROUT1
);
awacs_reg
[
1
]
&=
~
(
MASK_PAROUT0
|
MASK_PAROUT1
);
awacs_write
(
MASK_ADDR1
|
awacs_reg
[
1
]);
awacs_write
(
MASK_ADDR1
|
awacs_reg
[
1
]);
...
@@ -1342,13 +1481,20 @@ static int awacs_sleep_notify(struct pmu_sleep_notifier *self, int when)
...
@@ -1342,13 +1481,20 @@ static int awacs_sleep_notify(struct pmu_sleep_notifier *self, int when)
/* restore settings */
/* restore settings */
switch
(
awacs_revision
)
{
switch
(
awacs_revision
)
{
case
AWACS_TUMBLER
:
case
AWACS_TUMBLER
:
case
AWACS_SNAPPER
:
write_audio_gpio
(
gpio_headphone_mute
,
gpio_headphone_mute_pol
);
write_audio_gpio
(
gpio_amp_mute
,
gpio_amp_mute_pol
);
write_audio_gpio
(
gpio_audio_reset
,
gpio_audio_reset_pol
);
wait_ms
(
100
);
write_audio_gpio
(
gpio_audio_reset
,
!
gpio_audio_reset_pol
);
wait_ms
(
150
);
tas_leave_sleep
();
/* Stub for now */
headphone_intr
(
0
,
0
,
0
);
headphone_intr
(
0
,
0
,
0
);
tumbler_leave_sleep
();
/* Stub for now */
break
;
break
;
case
AWACS_DACA
:
case
AWACS_DACA
:
wait_ms
(
10
);
/* Check this !!! */
wait_ms
(
10
);
/* Check this !!! */
daca_leave_sleep
();
daca_leave_sleep
();
break
;
/* don
'
t know how yet */
break
;
/* dont know how yet */
case
AWACS_BURGUNDY
:
case
AWACS_BURGUNDY
:
break
;
break
;
case
AWACS_SCREAMER
:
case
AWACS_SCREAMER
:
...
@@ -1358,17 +1504,20 @@ static int awacs_sleep_notify(struct pmu_sleep_notifier *self, int when)
...
@@ -1358,17 +1504,20 @@ static int awacs_sleep_notify(struct pmu_sleep_notifier *self, int when)
break
;
break
;
}
}
/* Recalibrate chip */
/* Recalibrate chip */
if
(
awacs_revision
==
AWACS_SCREAMER
)
if
(
awacs_revision
==
AWACS_SCREAMER
&&
awacs
)
awacs_recalibrate
();
awacs_recalibrate
();
/* Make sure dma is stopped */
/* Make sure dma is stopped */
PMacSilence
();
PMacSilence
();
if
(
awacs
)
enable_irq
(
awacs_irq
);
enable_irq
(
awacs_irq
);
enable_irq
(
awacs_tx_irq
);
enable_irq
(
awacs_tx_irq
);
enable_irq
(
awacs_rx_irq
);
enable_irq
(
awacs_rx_irq
);
if
(
awacs
)
{
/* OK, allow ints back again */
/* OK, allow ints back again */
out_le32
(
&
awacs
->
control
,
MASK_IEPC
out_le32
(
&
awacs
->
control
,
MASK_IEPC
|
(
awacs_rate_index
<<
8
)
|
0x11
|
(
awacs_rate_index
<<
8
)
|
0x11
|
(
awacs_revision
<
AWACS_DACA
?
MASK_IEE
:
0
));
|
(
awacs_revision
<
AWACS_DACA
?
MASK_IEE
:
0
));
}
if
(
macio_base
&&
is_pbook_g3
)
{
if
(
macio_base
&&
is_pbook_g3
)
{
/* FIXME: should restore the setup we had...*/
/* FIXME: should restore the setup we had...*/
out_8
(
macio_base
+
0x37
,
3
);
out_8
(
macio_base
+
0x37
,
3
);
...
@@ -1384,7 +1533,9 @@ static int awacs_sleep_notify(struct pmu_sleep_notifier *self, int when)
...
@@ -1384,7 +1533,9 @@ static int awacs_sleep_notify(struct pmu_sleep_notifier *self, int when)
awacs_sleeping
=
0
;
awacs_sleeping
=
0
;
/* Resume pending sounds. */
/* Resume pending sounds. */
/* we don't try to restart input... */
/* we don't try to restart input... */
spin_lock_irqsave
(
&
dmasound
.
lock
,
flags
);
__PMacPlay
();
__PMacPlay
();
spin_unlock_irqrestore
(
&
dmasound
.
lock
,
flags
);
UNLOCK
();
UNLOCK
();
}
}
return
PBOOK_SLEEP_OK
;
return
PBOOK_SLEEP_OK
;
...
@@ -1956,7 +2107,7 @@ static int burgundy_mixer_ioctl(u_int cmd, u_long arg)
...
@@ -1956,7 +2107,7 @@ static int burgundy_mixer_ioctl(u_int cmd, u_long arg)
case
SOUND_MIXER_READ_SPEAKER
:
case
SOUND_MIXER_READ_SPEAKER
:
data
=
awacs_burgundy_rcb
(
MASK_ADDR_BURGUNDY_ATTENSPEAKER
);
data
=
awacs_burgundy_rcb
(
MASK_ADDR_BURGUNDY_ATTENSPEAKER
);
data
=
(((
data
&
0xf
)
*
100
)
/
16
)
+
((((
data
>>
4
)
*
100
)
/
16
)
<<
8
);
data
=
(((
data
&
0xf
)
*
100
)
/
16
)
+
((((
data
>>
4
)
*
100
)
/
16
)
<<
8
);
rc
=
IOCTL_OUT
(
arg
,
~
data
);
rc
=
IOCTL_OUT
(
arg
,
(
~
data
)
&
0x0000ffff
);
break
;
break
;
case
SOUND_MIXER_WRITE_ALTPCM
:
/* really bell volume */
case
SOUND_MIXER_WRITE_ALTPCM
:
/* really bell volume */
IOCTL_IN
(
arg
,
data
);
IOCTL_IN
(
arg
,
data
);
...
@@ -2011,89 +2162,6 @@ static int burgundy_mixer_ioctl(u_int cmd, u_long arg)
...
@@ -2011,89 +2162,6 @@ static int burgundy_mixer_ioctl(u_int cmd, u_long arg)
return
rc
;
return
rc
;
}
}
static
int
tumbler_mixer_ioctl
(
u_int
cmd
,
u_long
arg
)
{
int
data
;
int
rc
;
/* We are, we are, we are... Tumbler (and very dumb) */
/* Ok, we're not THAT dumb anymore, but still pretty dumb :-) */
switch
(
cmd
)
{
case
SOUND_MIXER_READ_DEVMASK
:
data
=
SOUND_MASK_VOLUME
|
SOUND_MASK_ALTPCM
|
SOUND_MASK_BASS
|
SOUND_MASK_TREBLE
|
SOUND_MASK_PCM
;
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_READ_RECMASK
:
data
=
0
;
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_READ_RECSRC
:
data
=
0
;
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_WRITE_RECSRC
:
IOCTL_IN
(
arg
,
data
);
data
=
0
;
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_READ_STEREODEVS
:
data
=
SOUND_MASK_VOLUME
|
SOUND_MASK_PCM
;
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_READ_CAPS
:
rc
=
IOCTL_OUT
(
arg
,
0
);
break
;
case
SOUND_MIXER_WRITE_BASS
:
IOCTL_IN
(
arg
,
data
);
tumbler_set_bass
(
data
);
/* Fall through */
case
SOUND_MIXER_READ_BASS
:
tumbler_get_bass
(
&
data
);
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_WRITE_TREBLE
:
IOCTL_IN
(
arg
,
data
);
tumbler_set_treble
(
data
);
/* Fall through */
case
SOUND_MIXER_READ_TREBLE
:
tumbler_get_treble
(
&
data
);
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_WRITE_PCM
:
IOCTL_IN
(
arg
,
data
);
tumbler_set_pcm_lvl
(
data
);
/* Fall through */
case
SOUND_MIXER_READ_PCM
:
tumbler_get_pcm_lvl
(
&
data
);
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_WRITE_VOLUME
:
IOCTL_IN
(
arg
,
data
);
tumbler_set_volume
(
data
,
data
);
/* Fall through */
case
SOUND_MIXER_READ_VOLUME
:
tumbler_get_volume
(
&
data
,
&
data
);
rc
=
IOCTL_OUT
(
arg
,
data
);
break
;
case
SOUND_MIXER_WRITE_ALTPCM
:
/* really bell volume */
IOCTL_IN
(
arg
,
data
);
beep_vol
=
data
&
0xff
;
/* fall through */
case
SOUND_MIXER_READ_ALTPCM
:
rc
=
IOCTL_OUT
(
arg
,
beep_vol
);
break
;
case
SOUND_MIXER_OUTMASK
:
case
SOUND_MIXER_OUTSRC
:
default:
rc
=
-
EINVAL
;
}
return
rc
;
}
static
int
daca_mixer_ioctl
(
u_int
cmd
,
u_long
arg
)
static
int
daca_mixer_ioctl
(
u_int
cmd
,
u_long
arg
)
{
{
int
data
;
int
data
;
...
@@ -2158,7 +2226,8 @@ static int PMacMixerIoctl(u_int cmd, u_long arg)
...
@@ -2158,7 +2226,8 @@ static int PMacMixerIoctl(u_int cmd, u_long arg)
rc
=
daca_mixer_ioctl
(
cmd
,
arg
);
rc
=
daca_mixer_ioctl
(
cmd
,
arg
);
break
;
break
;
case
AWACS_TUMBLER
:
case
AWACS_TUMBLER
:
rc
=
tumbler_mixer_ioctl
(
cmd
,
arg
);
case
AWACS_SNAPPER
:
rc
=
tas_mixer_ioctl
(
cmd
,
arg
);
break
;
break
;
default:
/* ;-)) */
default:
/* ;-)) */
rc
=
awacs_mixer_ioctl
(
cmd
,
arg
);
rc
=
awacs_mixer_ioctl
(
cmd
,
arg
);
...
@@ -2175,7 +2244,9 @@ static void PMacMixerInit(void)
...
@@ -2175,7 +2244,9 @@ static void PMacMixerInit(void)
case
AWACS_TUMBLER
:
case
AWACS_TUMBLER
:
printk
(
"AE-Init tumbler mixer
\n
"
);
printk
(
"AE-Init tumbler mixer
\n
"
);
break
;
break
;
case
AWACS_SNAPPER
:
printk
(
"AE-Init snapper mixer
\n
"
);
break
;
case
AWACS_DACA
:
case
AWACS_DACA
:
case
AWACS_BURGUNDY
:
case
AWACS_BURGUNDY
:
break
;
/* don't know yet */
break
;
/* don't know yet */
...
@@ -2366,12 +2437,12 @@ static int PMacStateInfo(char *b, size_t sp)
...
@@ -2366,12 +2437,12 @@ static int PMacStateInfo(char *b, size_t sp)
len
+=
sprintf
(
b
,
"44100 "
)
;
len
+=
sprintf
(
b
,
"44100 "
)
;
break
;
break
;
case
AWACS_TUMBLER
:
case
AWACS_TUMBLER
:
for
(
i
=
0
;
i
<
2
;
i
++
){
case
AWACS_SNAPPER
:
if
(
tumbler_freqs_ok
[
i
])
for
(
i
=
0
;
i
<
1
;
i
++
){
len
+=
sprintf
(
b
+
len
,
"%d "
,
tumbler_freqs
[
i
])
;
if
(
tas_freqs_ok
[
i
])
len
+=
sprintf
(
b
+
len
,
"%d "
,
tas_freqs
[
i
])
;
}
}
break
;
break
;
case
AWACS_AWACS
:
case
AWACS_AWACS
:
case
AWACS_SCREAMER
:
case
AWACS_SCREAMER
:
default:
default:
...
@@ -2472,8 +2543,8 @@ set_model(void)
...
@@ -2472,8 +2543,8 @@ set_model(void)
code that looks for chip properties knows how to go about it.
code that looks for chip properties knows how to go about it.
*/
*/
static
struct
device_node
static
struct
device_node
*
__init
__init
*
get_snd_io_node
(
void
)
get_snd_io_node
(
void
)
{
{
struct
device_node
*
np
=
NULL
;
struct
device_node
*
np
=
NULL
;
...
@@ -2494,7 +2565,7 @@ __init *get_snd_io_node(void)
...
@@ -2494,7 +2565,7 @@ __init *get_snd_io_node(void)
* this seems to be what iBooks (& Tumbler) have.
* this seems to be what iBooks (& Tumbler) have.
*/
*/
if
(
np
==
NULL
)
if
(
np
==
NULL
)
np
=
find_devices
(
"i2s-a"
);
np
=
i2s_node
=
find_devices
(
"i2s-a"
);
/* if we didn't find this - perhaps we are on an early model
/* if we didn't find this - perhaps we are on an early model
* which _only_ has an 'awacs' node
* which _only_ has an 'awacs' node
...
@@ -2514,23 +2585,22 @@ __init *get_snd_io_node(void)
...
@@ -2514,23 +2585,22 @@ __init *get_snd_io_node(void)
we have to deduce the info other ways for these.
we have to deduce the info other ways for these.
*/
*/
static
struct
device_node
static
struct
device_node
*
__init
__init
*
get_snd_info_node
(
struct
device_node
*
io
)
get_snd_info_node
(
struct
device_node
*
io
)
{
{
struct
device_node
*
info
;
struct
device_node
*
info
;
info
=
find_devices
(
"sound"
);
info
=
find_devices
(
"sound"
);
while
(
info
!=
0
&&
info
->
parent
!=
io
)
while
(
info
&&
info
->
parent
!=
io
)
info
=
info
->
next
;
info
=
info
->
next
;
return
info
;
return
info
;
}
}
/* Find out what type of codec we have.
/* Find out what type of codec we have.
*/
*/
static
int
static
int
__init
__init
get_codec_type
(
struct
device_node
*
info
)
get_codec_type
(
struct
device_node
*
info
)
{
{
/* already set if pre-davbus model and info will be NULL */
/* already set if pre-davbus model and info will be NULL */
int
codec
=
awacs_revision
;
int
codec
=
awacs_revision
;
...
@@ -2547,14 +2617,16 @@ __init get_codec_type(struct device_node *info)
...
@@ -2547,14 +2617,16 @@ __init get_codec_type(struct device_node *info)
codec
=
AWACS_DACA
;
codec
=
AWACS_DACA
;
if
(
device_is_compatible
(
info
,
"tumbler"
))
if
(
device_is_compatible
(
info
,
"tumbler"
))
codec
=
AWACS_TUMBLER
;
codec
=
AWACS_TUMBLER
;
if
(
device_is_compatible
(
info
,
"snapper"
))
codec
=
AWACS_SNAPPER
;
}
}
return
codec
;
return
codec
;
}
}
/* find out what type, if any, of expansion card we have
/* find out what type, if any, of expansion card we have
*/
*/
static
void
static
void
__init
__init
get_expansion_type
(
void
)
get_expansion_type
(
void
)
{
{
if
(
find_devices
(
"perch"
)
!=
NULL
)
if
(
find_devices
(
"perch"
)
!=
NULL
)
has_perch
=
1
;
has_perch
=
1
;
...
@@ -2572,8 +2644,8 @@ __init get_expansion_type(void)
...
@@ -2572,8 +2644,8 @@ __init get_expansion_type(void)
* Set dmasound.mach.max_dsp_rate on the basis of these routines.
* Set dmasound.mach.max_dsp_rate on the basis of these routines.
*/
*/
static
void
static
void
__init
__init
init_awacs
_frame_rates
(
unsigned
int
*
prop
,
unsigned
int
l
)
awacs_init
_frame_rates
(
unsigned
int
*
prop
,
unsigned
int
l
)
{
{
int
i
;
int
i
;
if
(
prop
)
{
if
(
prop
)
{
...
@@ -2595,31 +2667,8 @@ __init init_awacs_frame_rates(unsigned int *prop, unsigned int l)
...
@@ -2595,31 +2667,8 @@ __init init_awacs_frame_rates(unsigned int *prop, unsigned int l)
/* else we assume that all the rates are available */
/* else we assume that all the rates are available */
}
}
static
void
static
void
__init
__init
init_tumbler_frame_rates
(
unsigned
int
*
prop
,
unsigned
int
l
)
burgundy_init_frame_rates
(
unsigned
int
*
prop
,
unsigned
int
l
)
{
int
i
;
if
(
prop
)
{
for
(
i
=
0
;
i
<
2
;
i
++
)
tumbler_freqs_ok
[
i
]
=
0
;
for
(
l
/=
sizeof
(
int
);
l
>
0
;
--
l
)
{
unsigned
int
r
=
*
prop
++
;
/* Apple 'Fixed' format */
if
(
r
>=
0x10000
)
r
>>=
16
;
for
(
i
=
0
;
i
<
2
;
++
i
)
{
if
(
r
==
tumbler_freqs
[
i
])
{
tumbler_freqs_ok
[
i
]
=
1
;
break
;
}
}
}
}
/* else we assume that all the rates are available */
}
static
void
__init
init_burgundy_frame_rates
(
unsigned
int
*
prop
,
unsigned
int
l
)
{
{
int
temp
[
9
]
;
int
temp
[
9
]
;
int
i
=
0
;
int
i
=
0
;
...
@@ -2644,8 +2693,8 @@ if (i > 1){
...
@@ -2644,8 +2693,8 @@ if (i > 1){
#endif
#endif
}
}
static
void
static
void
__init
__init
init_daca
_frame_rates
(
unsigned
int
*
prop
,
unsigned
int
l
)
daca_init
_frame_rates
(
unsigned
int
*
prop
,
unsigned
int
l
)
{
{
int
temp
[
9
]
;
int
temp
[
9
]
;
int
i
=
0
;
int
i
=
0
;
...
@@ -2671,21 +2720,22 @@ if (i > 1){
...
@@ -2671,21 +2720,22 @@ if (i > 1){
#endif
#endif
}
}
static
void
static
void
__init
__init
init_frame_rates
(
unsigned
int
*
prop
,
unsigned
int
l
)
init_frame_rates
(
unsigned
int
*
prop
,
unsigned
int
l
)
{
{
switch
(
awacs_revision
){
switch
(
awacs_revision
)
{
case
AWACS_TUMBLER
:
case
AWACS_TUMBLER
:
init_tumbler_frame_rates
(
prop
,
l
);
case
AWACS_SNAPPER
:
tas_init_frame_rates
(
prop
,
l
);
break
;
break
;
case
AWACS_DACA
:
case
AWACS_DACA
:
init_daca
_frame_rates
(
prop
,
l
);
daca_init
_frame_rates
(
prop
,
l
);
break
;
break
;
case
AWACS_BURGUNDY
:
case
AWACS_BURGUNDY
:
init_burgundy
_frame_rates
(
prop
,
l
);
burgundy_init
_frame_rates
(
prop
,
l
);
break
;
break
;
default:
/* ;-))) */
default:
init_awacs
_frame_rates
(
prop
,
l
);
awacs_init
_frame_rates
(
prop
,
l
);
break
;
break
;
}
}
}
}
...
@@ -2693,11 +2743,11 @@ __init init_frame_rates(unsigned int *prop, unsigned int l)
...
@@ -2693,11 +2743,11 @@ __init init_frame_rates(unsigned int *prop, unsigned int l)
/* find things/machines that can't do mac-io byteswap
/* find things/machines that can't do mac-io byteswap
*/
*/
static
void
static
void
__init
__init
set_hw_byteswap
(
struct
device_node
*
io
)
set_hw_byteswap
(
struct
device_node
*
io
)
{
{
struct
device_node
*
mio
;
struct
device_node
*
mio
;
unsigned
int
*
p
,
kl
=
0
;
unsigned
int
kl
=
0
;
/* if seems that Keylargo can't byte-swap */
/* if seems that Keylargo can't byte-swap */
...
@@ -2744,9 +2794,6 @@ __init setup_beep(void)
...
@@ -2744,9 +2794,6 @@ __init setup_beep(void)
if
(
beep_dbdma_cmd_space
)
kfree
(
beep_dbdma_cmd_space
)
;
if
(
beep_dbdma_cmd_space
)
kfree
(
beep_dbdma_cmd_space
)
;
return
-
ENOMEM
;
return
-
ENOMEM
;
}
}
/* OK, we should be safe to claim the mksound vector now */
orig_mksound
=
kd_mksound
;
kd_mksound
=
awacs_mksound
;
return
0
;
return
0
;
}
}
...
@@ -2842,6 +2889,9 @@ printk("dmasound_pmac: couldn't find a Codec we can handle\n");
...
@@ -2842,6 +2889,9 @@ printk("dmasound_pmac: couldn't find a Codec we can handle\n");
}
}
/* all OF versions I've seen use this value */
/* all OF versions I've seen use this value */
if
(
i2s_node
)
i2s
=
(
u32
*
)
ioremap
(
io
->
addrs
[
0
].
address
,
0x1000
);
else
awacs
=
(
volatile
struct
awacs_regs
*
)
awacs
=
(
volatile
struct
awacs_regs
*
)
ioremap
(
io
->
addrs
[
0
].
address
,
0x1000
);
ioremap
(
io
->
addrs
[
0
].
address
,
0x1000
);
awacs_txdma
=
(
volatile
struct
dbdma_regs
*
)
awacs_txdma
=
(
volatile
struct
dbdma_regs
*
)
...
@@ -2849,16 +2899,16 @@ printk("dmasound_pmac: couldn't find a Codec we can handle\n");
...
@@ -2849,16 +2899,16 @@ printk("dmasound_pmac: couldn't find a Codec we can handle\n");
awacs_rxdma
=
(
volatile
struct
dbdma_regs
*
)
awacs_rxdma
=
(
volatile
struct
dbdma_regs
*
)
ioremap
(
io
->
addrs
[
2
].
address
,
0x100
);
ioremap
(
io
->
addrs
[
2
].
address
,
0x100
);
#ifdef CONFIG_PMAC_PBOOK
/* first of all make sure that the chip is powered up....*/
/* first of all make sure that the chip is powered up....*/
pmac_call_feature
(
PMAC_FTR_SOUND_CHIP_ENABLE
,
io
,
0
,
1
);
pmac_call_feature
(
PMAC_FTR_SOUND_CHIP_ENABLE
,
io
,
0
,
1
);
if
(
awacs_revision
==
AWACS_SCREAMER
)
if
(
awacs_revision
==
AWACS_SCREAMER
&&
awacs
)
awacs_recalibrate
();
awacs_recalibrate
();
#endif
awacs_irq
=
io
->
intrs
[
0
].
line
;
awacs_irq
=
io
->
intrs
[
0
].
line
;
awacs_tx_irq
=
io
->
intrs
[
1
].
line
;
awacs_tx_irq
=
io
->
intrs
[
1
].
line
;
awacs_rx_irq
=
io
->
intrs
[
2
].
line
;
awacs_rx_irq
=
io
->
intrs
[
2
].
line
;
/* Hack for legacy crap that will be killed someday */
awacs_node
=
io
;
awacs_node
=
io
;
/* if we have an awacs or screamer - probe the chip to make
/* if we have an awacs or screamer - probe the chip to make
...
@@ -2910,6 +2960,7 @@ printk("dmasound_pmac: Awacs/Screamer Codec Mfct: %d Rev %d\n", mfg, rev);
...
@@ -2910,6 +2960,7 @@ printk("dmasound_pmac: Awacs/Screamer Codec Mfct: %d Rev %d\n", mfg, rev);
init_frame_rates
(
prop
,
l
)
;
init_frame_rates
(
prop
,
l
)
;
}
}
if
(
awacs
)
out_le32
(
&
awacs
->
control
,
0x11
);
/* set everything quiesent */
out_le32
(
&
awacs
->
control
,
0x11
);
/* set everything quiesent */
set_hw_byteswap
(
io
)
;
/* figure out if the h/w can do it */
set_hw_byteswap
(
io
)
;
/* figure out if the h/w can do it */
...
@@ -2942,25 +2993,27 @@ printk("dmasound_pmac: Awacs/Screamer Codec Mfct: %d Rev %d\n", mfg, rev);
...
@@ -2942,25 +2993,27 @@ printk("dmasound_pmac: Awacs/Screamer Codec Mfct: %d Rev %d\n", mfg, rev);
switch
(
awacs_revision
)
{
switch
(
awacs_revision
)
{
case
AWACS_TUMBLER
:
case
AWACS_TUMBLER
:
#ifdef CONFIG_KMOD
tas_register_driver
(
&
tas3001c_hooks
);
request_module
(
"i2c-keywest"
);
tas_init
(
I2C_DRIVERID_TAS3001C
,
I2C_DRIVERNAME_TAS3001C
);
#endif
/* CONFIG_KMOD */
tas_dmasound_init
();
awacs_tumbler_init
();
tas_post_init
();
tas_init
();
break
;
break
;
case
AWACS_SNAPPER
:
tas_register_driver
(
&
tas3004_hooks
);
tas_init
(
I2C_DRIVERID_TAS3004
,
I2C_DRIVERNAME_TAS3004
);
tas_dmasound_init
();
tas_post_init
();
break
;
case
AWACS_DACA
:
case
AWACS_DACA
:
#ifdef CONFIG_KMOD
request_module
(
"i2c-keywest"
);
#endif
/* CONFIG_KMOD */
daca_init
();
daca_init
();
break
;
/* don't know how yet */
break
;
case
AWACS_BURGUNDY
:
case
AWACS_BURGUNDY
:
awacs_burgundy_init
();
awacs_burgundy_init
();
break
;
break
;
case
AWACS_SCREAMER
:
case
AWACS_SCREAMER
:
case
AWACS_AWACS
:
case
AWACS_AWACS
:
default:
default:
load_awacs
()
;
load_awacs
();
break
;
break
;
}
}
...
@@ -3031,11 +3084,15 @@ printk("dmasound_pmac: Awacs/Screamer Codec Mfct: %d Rev %d\n", mfg, rev);
...
@@ -3031,11 +3084,15 @@ printk("dmasound_pmac: Awacs/Screamer Codec Mfct: %d Rev %d\n", mfg, rev);
dmasound
.
mach
.
hardware_afmts
=
AFMT_S16_BE
;
dmasound
.
mach
.
hardware_afmts
=
AFMT_S16_BE
;
/* shut out chips that do output only.
/* shut out chips that do output only.
may need to extend this to machines which have no inputs - even tho'
* may need to extend this to machines which have no inputs - even tho'
they use screamer - IIRC one of the powerbooks is like this.
* they use screamer - IIRC one of the powerbooks is like this.
*
* FIXME: Actually, some TUMBLER and SNAPPER do have inputs...
*/
*/
if
(
awacs_revision
!=
AWACS_TUMBLER
&&
awacs_revision
!=
AWACS_DACA
)
{
if
(
awacs_revision
!=
AWACS_TUMBLER
&&
awacs_revision
!=
AWACS_SNAPPER
&&
awacs_revision
!=
AWACS_DACA
)
{
dmasound
.
mach
.
capabilities
=
DSP_CAP_DUPLEX
;
dmasound
.
mach
.
capabilities
=
DSP_CAP_DUPLEX
;
dmasound
.
mach
.
record
=
PMacRecord
;
dmasound
.
mach
.
record
=
PMacRecord
;
}
}
...
@@ -3053,6 +3110,9 @@ printk("dmasound_pmac: Awacs/Screamer Codec Mfct: %d Rev %d\n", mfg, rev);
...
@@ -3053,6 +3110,9 @@ printk("dmasound_pmac: Awacs/Screamer Codec Mfct: %d Rev %d\n", mfg, rev);
case
AWACS_TUMBLER
:
case
AWACS_TUMBLER
:
sprintf
(
awacs_name
,
"PowerMac Tumbler "
)
;
sprintf
(
awacs_name
,
"PowerMac Tumbler "
)
;
break
;
break
;
case
AWACS_SNAPPER
:
sprintf
(
awacs_name
,
"PowerMac Snapper "
)
;
break
;
case
AWACS_SCREAMER
:
case
AWACS_SCREAMER
:
sprintf
(
awacs_name
,
"PowerMac Screamer "
)
;
sprintf
(
awacs_name
,
"PowerMac Screamer "
)
;
break
;
break
;
...
@@ -3069,7 +3129,8 @@ static void __exit dmasound_awacs_cleanup(void)
...
@@ -3069,7 +3129,8 @@ static void __exit dmasound_awacs_cleanup(void)
{
{
switch
(
awacs_revision
)
{
switch
(
awacs_revision
)
{
case
AWACS_TUMBLER
:
case
AWACS_TUMBLER
:
awacs_tumbler_cleanup
();
case
AWACS_SNAPPER
:
tas_dmasound_cleanup
();
tas_cleanup
();
tas_cleanup
();
break
;
break
;
case
AWACS_DACA
:
case
AWACS_DACA
:
...
...
sound/oss/dmasound/tas3001c.c
0 → 100644
View file @
3f250722
/*
* Driver for the i2c/i2s based TA3004 sound chip used
* on some Apple hardware. Also known as "snapper".
*
* Tobias Sargeant <tobias.sargeant@bigpond.com>
* Based upon, tas3001c.c by Christopher C. Chimelis <chris@debian.org>:
*
* TODO:
* -----
* * Enable control over input line 2 (is this connected?)
* * Implement sleep support (at least mute everything and
* * set gains to minimum during sleep)
* * Look into some of Darwin's tweaks regarding the mute
* * lines (delays & different behaviour on some HW)
*
*/
#include <linux/version.h>
#include <linux/module.h>
#include <linux/slab.h>
#include <linux/proc_fs.h>
#include <linux/ioport.h>
#include <linux/sysctl.h>
#include <linux/types.h>
#include <linux/i2c.h>
#include <linux/init.h>
#include <linux/soundcard.h>
#include <linux/workqueue.h>
#include <asm/uaccess.h>
#include <asm/errno.h>
#include <asm/io.h>
#include <asm/prom.h>
#include "dmasound.h"
#include "tas_common.h"
#include "tas3001c.h"
#include "tas_ioctl.h"
#define TAS3001C_BIQUAD_FILTER_COUNT 6
#define TAS3001C_BIQUAD_CHANNEL_COUNT 2
#define VOL_DEFAULT (100 * 4 / 5)
#define INPUT_DEFAULT (100 * 4 / 5)
#define BASS_DEFAULT (100 / 2)
#define TREBLE_DEFAULT (100 / 2)
struct
tas3001c_data_t
{
struct
tas_data_t
super
;
int
device_id
;
int
output_id
;
int
speaker_id
;
struct
tas_drce_t
drce_state
;
};
static
const
union
tas_biquad_t
tas3001c_eq_unity
=
{
buf:
{
0x100000
,
0x000000
,
0x000000
,
0x000000
,
0x000000
}
};
static
inline
unsigned
char
db_to_regval
(
short
db
)
{
int
r
=
0
;
r
=
(
db
+
0x59a0
)
/
0x60
;
if
(
r
<
0x91
)
return
0x91
;
if
(
r
>
0xef
)
return
0xef
;
return
r
;
}
static
inline
short
quantize_db
(
short
db
)
{
return
db_to_regval
(
db
)
*
0x60
-
0x59a0
;
}
static
inline
int
register_width
(
enum
tas3001c_reg_t
r
)
{
switch
(
r
)
{
case
TAS3001C_REG_MCR
:
case
TAS3001C_REG_TREBLE
:
case
TAS3001C_REG_BASS
:
return
1
;
case
TAS3001C_REG_DRC
:
return
2
;
case
TAS3001C_REG_MIXER1
:
case
TAS3001C_REG_MIXER2
:
return
3
;
case
TAS3001C_REG_VOLUME
:
return
6
;
case
TAS3001C_REG_LEFT_BIQUAD0
:
case
TAS3001C_REG_LEFT_BIQUAD1
:
case
TAS3001C_REG_LEFT_BIQUAD2
:
case
TAS3001C_REG_LEFT_BIQUAD3
:
case
TAS3001C_REG_LEFT_BIQUAD4
:
case
TAS3001C_REG_LEFT_BIQUAD5
:
case
TAS3001C_REG_LEFT_BIQUAD6
:
case
TAS3001C_REG_RIGHT_BIQUAD0
:
case
TAS3001C_REG_RIGHT_BIQUAD1
:
case
TAS3001C_REG_RIGHT_BIQUAD2
:
case
TAS3001C_REG_RIGHT_BIQUAD3
:
case
TAS3001C_REG_RIGHT_BIQUAD4
:
case
TAS3001C_REG_RIGHT_BIQUAD5
:
case
TAS3001C_REG_RIGHT_BIQUAD6
:
return
15
;
default:
return
0
;
}
}
static
int
tas3001c_write_register
(
struct
tas3001c_data_t
*
self
,
enum
tas3001c_reg_t
reg_num
,
char
*
data
,
uint
write_mode
)
{
if
(
reg_num
==
TAS3001C_REG_MCR
||
reg_num
==
TAS3001C_REG_BASS
||
reg_num
==
TAS3001C_REG_TREBLE
)
{
return
tas_write_byte_register
(
&
self
->
super
,
(
uint
)
reg_num
,
*
data
,
write_mode
);
}
else
{
return
tas_write_register
(
&
self
->
super
,
(
uint
)
reg_num
,
register_width
(
reg_num
),
data
,
write_mode
);
}
}
static
int
tas3001c_sync_register
(
struct
tas3001c_data_t
*
self
,
enum
tas3001c_reg_t
reg_num
)
{
if
(
reg_num
==
TAS3001C_REG_MCR
||
reg_num
==
TAS3001C_REG_BASS
||
reg_num
==
TAS3001C_REG_TREBLE
)
{
return
tas_sync_byte_register
(
&
self
->
super
,
(
uint
)
reg_num
,
register_width
(
reg_num
));
}
else
{
return
tas_sync_register
(
&
self
->
super
,
(
uint
)
reg_num
,
register_width
(
reg_num
));
}
}
static
int
tas3001c_read_register
(
struct
tas3001c_data_t
*
self
,
enum
tas3001c_reg_t
reg_num
,
char
*
data
,
uint
write_mode
)
{
return
tas_read_register
(
&
self
->
super
,
(
uint
)
reg_num
,
register_width
(
reg_num
),
data
);
}
static
inline
int
tas3001c_fast_load
(
struct
tas3001c_data_t
*
self
,
int
fast
)
{
if
(
fast
)
self
->
super
.
shadow
[
TAS3001C_REG_MCR
][
0
]
|=
0x80
;
else
self
->
super
.
shadow
[
TAS3001C_REG_MCR
][
0
]
&=
0x7f
;
return
tas3001c_sync_register
(
self
,
TAS3001C_REG_MCR
);
}
static
uint
tas3001c_supported_mixers
(
struct
tas3001c_data_t
*
self
)
{
return
SOUND_MASK_VOLUME
|
SOUND_MASK_PCM
|
SOUND_MASK_ALTPCM
|
SOUND_MASK_TREBLE
|
SOUND_MASK_BASS
;
}
static
int
tas3001c_mixer_is_stereo
(
struct
tas3001c_data_t
*
self
,
int
mixer
)
{
switch
(
mixer
)
{
case
SOUND_MIXER_VOLUME
:
return
1
;
default:
return
0
;
}
}
static
uint
tas3001c_stereo_mixers
(
struct
tas3001c_data_t
*
self
)
{
uint
r
=
tas3001c_supported_mixers
(
self
);
uint
i
;
for
(
i
=
1
;
i
<
SOUND_MIXER_NRDEVICES
;
i
++
)
if
(
r
&
(
1
<<
i
)
&&
!
tas3001c_mixer_is_stereo
(
self
,
i
))
r
&=
~
(
1
<<
i
);
return
r
;
}
static
int
tas3001c_get_mixer_level
(
struct
tas3001c_data_t
*
self
,
int
mixer
,
uint
*
level
)
{
if
(
!
self
)
return
-
1
;
*
level
=
self
->
super
.
mixer
[
mixer
];
return
0
;
}
static
int
tas3001c_set_mixer_level
(
struct
tas3001c_data_t
*
self
,
int
mixer
,
uint
level
)
{
int
rc
;
tas_shadow_t
*
shadow
;
uint
temp
;
uint
offset
=
0
;
if
(
!
self
)
return
-
1
;
shadow
=
self
->
super
.
shadow
;
if
(
!
tas3001c_mixer_is_stereo
(
self
,
mixer
))
level
=
tas_mono_to_stereo
(
level
);
switch
(
mixer
)
{
case
SOUND_MIXER_VOLUME
:
temp
=
tas3001c_gain
.
master
[
level
&
0xff
];
shadow
[
TAS3001C_REG_VOLUME
][
0
]
=
(
temp
>>
16
)
&
0xff
;
shadow
[
TAS3001C_REG_VOLUME
][
1
]
=
(
temp
>>
8
)
&
0xff
;
shadow
[
TAS3001C_REG_VOLUME
][
2
]
=
(
temp
>>
0
)
&
0xff
;
temp
=
tas3001c_gain
.
master
[(
level
>>
8
)
&
0xff
];
shadow
[
TAS3001C_REG_VOLUME
][
3
]
=
(
temp
>>
16
)
&
0xff
;
shadow
[
TAS3001C_REG_VOLUME
][
4
]
=
(
temp
>>
8
)
&
0xff
;
shadow
[
TAS3001C_REG_VOLUME
][
5
]
=
(
temp
>>
0
)
&
0xff
;
rc
=
tas3001c_sync_register
(
self
,
TAS3001C_REG_VOLUME
);
break
;
case
SOUND_MIXER_ALTPCM
:
/* tas3001c_fast_load(self, 1); */
level
=
tas_mono_to_stereo
(
level
);
temp
=
tas3001c_gain
.
mixer
[
level
&
0xff
];
shadow
[
TAS3001C_REG_MIXER2
][
offset
+
0
]
=
(
temp
>>
16
)
&
0xff
;
shadow
[
TAS3001C_REG_MIXER2
][
offset
+
1
]
=
(
temp
>>
8
)
&
0xff
;
shadow
[
TAS3001C_REG_MIXER2
][
offset
+
2
]
=
(
temp
>>
0
)
&
0xff
;
rc
=
tas3001c_sync_register
(
self
,
TAS3001C_REG_MIXER2
);
/* tas3001c_fast_load(self, 0); */
break
;
case
SOUND_MIXER_PCM
:
/* tas3001c_fast_load(self, 1); */
level
=
tas_mono_to_stereo
(
level
);
temp
=
tas3001c_gain
.
mixer
[
level
&
0xff
];
shadow
[
TAS3001C_REG_MIXER1
][
offset
+
0
]
=
(
temp
>>
16
)
&
0xff
;
shadow
[
TAS3001C_REG_MIXER1
][
offset
+
1
]
=
(
temp
>>
8
)
&
0xff
;
shadow
[
TAS3001C_REG_MIXER1
][
offset
+
2
]
=
(
temp
>>
0
)
&
0xff
;
rc
=
tas3001c_sync_register
(
self
,
TAS3001C_REG_MIXER1
);
/* tas3001c_fast_load(self, 0); */
break
;
case
SOUND_MIXER_TREBLE
:
temp
=
tas3001c_gain
.
treble
[
level
&
0xff
];
shadow
[
TAS3001C_REG_TREBLE
][
0
]
=
temp
&
0xff
;
rc
=
tas3001c_sync_register
(
self
,
TAS3001C_REG_TREBLE
);
break
;
case
SOUND_MIXER_BASS
:
temp
=
tas3001c_gain
.
bass
[
level
&
0xff
];
shadow
[
TAS3001C_REG_BASS
][
0
]
=
temp
&
0xff
;
rc
=
tas3001c_sync_register
(
self
,
TAS3001C_REG_BASS
);
break
;
default:
rc
=
-
1
;
break
;
}
if
(
rc
<
0
)
return
rc
;
self
->
super
.
mixer
[
mixer
]
=
level
;
return
0
;
}
static
int
tas3001c_leave_sleep
(
struct
tas3001c_data_t
*
self
)
{
unsigned
char
mcr
=
(
1
<<
6
)
+
(
2
<<
4
)
+
(
2
<<
2
);
if
(
!
self
)
return
-
1
;
/* Make sure something answers on the i2c bus */
if
(
tas3001c_write_register
(
self
,
TAS3001C_REG_MCR
,
&
mcr
,
WRITE_NORMAL
|
FORCE_WRITE
)
<
0
)
return
-
1
;
tas3001c_fast_load
(
self
,
1
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD0
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD1
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD2
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD3
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD4
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD5
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD0
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD1
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD2
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD3
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD4
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD5
);
tas3001c_fast_load
(
self
,
0
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_BASS
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_TREBLE
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_MIXER1
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_MIXER2
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_VOLUME
);
return
0
;
}
static
int
tas3001c_enter_sleep
(
struct
tas3001c_data_t
*
self
)
{
/* Stub for now, but I have the details on low-power mode */
if
(
!
self
)
return
-
1
;
return
0
;
}
static
int
tas3001c_sync_biquad
(
struct
tas3001c_data_t
*
self
,
u_int
channel
,
u_int
filter
)
{
enum
tas3001c_reg_t
reg
;
if
(
channel
>=
TAS3001C_BIQUAD_CHANNEL_COUNT
||
filter
>=
TAS3001C_BIQUAD_FILTER_COUNT
)
return
-
EINVAL
;
reg
=
(
channel
?
TAS3001C_REG_RIGHT_BIQUAD0
:
TAS3001C_REG_LEFT_BIQUAD0
)
+
filter
;
return
tas3001c_sync_register
(
self
,
reg
);
}
static
int
tas3001c_write_biquad_shadow
(
struct
tas3001c_data_t
*
self
,
u_int
channel
,
u_int
filter
,
const
union
tas_biquad_t
*
biquad
)
{
tas_shadow_t
*
shadow
=
self
->
super
.
shadow
;
enum
tas3001c_reg_t
reg
;
if
(
channel
>=
TAS3001C_BIQUAD_CHANNEL_COUNT
||
filter
>=
TAS3001C_BIQUAD_FILTER_COUNT
)
return
-
EINVAL
;
reg
=
(
channel
?
TAS3001C_REG_RIGHT_BIQUAD0
:
TAS3001C_REG_LEFT_BIQUAD0
)
+
filter
;
SET_4_20
(
shadow
[
reg
],
0
,
biquad
->
coeff
.
b0
);
SET_4_20
(
shadow
[
reg
],
3
,
biquad
->
coeff
.
b1
);
SET_4_20
(
shadow
[
reg
],
6
,
biquad
->
coeff
.
b2
);
SET_4_20
(
shadow
[
reg
],
9
,
biquad
->
coeff
.
a1
);
SET_4_20
(
shadow
[
reg
],
12
,
biquad
->
coeff
.
a2
);
return
0
;
}
static
int
tas3001c_write_biquad
(
struct
tas3001c_data_t
*
self
,
u_int
channel
,
u_int
filter
,
const
union
tas_biquad_t
*
biquad
)
{
int
rc
;
rc
=
tas3001c_write_biquad_shadow
(
self
,
channel
,
filter
,
biquad
);
if
(
rc
<
0
)
return
rc
;
return
tas3001c_sync_biquad
(
self
,
channel
,
filter
);
}
static
int
tas3001c_write_biquad_list
(
struct
tas3001c_data_t
*
self
,
u_int
filter_count
,
u_int
flags
,
struct
tas_biquad_ctrl_t
*
biquads
)
{
int
i
;
int
rc
;
if
(
flags
&
TAS_BIQUAD_FAST_LOAD
)
tas3001c_fast_load
(
self
,
1
);
for
(
i
=
0
;
i
<
filter_count
;
i
++
)
{
rc
=
tas3001c_write_biquad
(
self
,
biquads
[
i
].
channel
,
biquads
[
i
].
filter
,
&
biquads
[
i
].
data
);
if
(
rc
<
0
)
break
;
}
if
(
flags
&
TAS_BIQUAD_FAST_LOAD
)
{
tas3001c_fast_load
(
self
,
0
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_BASS
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_TREBLE
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_MIXER1
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_MIXER2
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_VOLUME
);
}
return
rc
;
}
static
int
tas3001c_read_biquad
(
struct
tas3001c_data_t
*
self
,
u_int
channel
,
u_int
filter
,
union
tas_biquad_t
*
biquad
)
{
tas_shadow_t
*
shadow
=
self
->
super
.
shadow
;
enum
tas3001c_reg_t
reg
;
if
(
channel
>=
TAS3001C_BIQUAD_CHANNEL_COUNT
||
filter
>=
TAS3001C_BIQUAD_FILTER_COUNT
)
return
-
EINVAL
;
reg
=
(
channel
?
TAS3001C_REG_RIGHT_BIQUAD0
:
TAS3001C_REG_LEFT_BIQUAD0
)
+
filter
;
biquad
->
coeff
.
b0
=
GET_4_20
(
shadow
[
reg
],
0
);
biquad
->
coeff
.
b1
=
GET_4_20
(
shadow
[
reg
],
3
);
biquad
->
coeff
.
b2
=
GET_4_20
(
shadow
[
reg
],
6
);
biquad
->
coeff
.
a1
=
GET_4_20
(
shadow
[
reg
],
9
);
biquad
->
coeff
.
a2
=
GET_4_20
(
shadow
[
reg
],
12
);
return
0
;
}
static
int
tas3001c_eq_rw
(
struct
tas3001c_data_t
*
self
,
u_int
cmd
,
u_long
arg
)
{
int
rc
;
struct
tas_biquad_ctrl_t
biquad
;
if
(
copy_from_user
((
void
*
)
&
biquad
,
(
const
void
*
)
arg
,
sizeof
(
struct
tas_biquad_ctrl_t
)))
{
return
-
EFAULT
;
}
if
(
cmd
&
SIOC_IN
)
{
rc
=
tas3001c_write_biquad
(
self
,
biquad
.
channel
,
biquad
.
filter
,
&
biquad
.
data
);
if
(
rc
!=
0
)
return
rc
;
}
if
(
cmd
&
SIOC_OUT
)
{
rc
=
tas3001c_read_biquad
(
self
,
biquad
.
channel
,
biquad
.
filter
,
&
biquad
.
data
);
if
(
rc
!=
0
)
return
rc
;
if
(
copy_to_user
((
void
*
)
arg
,
(
const
void
*
)
&
biquad
,
sizeof
(
struct
tas_biquad_ctrl_t
)))
{
return
-
EFAULT
;
}
}
return
0
;
}
static
int
tas3001c_eq_list_rw
(
struct
tas3001c_data_t
*
self
,
u_int
cmd
,
u_long
arg
)
{
int
rc
;
int
filter_count
;
int
flags
;
int
i
,
j
;
char
sync_required
[
2
][
6
];
struct
tas_biquad_ctrl_t
biquad
;
memset
(
sync_required
,
0
,
sizeof
(
sync_required
));
if
(
copy_from_user
((
void
*
)
&
filter_count
,
(
const
void
*
)
arg
+
offsetof
(
struct
tas_biquad_ctrl_list_t
,
filter_count
),
sizeof
(
int
)))
{
return
-
EFAULT
;
}
if
(
copy_from_user
((
void
*
)
&
flags
,
(
const
void
*
)
arg
+
offsetof
(
struct
tas_biquad_ctrl_list_t
,
flags
),
sizeof
(
int
)))
{
return
-
EFAULT
;
}
if
(
cmd
&
SIOC_IN
)
{
}
for
(
i
=
0
;
i
<
filter_count
;
i
++
)
{
if
(
copy_from_user
((
void
*
)
&
biquad
,
(
const
void
*
)
arg
+
offsetof
(
struct
tas_biquad_ctrl_list_t
,
biquads
[
i
]),
sizeof
(
struct
tas_biquad_ctrl_t
)))
{
return
-
EFAULT
;
}
if
(
cmd
&
SIOC_IN
)
{
sync_required
[
biquad
.
channel
][
biquad
.
filter
]
=
1
;
rc
=
tas3001c_write_biquad_shadow
(
self
,
biquad
.
channel
,
biquad
.
filter
,
&
biquad
.
data
);
if
(
rc
!=
0
)
return
rc
;
}
if
(
cmd
&
SIOC_OUT
)
{
rc
=
tas3001c_read_biquad
(
self
,
biquad
.
channel
,
biquad
.
filter
,
&
biquad
.
data
);
if
(
rc
!=
0
)
return
rc
;
if
(
copy_to_user
((
void
*
)
arg
+
offsetof
(
struct
tas_biquad_ctrl_list_t
,
biquads
[
i
]),
(
const
void
*
)
&
biquad
,
sizeof
(
struct
tas_biquad_ctrl_t
)))
{
return
-
EFAULT
;
}
}
}
if
(
cmd
&
SIOC_IN
)
{
if
(
flags
&
TAS_BIQUAD_FAST_LOAD
)
tas3001c_fast_load
(
self
,
1
);
for
(
i
=
0
;
i
<
2
;
i
++
)
{
for
(
j
=
0
;
j
<
6
;
j
++
)
{
if
(
sync_required
[
i
][
j
])
{
rc
=
tas3001c_sync_biquad
(
self
,
i
,
j
);
if
(
rc
<
0
)
return
rc
;
}
}
}
if
(
flags
&
TAS_BIQUAD_FAST_LOAD
)
{
tas3001c_fast_load
(
self
,
0
);
/* now we need to set up the mixers again,
because leaving fast mode resets them. */
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_BASS
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_TREBLE
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_MIXER1
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_MIXER2
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_VOLUME
);
}
}
return
0
;
}
static
int
tas3001c_update_drce
(
struct
tas3001c_data_t
*
self
,
int
flags
,
struct
tas_drce_t
*
drce
)
{
tas_shadow_t
*
shadow
;
shadow
=
self
->
super
.
shadow
;
shadow
[
TAS3001C_REG_DRC
][
1
]
=
0xc1
;
if
(
flags
&
TAS_DRCE_THRESHOLD
)
{
self
->
drce_state
.
threshold
=
quantize_db
(
drce
->
threshold
);
shadow
[
TAS3001C_REG_DRC
][
2
]
=
db_to_regval
(
self
->
drce_state
.
threshold
);
}
if
(
flags
&
TAS_DRCE_ENABLE
)
{
self
->
drce_state
.
enable
=
drce
->
enable
;
}
if
(
!
self
->
drce_state
.
enable
)
{
shadow
[
TAS3001C_REG_DRC
][
0
]
=
0xf0
;
}
#ifdef DEBUG_DRCE
printk
(
"DRCE IOCTL: set [ ENABLE:%x THRESH:%x
\n
"
,
self
->
drce_state
.
enable
,
self
->
drce_state
.
threshold
);
printk
(
"DRCE IOCTL: reg [ %02x %02x ]
\n
"
,
(
unsigned
char
)
shadow
[
TAS3001C_REG_DRC
][
0
],
(
unsigned
char
)
shadow
[
TAS3001C_REG_DRC
][
1
]);
#endif
return
tas3001c_sync_register
(
self
,
TAS3001C_REG_DRC
);
}
static
int
tas3001c_drce_rw
(
struct
tas3001c_data_t
*
self
,
u_int
cmd
,
u_long
arg
)
{
int
rc
;
struct
tas_drce_ctrl_t
drce_ctrl
;
if
(
copy_from_user
((
void
*
)
&
drce_ctrl
,
(
const
void
*
)
arg
,
sizeof
(
struct
tas_drce_ctrl_t
)))
{
return
-
EFAULT
;
}
#ifdef DEBUG_DRCE
printk
(
"DRCE IOCTL: input [ FLAGS:%x ENABLE:%x THRESH:%x
\n
"
,
drce_ctrl
.
flags
,
drce_ctrl
.
data
.
enable
,
drce_ctrl
.
data
.
threshold
);
#endif
if
(
cmd
&
SIOC_IN
)
{
rc
=
tas3001c_update_drce
(
self
,
drce_ctrl
.
flags
,
&
drce_ctrl
.
data
);
if
(
rc
<
0
)
return
rc
;
}
if
(
cmd
&
SIOC_OUT
)
{
if
(
drce_ctrl
.
flags
&
TAS_DRCE_ENABLE
)
drce_ctrl
.
data
.
enable
=
self
->
drce_state
.
enable
;
if
(
drce_ctrl
.
flags
&
TAS_DRCE_THRESHOLD
)
drce_ctrl
.
data
.
threshold
=
self
->
drce_state
.
threshold
;
if
(
copy_to_user
((
void
*
)
arg
,
(
const
void
*
)
&
drce_ctrl
,
sizeof
(
struct
tas_drce_ctrl_t
)))
{
return
-
EFAULT
;
}
}
return
0
;
}
static
void
tas3001c_update_device_parameters
(
struct
tas3001c_data_t
*
self
)
{
int
i
,
j
;
if
(
!
self
)
return
;
if
(
self
->
output_id
==
TAS_OUTPUT_HEADPHONES
)
{
tas3001c_fast_load
(
self
,
1
);
for
(
i
=
0
;
i
<
TAS3001C_BIQUAD_CHANNEL_COUNT
;
i
++
)
{
for
(
j
=
0
;
j
<
TAS3001C_BIQUAD_FILTER_COUNT
;
j
++
)
{
tas3001c_write_biquad
(
self
,
i
,
j
,
&
tas3001c_eq_unity
);
}
}
tas3001c_fast_load
(
self
,
0
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_BASS
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_TREBLE
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_MIXER1
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_MIXER2
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_VOLUME
);
return
;
}
for
(
i
=
0
;
tas3001c_eq_prefs
[
i
];
i
++
)
{
struct
tas_eq_pref_t
*
eq
=
tas3001c_eq_prefs
[
i
];
if
(
eq
->
device_id
==
self
->
device_id
&&
(
eq
->
output_id
==
0
||
eq
->
output_id
==
self
->
output_id
)
&&
(
eq
->
speaker_id
==
0
||
eq
->
speaker_id
==
self
->
speaker_id
))
{
tas3001c_update_drce
(
self
,
TAS_DRCE_ALL
,
eq
->
drce
);
tas3001c_write_biquad_list
(
self
,
eq
->
filter_count
,
TAS_BIQUAD_FAST_LOAD
,
eq
->
biquads
);
break
;
}
}
}
static
void
tas3001c_device_change_handler
(
void
*
self
)
{
if
(
self
)
tas3001c_update_device_parameters
(
self
);
}
static
struct
work_struct
device_change
;
static
int
tas3001c_output_device_change
(
struct
tas3001c_data_t
*
self
,
int
device_id
,
int
output_id
,
int
speaker_id
)
{
self
->
device_id
=
device_id
;
self
->
output_id
=
output_id
;
self
->
speaker_id
=
speaker_id
;
schedule_work
(
&
device_change
);
return
0
;
}
static
int
tas3001c_device_ioctl
(
struct
tas3001c_data_t
*
self
,
u_int
cmd
,
u_long
arg
)
{
switch
(
cmd
)
{
case
TAS_READ_EQ
:
case
TAS_WRITE_EQ
:
return
tas3001c_eq_rw
(
self
,
cmd
,
arg
);
case
TAS_READ_EQ_LIST
:
case
TAS_WRITE_EQ_LIST
:
return
tas3001c_eq_list_rw
(
self
,
cmd
,
arg
);
case
TAS_READ_EQ_FILTER_COUNT
:
put_user
(
TAS3001C_BIQUAD_FILTER_COUNT
,
(
uint
*
)(
arg
));
return
0
;
case
TAS_READ_EQ_CHANNEL_COUNT
:
put_user
(
TAS3001C_BIQUAD_CHANNEL_COUNT
,
(
uint
*
)(
arg
));
return
0
;
case
TAS_READ_DRCE
:
case
TAS_WRITE_DRCE
:
return
tas3001c_drce_rw
(
self
,
cmd
,
arg
);
case
TAS_READ_DRCE_CAPS
:
put_user
(
TAS_DRCE_ENABLE
|
TAS_DRCE_THRESHOLD
,
(
uint
*
)(
arg
));
return
0
;
case
TAS_READ_DRCE_MIN
:
case
TAS_READ_DRCE_MAX
:
{
struct
tas_drce_ctrl_t
drce_ctrl
;
if
(
copy_from_user
((
void
*
)
&
drce_ctrl
,
(
const
void
*
)
arg
,
sizeof
(
struct
tas_drce_ctrl_t
)))
{
return
-
EFAULT
;
}
if
(
drce_ctrl
.
flags
&
TAS_DRCE_THRESHOLD
)
{
if
(
cmd
==
TAS_READ_DRCE_MIN
)
{
drce_ctrl
.
data
.
threshold
=-
36
<<
8
;
}
else
{
drce_ctrl
.
data
.
threshold
=-
6
<<
8
;
}
}
if
(
copy_to_user
((
void
*
)
arg
,
(
const
void
*
)
&
drce_ctrl
,
sizeof
(
struct
tas_drce_ctrl_t
)))
{
return
-
EFAULT
;
}
}
}
return
-
EINVAL
;
}
static
int
tas3001c_init_mixer
(
struct
tas3001c_data_t
*
self
)
{
unsigned
char
mcr
=
(
1
<<
6
)
+
(
2
<<
4
)
+
(
2
<<
2
);
/* Make sure something answers on the i2c bus */
if
(
tas3001c_write_register
(
self
,
TAS3001C_REG_MCR
,
&
mcr
,
WRITE_NORMAL
|
FORCE_WRITE
)
<
0
)
return
-
1
;
tas3001c_fast_load
(
self
,
1
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD0
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD1
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD2
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD3
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD4
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD5
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_RIGHT_BIQUAD6
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD0
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD1
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD2
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD3
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD4
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD5
);
(
void
)
tas3001c_sync_register
(
self
,
TAS3001C_REG_LEFT_BIQUAD6
);
tas3001c_fast_load
(
self
,
0
);
tas3001c_set_mixer_level
(
self
,
SOUND_MIXER_VOLUME
,
VOL_DEFAULT
<<
8
|
VOL_DEFAULT
);
tas3001c_set_mixer_level
(
self
,
SOUND_MIXER_PCM
,
INPUT_DEFAULT
<<
8
|
INPUT_DEFAULT
);
tas3001c_set_mixer_level
(
self
,
SOUND_MIXER_ALTPCM
,
0
);
tas3001c_set_mixer_level
(
self
,
SOUND_MIXER_BASS
,
BASS_DEFAULT
);
tas3001c_set_mixer_level
(
self
,
SOUND_MIXER_TREBLE
,
TREBLE_DEFAULT
);
return
0
;
}
static
int
tas3001c_uninit_mixer
(
struct
tas3001c_data_t
*
self
)
{
tas3001c_set_mixer_level
(
self
,
SOUND_MIXER_VOLUME
,
0
);
tas3001c_set_mixer_level
(
self
,
SOUND_MIXER_PCM
,
0
);
tas3001c_set_mixer_level
(
self
,
SOUND_MIXER_ALTPCM
,
0
);
tas3001c_set_mixer_level
(
self
,
SOUND_MIXER_BASS
,
0
);
tas3001c_set_mixer_level
(
self
,
SOUND_MIXER_TREBLE
,
0
);
return
0
;
}
static
int
tas3001c_init
(
struct
i2c_client
*
client
)
{
struct
tas3001c_data_t
*
self
;
size_t
sz
=
sizeof
(
*
self
)
+
(
TAS3001C_REG_MAX
*
sizeof
(
tas_shadow_t
));
int
i
,
j
;
self
=
kmalloc
(
sz
,
GFP_KERNEL
);
if
(
!
self
)
return
-
ENOMEM
;
memset
(
self
,
0
,
sz
);
self
->
super
.
client
=
client
;
self
->
super
.
shadow
=
(
tas_shadow_t
*
)(
self
+
1
);
self
->
output_id
=
TAS_OUTPUT_HEADPHONES
;
dev_set_drvdata
(
&
client
->
dev
,
self
);
for
(
i
=
0
;
i
<
TAS3001C_BIQUAD_CHANNEL_COUNT
;
i
++
)
for
(
j
=
0
;
j
<
TAS3001C_BIQUAD_FILTER_COUNT
;
j
++
)
tas3001c_write_biquad_shadow
(
self
,
i
,
j
,
&
tas3001c_eq_unity
);
INIT_WORK
(
&
device_change
,
tas3001c_device_change_handler
,
self
);
return
0
;
}
static
void
tas3001c_uninit
(
struct
tas3001c_data_t
*
self
)
{
tas3001c_uninit_mixer
(
self
);
kfree
(
self
);
}
struct
tas_driver_hooks_t
tas3001c_hooks
=
{
.
init
=
(
tas_hook_init_t
)
tas3001c_init
,
.
post_init
=
(
tas_hook_post_init_t
)
tas3001c_init_mixer
,
.
uninit
=
(
tas_hook_uninit_t
)
tas3001c_uninit
,
.
get_mixer_level
=
(
tas_hook_get_mixer_level_t
)
tas3001c_get_mixer_level
,
.
set_mixer_level
=
(
tas_hook_set_mixer_level_t
)
tas3001c_set_mixer_level
,
.
enter_sleep
=
(
tas_hook_enter_sleep_t
)
tas3001c_enter_sleep
,
.
leave_sleep
=
(
tas_hook_leave_sleep_t
)
tas3001c_leave_sleep
,
.
supported_mixers
=
(
tas_hook_supported_mixers_t
)
tas3001c_supported_mixers
,
.
mixer_is_stereo
=
(
tas_hook_mixer_is_stereo_t
)
tas3001c_mixer_is_stereo
,
.
stereo_mixers
=
(
tas_hook_stereo_mixers_t
)
tas3001c_stereo_mixers
,
.
output_device_change
=
(
tas_hook_output_device_change_t
)
tas3001c_output_device_change
,
.
device_ioctl
=
(
tas_hook_device_ioctl_t
)
tas3001c_device_ioctl
};
sound/oss/dmasound/tas3001c.h
0 → 100644
View file @
3f250722
/*
* Header file for the i2c/i2s based TA3001c sound chip used
* on some Apple hardware. Also known as "tumbler".
*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file COPYING in the main directory of this archive
* for more details.
*
* Written by Christopher C. Chimelis <chris@debian.org>
*/
#ifndef _TAS3001C_H_
#define _TAS3001C_H_
#include <linux/types.h>
#include "tas_common.h"
#include "tas_eq_prefs.h"
/*
* Macros that correspond to the registers that we write to
* when setting the various values.
*/
#define TAS3001C_VERSION "0.3"
#define TAS3001C_DATE "20011214"
#define I2C_DRIVERNAME_TAS3001C "TAS3001c driver V " TAS3001C_VERSION
#define I2C_DRIVERID_TAS3001C (I2C_DRIVERID_TAS_BASE+0)
extern
struct
tas_driver_hooks_t
tas3001c_hooks
;
extern
struct
tas_gain_t
tas3001c_gain
;
extern
struct
tas_eq_pref_t
*
tas3001c_eq_prefs
[];
enum
tas3001c_reg_t
{
TAS3001C_REG_MCR
=
0x01
,
TAS3001C_REG_DRC
=
0x02
,
TAS3001C_REG_VOLUME
=
0x04
,
TAS3001C_REG_TREBLE
=
0x05
,
TAS3001C_REG_BASS
=
0x06
,
TAS3001C_REG_MIXER1
=
0x07
,
TAS3001C_REG_MIXER2
=
0x08
,
TAS3001C_REG_LEFT_BIQUAD0
=
0x0a
,
TAS3001C_REG_LEFT_BIQUAD1
=
0x0b
,
TAS3001C_REG_LEFT_BIQUAD2
=
0x0c
,
TAS3001C_REG_LEFT_BIQUAD3
=
0x0d
,
TAS3001C_REG_LEFT_BIQUAD4
=
0x0e
,
TAS3001C_REG_LEFT_BIQUAD5
=
0x0f
,
TAS3001C_REG_LEFT_BIQUAD6
=
0x10
,
TAS3001C_REG_RIGHT_BIQUAD0
=
0x13
,
TAS3001C_REG_RIGHT_BIQUAD1
=
0x14
,
TAS3001C_REG_RIGHT_BIQUAD2
=
0x15
,
TAS3001C_REG_RIGHT_BIQUAD3
=
0x16
,
TAS3001C_REG_RIGHT_BIQUAD4
=
0x17
,
TAS3001C_REG_RIGHT_BIQUAD5
=
0x18
,
TAS3001C_REG_RIGHT_BIQUAD6
=
0x19
,
TAS3001C_REG_MAX
=
0x20
};
#endif
/* _TAS3001C_H_ */
sound/oss/dmasound/tas3001c_tables.c
0 → 100644
View file @
3f250722
#include "tas_common.h"
#include "tas_eq_prefs.h"
static
struct
tas_drce_t
eqp_0e_2_1_drce
=
{
enable:
1
,
above:
{
val
:
3
.
0
*
(
1
<<
8
),
expand
:
0
},
below:
{
val
:
1
.
0
*
(
1
<<
8
),
expand
:
0
},
threshold:
-
15
.
33
*
(
1
<<
8
),
energy:
2
.
4
*
(
1
<<
12
),
attack:
0
.
013
*
(
1
<<
12
),
decay:
0
.
212
*
(
1
<<
12
),
};
static
struct
tas_biquad_ctrl_t
eqp_0e_2_1_biquads
[]
=
{
{
channel
:
0
,
filter
:
0
,
data
:
{
coeff
:
{
0x0FCAD3
,
0xE06A58
,
0x0FCAD3
,
0xE06B09
,
0x0F9657
}
}
},
{
channel
:
0
,
filter
:
1
,
data
:
{
coeff
:
{
0x041731
,
0x082E63
,
0x041731
,
0xFD8D08
,
0x02CFBD
}
}
},
{
channel
:
0
,
filter
:
2
,
data
:
{
coeff
:
{
0x0FFDC7
,
0xE0524C
,
0x0FBFAA
,
0xE0524C
,
0x0FBD72
}
}
},
{
channel
:
0
,
filter
:
3
,
data
:
{
coeff
:
{
0x0F3D35
,
0xE228CA
,
0x0EC7B2
,
0xE228CA
,
0x0E04E8
}
}
},
{
channel
:
0
,
filter
:
4
,
data
:
{
coeff
:
{
0x0FCEBF
,
0xE181C2
,
0x0F2656
,
0xE181C2
,
0x0EF516
}
}
},
{
channel
:
0
,
filter
:
5
,
data
:
{
coeff
:
{
0x0EC417
,
0x073E22
,
0x0B0633
,
0x073E22
,
0x09CA4A
}
}
},
{
channel
:
1
,
filter
:
0
,
data
:
{
coeff
:
{
0x0FCAD3
,
0xE06A58
,
0x0FCAD3
,
0xE06B09
,
0x0F9657
}
}
},
{
channel
:
1
,
filter
:
1
,
data
:
{
coeff
:
{
0x041731
,
0x082E63
,
0x041731
,
0xFD8D08
,
0x02CFBD
}
}
},
{
channel
:
1
,
filter
:
2
,
data
:
{
coeff
:
{
0x0FFDC7
,
0xE0524C
,
0x0FBFAA
,
0xE0524C
,
0x0FBD72
}
}
},
{
channel
:
1
,
filter
:
3
,
data
:
{
coeff
:
{
0x0F3D35
,
0xE228CA
,
0x0EC7B2
,
0xE228CA
,
0x0E04E8
}
}
},
{
channel
:
1
,
filter
:
4
,
data
:
{
coeff
:
{
0x0FCEBF
,
0xE181C2
,
0x0F2656
,
0xE181C2
,
0x0EF516
}
}
},
{
channel
:
1
,
filter
:
5
,
data
:
{
coeff
:
{
0x0EC417
,
0x073E22
,
0x0B0633
,
0x073E22
,
0x09CA4A
}
}
},
};
static
struct
tas_eq_pref_t
eqp_0e_2_1
=
{
sample_rate:
44100
,
device_id:
0x0e
,
output_id:
TAS_OUTPUT_EXTERNAL_SPKR
,
speaker_id:
0x01
,
drce:
&
eqp_0e_2_1_drce
,
filter_count:
12
,
biquads:
eqp_0e_2_1_biquads
};
/* ======================================================================== */
static
struct
tas_drce_t
eqp_10_1_0_drce
=
{
enable:
1
,
above:
{
val
:
3
.
0
*
(
1
<<
8
),
expand
:
0
},
below:
{
val
:
1
.
0
*
(
1
<<
8
),
expand
:
0
},
threshold:
-
12
.
46
*
(
1
<<
8
),
energy:
2
.
4
*
(
1
<<
12
),
attack:
0
.
013
*
(
1
<<
12
),
decay:
0
.
212
*
(
1
<<
12
),
};
static
struct
tas_biquad_ctrl_t
eqp_10_1_0_biquads
[]
=
{
{
channel
:
0
,
filter
:
0
,
data
:
{
coeff
:
{
0x0F4A12
,
0xE16BDA
,
0x0F4A12
,
0xE173F0
,
0x0E9C3A
}
}
},
{
channel
:
0
,
filter
:
1
,
data
:
{
coeff
:
{
0x02DD54
,
0x05BAA8
,
0x02DD54
,
0xF8001D
,
0x037532
}
}
},
{
channel
:
0
,
filter
:
2
,
data
:
{
coeff
:
{
0x0E2FC7
,
0xE4D5DC
,
0x0D7477
,
0xE4D5DC
,
0x0BA43F
}
}
},
{
channel
:
0
,
filter
:
3
,
data
:
{
coeff
:
{
0x0E7899
,
0xE67CCA
,
0x0D0E93
,
0xE67CCA
,
0x0B872D
}
}
},
{
channel
:
0
,
filter
:
4
,
data
:
{
coeff
:
{
0x100000
,
0x000000
,
0x000000
,
0x000000
,
0x000000
}
}
},
{
channel
:
0
,
filter
:
5
,
data
:
{
coeff
:
{
0x100000
,
0x000000
,
0x000000
,
0x000000
,
0x000000
}
}
},
{
channel
:
1
,
filter
:
0
,
data
:
{
coeff
:
{
0x0F4A12
,
0xE16BDA
,
0x0F4A12
,
0xE173F0
,
0x0E9C3A
}
}
},
{
channel
:
1
,
filter
:
1
,
data
:
{
coeff
:
{
0x02DD54
,
0x05BAA8
,
0x02DD54
,
0xF8001D
,
0x037532
}
}
},
{
channel
:
1
,
filter
:
2
,
data
:
{
coeff
:
{
0x0E2FC7
,
0xE4D5DC
,
0x0D7477
,
0xE4D5DC
,
0x0BA43F
}
}
},
{
channel
:
1
,
filter
:
3
,
data
:
{
coeff
:
{
0x0E7899
,
0xE67CCA
,
0x0D0E93
,
0xE67CCA
,
0x0B872D
}
}
},
{
channel
:
1
,
filter
:
4
,
data
:
{
coeff
:
{
0x100000
,
0x000000
,
0x000000
,
0x000000
,
0x000000
}
}
},
{
channel
:
1
,
filter
:
5
,
data
:
{
coeff
:
{
0x100000
,
0x000000
,
0x000000
,
0x000000
,
0x000000
}
}
},
};
static
struct
tas_eq_pref_t
eqp_10_1_0
=
{
sample_rate:
44100
,
device_id:
0x10
,
output_id:
TAS_OUTPUT_INTERNAL_SPKR
,
speaker_id:
0x00
,
drce:
&
eqp_10_1_0_drce
,
filter_count:
12
,
biquads:
eqp_10_1_0_biquads
};
/* ======================================================================== */
static
struct
tas_drce_t
eqp_15_2_1_drce
=
{
enable:
1
,
above:
{
val
:
3
.
0
*
(
1
<<
8
),
expand
:
0
},
below:
{
val
:
1
.
0
*
(
1
<<
8
),
expand
:
0
},
threshold:
-
15
.
33
*
(
1
<<
8
),
energy:
2
.
4
*
(
1
<<
12
),
attack:
0
.
013
*
(
1
<<
12
),
decay:
0
.
212
*
(
1
<<
12
),
};
static
struct
tas_biquad_ctrl_t
eqp_15_2_1_biquads
[]
=
{
{
channel
:
0
,
filter
:
0
,
data
:
{
coeff
:
{
0x0FE143
,
0xE05204
,
0x0FCCC5
,
0xE05266
,
0x0FAE6B
}
}
},
{
channel
:
0
,
filter
:
1
,
data
:
{
coeff
:
{
0x102383
,
0xE03A03
,
0x0FA325
,
0xE03A03
,
0x0FC6A8
}
}
},
{
channel
:
0
,
filter
:
2
,
data
:
{
coeff
:
{
0x0FF2AB
,
0xE06285
,
0x0FB20A
,
0xE06285
,
0x0FA4B5
}
}
},
{
channel
:
0
,
filter
:
3
,
data
:
{
coeff
:
{
0x0F544D
,
0xE35971
,
0x0D8F3A
,
0xE35971
,
0x0CE388
}
}
},
{
channel
:
0
,
filter
:
4
,
data
:
{
coeff
:
{
0x13E1D3
,
0xF3ECB5
,
0x042227
,
0xF3ECB5
,
0x0803FA
}
}
},
{
channel
:
0
,
filter
:
5
,
data
:
{
coeff
:
{
0x0AC119
,
0x034181
,
0x078AB1
,
0x034181
,
0x024BCA
}
}
},
{
channel
:
1
,
filter
:
0
,
data
:
{
coeff
:
{
0x0FE143
,
0xE05204
,
0x0FCCC5
,
0xE05266
,
0x0FAE6B
}
}
},
{
channel
:
1
,
filter
:
1
,
data
:
{
coeff
:
{
0x102383
,
0xE03A03
,
0x0FA325
,
0xE03A03
,
0x0FC6A8
}
}
},
{
channel
:
1
,
filter
:
2
,
data
:
{
coeff
:
{
0x0FF2AB
,
0xE06285
,
0x0FB20A
,
0xE06285
,
0x0FA4B5
}
}
},
{
channel
:
1
,
filter
:
3
,
data
:
{
coeff
:
{
0x0F544D
,
0xE35971
,
0x0D8F3A
,
0xE35971
,
0x0CE388
}
}
},
{
channel
:
1
,
filter
:
4
,
data
:
{
coeff
:
{
0x13E1D3
,
0xF3ECB5
,
0x042227
,
0xF3ECB5
,
0x0803FA
}
}
},
{
channel
:
1
,
filter
:
5
,
data
:
{
coeff
:
{
0x0AC119
,
0x034181
,
0x078AB1
,
0x034181
,
0x024BCA
}
}
},
};
static
struct
tas_eq_pref_t
eqp_15_2_1
=
{
sample_rate:
44100
,
device_id:
0x15
,
output_id:
TAS_OUTPUT_EXTERNAL_SPKR
,
speaker_id:
0x01
,
drce:
&
eqp_15_2_1_drce
,
filter_count:
12
,
biquads:
eqp_15_2_1_biquads
};
/* ======================================================================== */
static
struct
tas_drce_t
eqp_15_1_0_drce
=
{
enable:
1
,
above:
{
val
:
3
.
0
*
(
1
<<
8
),
expand
:
0
},
below:
{
val
:
1
.
0
*
(
1
<<
8
),
expand
:
0
},
threshold:
0
.
0
*
(
1
<<
8
),
energy:
2
.
4
*
(
1
<<
12
),
attack:
0
.
013
*
(
1
<<
12
),
decay:
0
.
212
*
(
1
<<
12
),
};
static
struct
tas_biquad_ctrl_t
eqp_15_1_0_biquads
[]
=
{
{
channel
:
0
,
filter
:
0
,
data
:
{
coeff
:
{
0x0FAD08
,
0xE0A5EF
,
0x0FAD08
,
0xE0A79D
,
0x0F5BBE
}
}
},
{
channel
:
0
,
filter
:
1
,
data
:
{
coeff
:
{
0x04B38D
,
0x09671B
,
0x04B38D
,
0x000F71
,
0x02BEC5
}
}
},
{
channel
:
0
,
filter
:
2
,
data
:
{
coeff
:
{
0x0FDD32
,
0xE0A56F
,
0x0F8A69
,
0xE0A56F
,
0x0F679C
}
}
},
{
channel
:
0
,
filter
:
3
,
data
:
{
coeff
:
{
0x0FD284
,
0xE135FB
,
0x0F2161
,
0xE135FB
,
0x0EF3E5
}
}
},
{
channel
:
0
,
filter
:
4
,
data
:
{
coeff
:
{
0x0E81B1
,
0xE6283F
,
0x0CE49D
,
0xE6283F
,
0x0B664F
}
}
},
{
channel
:
0
,
filter
:
5
,
data
:
{
coeff
:
{
0x0F2D62
,
0xE98797
,
0x0D1E19
,
0xE98797
,
0x0C4B7B
}
}
},
{
channel
:
1
,
filter
:
0
,
data
:
{
coeff
:
{
0x0FAD08
,
0xE0A5EF
,
0x0FAD08
,
0xE0A79D
,
0x0F5BBE
}
}
},
{
channel
:
1
,
filter
:
1
,
data
:
{
coeff
:
{
0x04B38D
,
0x09671B
,
0x04B38D
,
0x000F71
,
0x02BEC5
}
}
},
{
channel
:
1
,
filter
:
2
,
data
:
{
coeff
:
{
0x0FDD32
,
0xE0A56F
,
0x0F8A69
,
0xE0A56F
,
0x0F679C
}
}
},
{
channel
:
1
,
filter
:
3
,
data
:
{
coeff
:
{
0x0FD284
,
0xE135FB
,
0x0F2161
,
0xE135FB
,
0x0EF3E5
}
}
},
{
channel
:
1
,
filter
:
4
,
data
:
{
coeff
:
{
0x0E81B1
,
0xE6283F
,
0x0CE49D
,
0xE6283F
,
0x0B664F
}
}
},
{
channel
:
1
,
filter
:
5
,
data
:
{
coeff
:
{
0x0F2D62
,
0xE98797
,
0x0D1E19
,
0xE98797
,
0x0C4B7B
}
}
},
};
static
struct
tas_eq_pref_t
eqp_15_1_0
=
{
sample_rate:
44100
,
device_id:
0x15
,
output_id:
TAS_OUTPUT_INTERNAL_SPKR
,
speaker_id:
0x00
,
drce:
&
eqp_15_1_0_drce
,
filter_count:
12
,
biquads:
eqp_15_1_0_biquads
};
/* ======================================================================== */
static
struct
tas_drce_t
eqp_0f_2_1_drce
=
{
enable:
1
,
above:
{
val
:
3
.
0
*
(
1
<<
8
),
expand
:
0
},
below:
{
val
:
1
.
0
*
(
1
<<
8
),
expand
:
0
},
threshold:
-
15
.
33
*
(
1
<<
8
),
energy:
2
.
4
*
(
1
<<
12
),
attack:
0
.
013
*
(
1
<<
12
),
decay:
0
.
212
*
(
1
<<
12
),
};
static
struct
tas_biquad_ctrl_t
eqp_0f_2_1_biquads
[]
=
{
{
channel
:
0
,
filter
:
0
,
data
:
{
coeff
:
{
0x0FE143
,
0xE05204
,
0x0FCCC5
,
0xE05266
,
0x0FAE6B
}
}
},
{
channel
:
0
,
filter
:
1
,
data
:
{
coeff
:
{
0x102383
,
0xE03A03
,
0x0FA325
,
0xE03A03
,
0x0FC6A8
}
}
},
{
channel
:
0
,
filter
:
2
,
data
:
{
coeff
:
{
0x0FF2AB
,
0xE06285
,
0x0FB20A
,
0xE06285
,
0x0FA4B5
}
}
},
{
channel
:
0
,
filter
:
3
,
data
:
{
coeff
:
{
0x0F544D
,
0xE35971
,
0x0D8F3A
,
0xE35971
,
0x0CE388
}
}
},
{
channel
:
0
,
filter
:
4
,
data
:
{
coeff
:
{
0x13E1D3
,
0xF3ECB5
,
0x042227
,
0xF3ECB5
,
0x0803FA
}
}
},
{
channel
:
0
,
filter
:
5
,
data
:
{
coeff
:
{
0x0AC119
,
0x034181
,
0x078AB1
,
0x034181
,
0x024BCA
}
}
},
{
channel
:
1
,
filter
:
0
,
data
:
{
coeff
:
{
0x0FE143
,
0xE05204
,
0x0FCCC5
,
0xE05266
,
0x0FAE6B
}
}
},
{
channel
:
1
,
filter
:
1
,
data
:
{
coeff
:
{
0x102383
,
0xE03A03
,
0x0FA325
,
0xE03A03
,
0x0FC6A8
}
}
},
{
channel
:
1
,
filter
:
2
,
data
:
{
coeff
:
{
0x0FF2AB
,
0xE06285
,
0x0FB20A
,
0xE06285
,
0x0FA4B5
}
}
},
{
channel
:
1
,
filter
:
3
,
data
:
{
coeff
:
{
0x0F544D
,
0xE35971
,
0x0D8F3A
,
0xE35971
,
0x0CE388
}
}
},
{
channel
:
1
,
filter
:
4
,
data
:
{
coeff
:
{
0x13E1D3
,
0xF3ECB5
,
0x042227
,
0xF3ECB5
,
0x0803FA
}
}
},
{
channel
:
1
,
filter
:
5
,
data
:
{
coeff
:
{
0x0AC119
,
0x034181
,
0x078AB1
,
0x034181
,
0x024BCA
}
}
},
};
static
struct
tas_eq_pref_t
eqp_0f_2_1
=
{
sample_rate:
44100
,
device_id:
0x0f
,
output_id:
TAS_OUTPUT_EXTERNAL_SPKR
,
speaker_id:
0x01
,
drce:
&
eqp_0f_2_1_drce
,
filter_count:
12
,
biquads:
eqp_0f_2_1_biquads
};
/* ======================================================================== */
static
struct
tas_drce_t
eqp_0f_1_0_drce
=
{
enable:
1
,
above:
{
val
:
3
.
0
*
(
1
<<
8
),
expand
:
0
},
below:
{
val
:
1
.
0
*
(
1
<<
8
),
expand
:
0
},
threshold:
-
15
.
33
*
(
1
<<
8
),
energy:
2
.
4
*
(
1
<<
12
),
attack:
0
.
013
*
(
1
<<
12
),
decay:
0
.
212
*
(
1
<<
12
),
};
static
struct
tas_biquad_ctrl_t
eqp_0f_1_0_biquads
[]
=
{
{
channel
:
0
,
filter
:
0
,
data
:
{
coeff
:
{
0x0FCAD3
,
0xE06A58
,
0x0FCAD3
,
0xE06B09
,
0x0F9657
}
}
},
{
channel
:
0
,
filter
:
1
,
data
:
{
coeff
:
{
0x041731
,
0x082E63
,
0x041731
,
0xFD8D08
,
0x02CFBD
}
}
},
{
channel
:
0
,
filter
:
2
,
data
:
{
coeff
:
{
0x0FFDC7
,
0xE0524C
,
0x0FBFAA
,
0xE0524C
,
0x0FBD72
}
}
},
{
channel
:
0
,
filter
:
3
,
data
:
{
coeff
:
{
0x0F3D35
,
0xE228CA
,
0x0EC7B2
,
0xE228CA
,
0x0E04E8
}
}
},
{
channel
:
0
,
filter
:
4
,
data
:
{
coeff
:
{
0x0FCEBF
,
0xE181C2
,
0x0F2656
,
0xE181C2
,
0x0EF516
}
}
},
{
channel
:
0
,
filter
:
5
,
data
:
{
coeff
:
{
0x0EC417
,
0x073E22
,
0x0B0633
,
0x073E22
,
0x09CA4A
}
}
},
{
channel
:
1
,
filter
:
0
,
data
:
{
coeff
:
{
0x0FCAD3
,
0xE06A58
,
0x0FCAD3
,
0xE06B09
,
0x0F9657
}
}
},
{
channel
:
1
,
filter
:
1
,
data
:
{
coeff
:
{
0x041731
,
0x082E63
,
0x041731
,
0xFD8D08
,
0x02CFBD
}
}
},
{
channel
:
1
,
filter
:
2
,
data
:
{
coeff
:
{
0x0FFDC7
,
0xE0524C
,
0x0FBFAA
,
0xE0524C
,
0x0FBD72
}
}
},
{
channel
:
1
,
filter
:
3
,
data
:
{
coeff
:
{
0x0F3D35
,
0xE228CA
,
0x0EC7B2
,
0xE228CA
,
0x0E04E8
}
}
},
{
channel
:
1
,
filter
:
4
,
data
:
{
coeff
:
{
0x0FCEBF
,
0xE181C2
,
0x0F2656
,
0xE181C2
,
0x0EF516
}
}
},
{
channel
:
1
,
filter
:
5
,
data
:
{
coeff
:
{
0x0EC417
,
0x073E22
,
0x0B0633
,
0x073E22
,
0x09CA4A
}
}
},
};
static
struct
tas_eq_pref_t
eqp_0f_1_0
=
{
sample_rate:
44100
,
device_id:
0x0f
,
output_id:
TAS_OUTPUT_INTERNAL_SPKR
,
speaker_id:
0x00
,
drce:
&
eqp_0f_1_0_drce
,
filter_count:
12
,
biquads:
eqp_0f_1_0_biquads
};
/* ======================================================================== */
static
uint
tas3001c_master_tab
[]
=
{
0x0
,
0x75
,
0x9c
,
0xbb
,
0xdb
,
0xfb
,
0x11e
,
0x143
,
0x16b
,
0x196
,
0x1c3
,
0x1f5
,
0x229
,
0x263
,
0x29f
,
0x2e1
,
0x328
,
0x373
,
0x3c5
,
0x41b
,
0x478
,
0x4dc
,
0x547
,
0x5b8
,
0x633
,
0x6b5
,
0x740
,
0x7d5
,
0x873
,
0x91c
,
0x9d2
,
0xa92
,
0xb5e
,
0xc39
,
0xd22
,
0xe19
,
0xf20
,
0x1037
,
0x1161
,
0x129e
,
0x13ed
,
0x1551
,
0x16ca
,
0x185d
,
0x1a08
,
0x1bcc
,
0x1dac
,
0x1fa7
,
0x21c1
,
0x23fa
,
0x2655
,
0x28d6
,
0x2b7c
,
0x2e4a
,
0x3141
,
0x3464
,
0x37b4
,
0x3b35
,
0x3ee9
,
0x42d3
,
0x46f6
,
0x4b53
,
0x4ff0
,
0x54ce
,
0x59f2
,
0x5f5f
,
0x6519
,
0x6b24
,
0x7183
,
0x783c
,
0x7f53
,
0x86cc
,
0x8ead
,
0x96fa
,
0x9fba
,
0xa8f2
,
0xb2a7
,
0xbce1
,
0xc7a5
,
0xd2fa
,
0xdee8
,
0xeb75
,
0xf8aa
,
0x1068e
,
0x1152a
,
0x12487
,
0x134ad
,
0x145a5
,
0x1577b
,
0x16a37
,
0x17df5
,
0x192bd
,
0x1a890
,
0x1bf7b
,
0x1d78d
,
0x1f0d1
,
0x20b55
,
0x22727
,
0x24456
,
0x262f2
,
0x2830b
};
static
uint
tas3001c_mixer_tab
[]
=
{
0x0
,
0x748
,
0x9be
,
0xbaf
,
0xda4
,
0xfb1
,
0x11de
,
0x1431
,
0x16ad
,
0x1959
,
0x1c37
,
0x1f4b
,
0x2298
,
0x2628
,
0x29fb
,
0x2e12
,
0x327d
,
0x3734
,
0x3c47
,
0x41b4
,
0x4787
,
0x4dbe
,
0x546d
,
0x5b86
,
0x632e
,
0x6b52
,
0x7400
,
0x7d54
,
0x873b
,
0x91c6
,
0x9d1a
,
0xa920
,
0xb5e5
,
0xc38c
,
0xd21b
,
0xe18f
,
0xf1f5
,
0x1036a
,
0x1160f
,
0x129d6
,
0x13ed0
,
0x1550c
,
0x16ca0
,
0x185c9
,
0x1a07b
,
0x1bcc3
,
0x1dab9
,
0x1fa75
,
0x21c0f
,
0x23fa3
,
0x26552
,
0x28d64
,
0x2b7c9
,
0x2e4a2
,
0x31411
,
0x3463b
,
0x37b44
,
0x3b353
,
0x3ee94
,
0x42d30
,
0x46f55
,
0x4b533
,
0x4fefc
,
0x54ce5
,
0x59f25
,
0x5f5f6
,
0x65193
,
0x6b23c
,
0x71835
,
0x783c3
,
0x7f52c
,
0x86cc0
,
0x8eacc
,
0x96fa5
,
0x9fba0
,
0xa8f1a
,
0xb2a71
,
0xbce0a
,
0xc7a4a
,
0xd2fa0
,
0xdee7b
,
0xeb752
,
0xf8a9f
,
0x1068e4
,
0x1152a3
,
0x12486a
,
0x134ac8
,
0x145a55
,
0x1577ac
,
0x16a370
,
0x17df51
,
0x192bc2
,
0x1a88f8
,
0x1bf7b7
,
0x1d78c9
,
0x1f0d04
,
0x20b542
,
0x227268
,
0x244564
,
0x262f26
,
0x2830af
};
static
uint
tas3001c_treble_tab
[]
=
{
0x96
,
0x95
,
0x95
,
0x94
,
0x93
,
0x92
,
0x92
,
0x91
,
0x90
,
0x90
,
0x8f
,
0x8e
,
0x8d
,
0x8d
,
0x8c
,
0x8b
,
0x8a
,
0x8a
,
0x89
,
0x88
,
0x88
,
0x87
,
0x86
,
0x85
,
0x85
,
0x84
,
0x83
,
0x83
,
0x82
,
0x81
,
0x80
,
0x80
,
0x7f
,
0x7e
,
0x7e
,
0x7d
,
0x7c
,
0x7b
,
0x7b
,
0x7a
,
0x79
,
0x78
,
0x78
,
0x77
,
0x76
,
0x76
,
0x75
,
0x74
,
0x73
,
0x73
,
0x72
,
0x71
,
0x71
,
0x70
,
0x6e
,
0x6d
,
0x6d
,
0x6c
,
0x6b
,
0x6a
,
0x69
,
0x68
,
0x67
,
0x66
,
0x65
,
0x63
,
0x62
,
0x62
,
0x60
,
0x5f
,
0x5d
,
0x5c
,
0x5a
,
0x58
,
0x56
,
0x55
,
0x53
,
0x51
,
0x4f
,
0x4c
,
0x4a
,
0x48
,
0x45
,
0x43
,
0x40
,
0x3d
,
0x3a
,
0x37
,
0x35
,
0x32
,
0x2e
,
0x2a
,
0x27
,
0x22
,
0x1e
,
0x1a
,
0x15
,
0x11
,
0xc
,
0x7
,
0x1
};
static
uint
tas3001c_bass_tab
[]
=
{
0x86
,
0x83
,
0x81
,
0x7f
,
0x7d
,
0x7b
,
0x79
,
0x78
,
0x76
,
0x75
,
0x74
,
0x72
,
0x71
,
0x6f
,
0x6e
,
0x6d
,
0x6c
,
0x6b
,
0x69
,
0x67
,
0x65
,
0x64
,
0x61
,
0x60
,
0x5e
,
0x5d
,
0x5c
,
0x5b
,
0x5a
,
0x59
,
0x58
,
0x57
,
0x56
,
0x55
,
0x55
,
0x54
,
0x53
,
0x52
,
0x50
,
0x4f
,
0x4d
,
0x4c
,
0x4b
,
0x49
,
0x47
,
0x45
,
0x44
,
0x42
,
0x41
,
0x3f
,
0x3e
,
0x3d
,
0x3c
,
0x3b
,
0x39
,
0x38
,
0x37
,
0x36
,
0x35
,
0x34
,
0x33
,
0x31
,
0x30
,
0x2f
,
0x2e
,
0x2c
,
0x2b
,
0x2b
,
0x29
,
0x28
,
0x27
,
0x26
,
0x25
,
0x24
,
0x22
,
0x21
,
0x20
,
0x1e
,
0x1c
,
0x19
,
0x18
,
0x18
,
0x17
,
0x16
,
0x15
,
0x14
,
0x13
,
0x12
,
0x11
,
0x10
,
0xf
,
0xe
,
0xd
,
0xb
,
0xa
,
0x9
,
0x8
,
0x6
,
0x4
,
0x2
,
0x1
};
struct
tas_gain_t
tas3001c_gain
=
{
master:
tas3001c_master_tab
,
treble:
tas3001c_treble_tab
,
bass:
tas3001c_bass_tab
,
mixer:
tas3001c_mixer_tab
};
struct
tas_eq_pref_t
*
tas3001c_eq_prefs
[]
=
{
&
eqp_0e_2_1
,
&
eqp_10_1_0
,
&
eqp_15_2_1
,
&
eqp_15_1_0
,
&
eqp_0f_2_1
,
&
eqp_0f_1_0
,
NULL
};
sound/oss/dmasound/tas3004.c
0 → 100644
View file @
3f250722
/*
* Driver for the i2c/i2s based TA3004 sound chip used
* on some Apple hardware. Also known as "snapper".
*
* Tobias Sargeant <tobias.sargeant@bigpond.com>
* Based upon tas3001c.c by Christopher C. Chimelis <chris@debian.org>:
*
* TODO:
* -----
* * Enable control over input line 2 (is this connected?)
* * Implement sleep support (at least mute everything and
* * set gains to minimum during sleep)
*
*/
#include <linux/version.h>
#include <linux/module.h>
#include <linux/slab.h>
#include <linux/proc_fs.h>
#include <linux/ioport.h>
#include <linux/sysctl.h>
#include <linux/types.h>
#include <linux/i2c.h>
#include <linux/init.h>
#include <linux/soundcard.h>
#include <linux/interrupt.h>
#include <linux/workqueue.h>
#include <asm/uaccess.h>
#include <asm/errno.h>
#include <asm/io.h>
#include <asm/prom.h>
#include "dmasound.h"
#include "tas_common.h"
#include "tas3004.h"
#include "tas_ioctl.h"
/* #define DEBUG_DRCE */
#define TAS3004_BIQUAD_FILTER_COUNT 7
#define TAS3004_BIQUAD_CHANNEL_COUNT 2
#define VOL_DEFAULT (100 * 4 / 5)
#define INPUT_DEFAULT (100 * 4 / 5)
#define BASS_DEFAULT (100 / 2)
#define TREBLE_DEFAULT (100 / 2)
struct
tas3004_data_t
{
struct
tas_data_t
super
;
int
device_id
;
int
output_id
;
int
speaker_id
;
struct
tas_drce_t
drce_state
;
};
#define MAKE_TIME(sec,usec) (((sec)<<12) + (50000+(usec/10)*(1<<12))/100000)
#define MAKE_RATIO(i,f) (((i)<<8) + ((500+(f)*(1<<8))/1000))
static
const
union
tas_biquad_t
tas3004_eq_unity
=
{
.
buf
=
{
0x100000
,
0x000000
,
0x000000
,
0x000000
,
0x000000
},
};
static
const
struct
tas_drce_t
tas3004_drce_min
=
{
.
enable
=
1
,
.
above
=
{
.
val
=
MAKE_RATIO
(
16
,
0
),
.
expand
=
0
},
.
below
=
{
.
val
=
MAKE_RATIO
(
2
,
0
),
.
expand
=
0
},
.
threshold
=
-
0x59a0
,
.
energy
=
MAKE_TIME
(
0
,
1700
),
.
attack
=
MAKE_TIME
(
0
,
1700
),
.
decay
=
MAKE_TIME
(
0
,
1700
),
};
static
const
struct
tas_drce_t
tas3004_drce_max
=
{
.
enable
=
1
,
.
above
=
{
.
val
=
MAKE_RATIO
(
1
,
500
),
.
expand
=
1
},
.
below
=
{
.
val
=
MAKE_RATIO
(
2
,
0
),
.
expand
=
1
},
.
threshold
=
-
0x0
,
.
energy
=
MAKE_TIME
(
2
,
400000
),
.
attack
=
MAKE_TIME
(
2
,
400000
),
.
decay
=
MAKE_TIME
(
2
,
400000
),
};
static
const
unsigned
short
time_constants
[]
=
{
MAKE_TIME
(
0
,
1700
),
MAKE_TIME
(
0
,
3500
),
MAKE_TIME
(
0
,
6700
),
MAKE_TIME
(
0
,
13000
),
MAKE_TIME
(
0
,
26000
),
MAKE_TIME
(
0
,
53000
),
MAKE_TIME
(
0
,
106000
),
MAKE_TIME
(
0
,
212000
),
MAKE_TIME
(
0
,
425000
),
MAKE_TIME
(
0
,
850000
),
MAKE_TIME
(
1
,
700000
),
MAKE_TIME
(
2
,
400000
),
};
static
const
unsigned
short
above_threshold_compression_ratio
[]
=
{
MAKE_RATIO
(
1
,
70
),
MAKE_RATIO
(
1
,
140
),
MAKE_RATIO
(
1
,
230
),
MAKE_RATIO
(
1
,
330
),
MAKE_RATIO
(
1
,
450
),
MAKE_RATIO
(
1
,
600
),
MAKE_RATIO
(
1
,
780
),
MAKE_RATIO
(
2
,
0
),
MAKE_RATIO
(
2
,
290
),
MAKE_RATIO
(
2
,
670
),
MAKE_RATIO
(
3
,
200
),
MAKE_RATIO
(
4
,
0
),
MAKE_RATIO
(
5
,
330
),
MAKE_RATIO
(
8
,
0
),
MAKE_RATIO
(
16
,
0
),
};
static
const
unsigned
short
above_threshold_expansion_ratio
[]
=
{
MAKE_RATIO
(
1
,
60
),
MAKE_RATIO
(
1
,
130
),
MAKE_RATIO
(
1
,
190
),
MAKE_RATIO
(
1
,
250
),
MAKE_RATIO
(
1
,
310
),
MAKE_RATIO
(
1
,
380
),
MAKE_RATIO
(
1
,
440
),
MAKE_RATIO
(
1
,
500
)
};
static
const
unsigned
short
below_threshold_compression_ratio
[]
=
{
MAKE_RATIO
(
1
,
70
),
MAKE_RATIO
(
1
,
140
),
MAKE_RATIO
(
1
,
230
),
MAKE_RATIO
(
1
,
330
),
MAKE_RATIO
(
1
,
450
),
MAKE_RATIO
(
1
,
600
),
MAKE_RATIO
(
1
,
780
),
MAKE_RATIO
(
2
,
0
)
};
static
const
unsigned
short
below_threshold_expansion_ratio
[]
=
{
MAKE_RATIO
(
1
,
60
),
MAKE_RATIO
(
1
,
130
),
MAKE_RATIO
(
1
,
190
),
MAKE_RATIO
(
1
,
250
),
MAKE_RATIO
(
1
,
310
),
MAKE_RATIO
(
1
,
380
),
MAKE_RATIO
(
1
,
440
),
MAKE_RATIO
(
1
,
500
),
MAKE_RATIO
(
1
,
560
),
MAKE_RATIO
(
1
,
630
),
MAKE_RATIO
(
1
,
690
),
MAKE_RATIO
(
1
,
750
),
MAKE_RATIO
(
1
,
810
),
MAKE_RATIO
(
1
,
880
),
MAKE_RATIO
(
1
,
940
),
MAKE_RATIO
(
2
,
0
)
};
static
inline
int
search
(
unsigned
short
val
,
const
unsigned
short
*
arr
,
const
int
arrsize
)
{
/*
* This could be a binary search, but for small tables,
* a linear search is likely to be faster
*/
int
i
;
for
(
i
=
0
;
i
<
arrsize
;
i
++
)
if
(
arr
[
i
]
>=
val
)
goto
_1
;
return
arrsize
-
1
;
_1:
if
(
i
==
0
)
return
0
;
return
(
arr
[
i
]
-
val
<
val
-
arr
[
i
-
1
])
?
i
:
i
-
1
;
}
#define SEARCH(a, b) search(a, b, ARRAY_SIZE(b))
static
inline
int
time_index
(
unsigned
short
time
)
{
return
SEARCH
(
time
,
time_constants
);
}
static
inline
int
above_threshold_compression_index
(
unsigned
short
ratio
)
{
return
SEARCH
(
ratio
,
above_threshold_compression_ratio
);
}
static
inline
int
above_threshold_expansion_index
(
unsigned
short
ratio
)
{
return
SEARCH
(
ratio
,
above_threshold_expansion_ratio
);
}
static
inline
int
below_threshold_compression_index
(
unsigned
short
ratio
)
{
return
SEARCH
(
ratio
,
below_threshold_compression_ratio
);
}
static
inline
int
below_threshold_expansion_index
(
unsigned
short
ratio
)
{
return
SEARCH
(
ratio
,
below_threshold_expansion_ratio
);
}
static
inline
unsigned
char
db_to_regval
(
short
db
)
{
int
r
=
0
;
r
=
(
db
+
0x59a0
)
/
0x60
;
if
(
r
<
0x91
)
return
0x91
;
if
(
r
>
0xef
)
return
0xef
;
return
r
;
}
static
inline
short
quantize_db
(
short
db
)
{
return
db_to_regval
(
db
)
*
0x60
-
0x59a0
;
}
static
inline
int
register_width
(
enum
tas3004_reg_t
r
)
{
switch
(
r
)
{
case
TAS3004_REG_MCR
:
case
TAS3004_REG_TREBLE
:
case
TAS3004_REG_BASS
:
case
TAS3004_REG_ANALOG_CTRL
:
case
TAS3004_REG_TEST1
:
case
TAS3004_REG_TEST2
:
case
TAS3004_REG_MCR2
:
return
1
;
case
TAS3004_REG_LEFT_LOUD_BIQUAD_GAIN
:
case
TAS3004_REG_RIGHT_LOUD_BIQUAD_GAIN
:
return
3
;
case
TAS3004_REG_DRC
:
case
TAS3004_REG_VOLUME
:
return
6
;
case
TAS3004_REG_LEFT_MIXER
:
case
TAS3004_REG_RIGHT_MIXER
:
return
9
;
case
TAS3004_REG_TEST
:
return
10
;
case
TAS3004_REG_LEFT_BIQUAD0
:
case
TAS3004_REG_LEFT_BIQUAD1
:
case
TAS3004_REG_LEFT_BIQUAD2
:
case
TAS3004_REG_LEFT_BIQUAD3
:
case
TAS3004_REG_LEFT_BIQUAD4
:
case
TAS3004_REG_LEFT_BIQUAD5
:
case
TAS3004_REG_LEFT_BIQUAD6
:
case
TAS3004_REG_RIGHT_BIQUAD0
:
case
TAS3004_REG_RIGHT_BIQUAD1
:
case
TAS3004_REG_RIGHT_BIQUAD2
:
case
TAS3004_REG_RIGHT_BIQUAD3
:
case
TAS3004_REG_RIGHT_BIQUAD4
:
case
TAS3004_REG_RIGHT_BIQUAD5
:
case
TAS3004_REG_RIGHT_BIQUAD6
:
case
TAS3004_REG_LEFT_LOUD_BIQUAD
:
case
TAS3004_REG_RIGHT_LOUD_BIQUAD
:
return
15
;
default:
return
0
;
}
}
static
int
tas3004_write_register
(
struct
tas3004_data_t
*
self
,
enum
tas3004_reg_t
reg_num
,
char
*
data
,
uint
write_mode
)
{
if
(
reg_num
==
TAS3004_REG_MCR
||
reg_num
==
TAS3004_REG_BASS
||
reg_num
==
TAS3004_REG_TREBLE
)
{
return
tas_write_byte_register
(
&
self
->
super
,
(
uint
)
reg_num
,
*
data
,
write_mode
);
}
else
{
return
tas_write_register
(
&
self
->
super
,
(
uint
)
reg_num
,
register_width
(
reg_num
),
data
,
write_mode
);
}
}
static
int
tas3004_sync_register
(
struct
tas3004_data_t
*
self
,
enum
tas3004_reg_t
reg_num
)
{
if
(
reg_num
==
TAS3004_REG_MCR
||
reg_num
==
TAS3004_REG_BASS
||
reg_num
==
TAS3004_REG_TREBLE
)
{
return
tas_sync_byte_register
(
&
self
->
super
,
(
uint
)
reg_num
,
register_width
(
reg_num
));
}
else
{
return
tas_sync_register
(
&
self
->
super
,
(
uint
)
reg_num
,
register_width
(
reg_num
));
}
}
static
int
tas3004_read_register
(
struct
tas3004_data_t
*
self
,
enum
tas3004_reg_t
reg_num
,
char
*
data
,
uint
write_mode
)
{
return
tas_read_register
(
&
self
->
super
,
(
uint
)
reg_num
,
register_width
(
reg_num
),
data
);
}
static
inline
int
tas3004_fast_load
(
struct
tas3004_data_t
*
self
,
int
fast
)
{
if
(
fast
)
self
->
super
.
shadow
[
TAS3004_REG_MCR
][
0
]
|=
0x80
;
else
self
->
super
.
shadow
[
TAS3004_REG_MCR
][
0
]
&=
0x7f
;
return
tas3004_sync_register
(
self
,
TAS3004_REG_MCR
);
}
static
uint
tas3004_supported_mixers
(
struct
tas3004_data_t
*
self
)
{
return
SOUND_MASK_VOLUME
|
SOUND_MASK_PCM
|
SOUND_MASK_ALTPCM
|
SOUND_MASK_IMIX
|
SOUND_MASK_TREBLE
|
SOUND_MASK_BASS
;
}
static
int
tas3004_mixer_is_stereo
(
struct
tas3004_data_t
*
self
,
int
mixer
)
{
switch
(
mixer
)
{
case
SOUND_MIXER_VOLUME
:
case
SOUND_MIXER_PCM
:
case
SOUND_MIXER_ALTPCM
:
case
SOUND_MIXER_IMIX
:
return
1
;
default:
return
0
;
}
}
static
uint
tas3004_stereo_mixers
(
struct
tas3004_data_t
*
self
)
{
uint
r
=
tas3004_supported_mixers
(
self
);
uint
i
;
for
(
i
=
1
;
i
<
SOUND_MIXER_NRDEVICES
;
i
++
)
if
(
r
&
(
1
<<
i
)
&&
!
tas3004_mixer_is_stereo
(
self
,
i
))
r
&=
~
(
1
<<
i
);
return
r
;
}
static
int
tas3004_get_mixer_level
(
struct
tas3004_data_t
*
self
,
int
mixer
,
uint
*
level
)
{
if
(
!
self
)
return
-
1
;
*
level
=
self
->
super
.
mixer
[
mixer
];
return
0
;
}
static
int
tas3004_set_mixer_level
(
struct
tas3004_data_t
*
self
,
int
mixer
,
uint
level
)
{
int
rc
;
tas_shadow_t
*
shadow
;
uint
temp
;
uint
offset
=
0
;
if
(
!
self
)
return
-
1
;
shadow
=
self
->
super
.
shadow
;
if
(
!
tas3004_mixer_is_stereo
(
self
,
mixer
))
level
=
tas_mono_to_stereo
(
level
);
switch
(
mixer
)
{
case
SOUND_MIXER_VOLUME
:
temp
=
tas3004_gain
.
master
[
level
&
0xff
];
SET_4_20
(
shadow
[
TAS3004_REG_VOLUME
],
0
,
temp
);
temp
=
tas3004_gain
.
master
[(
level
>>
8
)
&
0xff
];
SET_4_20
(
shadow
[
TAS3004_REG_VOLUME
],
3
,
temp
);
rc
=
tas3004_sync_register
(
self
,
TAS3004_REG_VOLUME
);
break
;
case
SOUND_MIXER_IMIX
:
offset
+=
3
;
case
SOUND_MIXER_ALTPCM
:
offset
+=
3
;
case
SOUND_MIXER_PCM
:
/*
* Don't load these in fast mode. The documentation
* says it can be done in either mode, but testing it
* shows that fast mode produces ugly clicking.
*/
/* tas3004_fast_load(self,1); */
temp
=
tas3004_gain
.
mixer
[
level
&
0xff
];
SET_4_20
(
shadow
[
TAS3004_REG_LEFT_MIXER
],
offset
,
temp
);
temp
=
tas3004_gain
.
mixer
[(
level
>>
8
)
&
0xff
];
SET_4_20
(
shadow
[
TAS3004_REG_RIGHT_MIXER
],
offset
,
temp
);
rc
=
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_MIXER
);
if
(
rc
==
0
)
rc
=
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_MIXER
);
/* tas3004_fast_load(self,0); */
break
;
case
SOUND_MIXER_TREBLE
:
temp
=
tas3004_gain
.
treble
[
level
&
0xff
];
shadow
[
TAS3004_REG_TREBLE
][
0
]
=
temp
&
0xff
;
rc
=
tas3004_sync_register
(
self
,
TAS3004_REG_TREBLE
);
break
;
case
SOUND_MIXER_BASS
:
temp
=
tas3004_gain
.
bass
[
level
&
0xff
];
shadow
[
TAS3004_REG_BASS
][
0
]
=
temp
&
0xff
;
rc
=
tas3004_sync_register
(
self
,
TAS3004_REG_BASS
);
break
;
default:
rc
=
-
1
;
break
;
}
if
(
rc
<
0
)
return
rc
;
self
->
super
.
mixer
[
mixer
]
=
level
;
return
0
;
}
static
int
tas3004_leave_sleep
(
struct
tas3004_data_t
*
self
)
{
unsigned
char
mcr
=
(
1
<<
6
)
+
(
2
<<
4
)
+
(
2
<<
2
);
if
(
!
self
)
return
-
1
;
/* Make sure something answers on the i2c bus */
if
(
tas3004_write_register
(
self
,
TAS3004_REG_MCR
,
&
mcr
,
WRITE_NORMAL
|
FORCE_WRITE
)
<
0
)
return
-
1
;
tas3004_fast_load
(
self
,
1
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD0
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD1
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD2
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD3
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD4
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD5
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD6
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD0
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD1
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD2
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD3
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD4
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD5
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD6
);
tas3004_fast_load
(
self
,
0
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_VOLUME
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_MIXER
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_MIXER
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_TREBLE
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_BASS
);
return
0
;
}
static
int
tas3004_enter_sleep
(
struct
tas3004_data_t
*
self
)
{
if
(
!
self
)
return
-
1
;
return
0
;
}
static
int
tas3004_sync_biquad
(
struct
tas3004_data_t
*
self
,
u_int
channel
,
u_int
filter
)
{
enum
tas3004_reg_t
reg
;
if
(
channel
>=
TAS3004_BIQUAD_CHANNEL_COUNT
||
filter
>=
TAS3004_BIQUAD_FILTER_COUNT
)
return
-
EINVAL
;
reg
=
(
channel
?
TAS3004_REG_RIGHT_BIQUAD0
:
TAS3004_REG_LEFT_BIQUAD0
)
+
filter
;
return
tas3004_sync_register
(
self
,
reg
);
}
static
int
tas3004_write_biquad_shadow
(
struct
tas3004_data_t
*
self
,
u_int
channel
,
u_int
filter
,
const
union
tas_biquad_t
*
biquad
)
{
tas_shadow_t
*
shadow
=
self
->
super
.
shadow
;
enum
tas3004_reg_t
reg
;
if
(
channel
>=
TAS3004_BIQUAD_CHANNEL_COUNT
||
filter
>=
TAS3004_BIQUAD_FILTER_COUNT
)
return
-
EINVAL
;
reg
=
(
channel
?
TAS3004_REG_RIGHT_BIQUAD0
:
TAS3004_REG_LEFT_BIQUAD0
)
+
filter
;
SET_4_20
(
shadow
[
reg
],
0
,
biquad
->
coeff
.
b0
);
SET_4_20
(
shadow
[
reg
],
3
,
biquad
->
coeff
.
b1
);
SET_4_20
(
shadow
[
reg
],
6
,
biquad
->
coeff
.
b2
);
SET_4_20
(
shadow
[
reg
],
9
,
biquad
->
coeff
.
a1
);
SET_4_20
(
shadow
[
reg
],
12
,
biquad
->
coeff
.
a2
);
return
0
;
}
static
int
tas3004_write_biquad
(
struct
tas3004_data_t
*
self
,
u_int
channel
,
u_int
filter
,
const
union
tas_biquad_t
*
biquad
)
{
int
rc
;
rc
=
tas3004_write_biquad_shadow
(
self
,
channel
,
filter
,
biquad
);
if
(
rc
<
0
)
return
rc
;
return
tas3004_sync_biquad
(
self
,
channel
,
filter
);
}
static
int
tas3004_write_biquad_list
(
struct
tas3004_data_t
*
self
,
u_int
filter_count
,
u_int
flags
,
struct
tas_biquad_ctrl_t
*
biquads
)
{
int
i
;
int
rc
;
if
(
flags
&
TAS_BIQUAD_FAST_LOAD
)
tas3004_fast_load
(
self
,
1
);
for
(
i
=
0
;
i
<
filter_count
;
i
++
)
{
rc
=
tas3004_write_biquad
(
self
,
biquads
[
i
].
channel
,
biquads
[
i
].
filter
,
&
biquads
[
i
].
data
);
if
(
rc
<
0
)
break
;
}
if
(
flags
&
TAS_BIQUAD_FAST_LOAD
)
tas3004_fast_load
(
self
,
0
);
return
rc
;
}
static
int
tas3004_read_biquad
(
struct
tas3004_data_t
*
self
,
u_int
channel
,
u_int
filter
,
union
tas_biquad_t
*
biquad
)
{
tas_shadow_t
*
shadow
=
self
->
super
.
shadow
;
enum
tas3004_reg_t
reg
;
if
(
channel
>=
TAS3004_BIQUAD_CHANNEL_COUNT
||
filter
>=
TAS3004_BIQUAD_FILTER_COUNT
)
return
-
EINVAL
;
reg
=
(
channel
?
TAS3004_REG_RIGHT_BIQUAD0
:
TAS3004_REG_LEFT_BIQUAD0
)
+
filter
;
biquad
->
coeff
.
b0
=
GET_4_20
(
shadow
[
reg
],
0
);
biquad
->
coeff
.
b1
=
GET_4_20
(
shadow
[
reg
],
3
);
biquad
->
coeff
.
b2
=
GET_4_20
(
shadow
[
reg
],
6
);
biquad
->
coeff
.
a1
=
GET_4_20
(
shadow
[
reg
],
9
);
biquad
->
coeff
.
a2
=
GET_4_20
(
shadow
[
reg
],
12
);
return
0
;
}
static
int
tas3004_eq_rw
(
struct
tas3004_data_t
*
self
,
u_int
cmd
,
u_long
arg
)
{
int
rc
;
struct
tas_biquad_ctrl_t
biquad
;
if
(
copy_from_user
((
void
*
)
&
biquad
,
(
const
void
*
)
arg
,
sizeof
(
struct
tas_biquad_ctrl_t
)))
{
return
-
EFAULT
;
}
if
(
cmd
&
SIOC_IN
)
{
rc
=
tas3004_write_biquad
(
self
,
biquad
.
channel
,
biquad
.
filter
,
&
biquad
.
data
);
if
(
rc
!=
0
)
return
rc
;
}
if
(
cmd
&
SIOC_OUT
)
{
rc
=
tas3004_read_biquad
(
self
,
biquad
.
channel
,
biquad
.
filter
,
&
biquad
.
data
);
if
(
rc
!=
0
)
return
rc
;
if
(
copy_to_user
((
void
*
)
arg
,
(
const
void
*
)
&
biquad
,
sizeof
(
struct
tas_biquad_ctrl_t
)))
{
return
-
EFAULT
;
}
}
return
0
;
}
static
int
tas3004_eq_list_rw
(
struct
tas3004_data_t
*
self
,
u_int
cmd
,
u_long
arg
)
{
int
rc
=
0
;
int
filter_count
;
int
flags
;
int
i
,
j
;
char
sync_required
[
TAS3004_BIQUAD_CHANNEL_COUNT
][
TAS3004_BIQUAD_FILTER_COUNT
];
struct
tas_biquad_ctrl_t
biquad
;
memset
(
sync_required
,
0
,
sizeof
(
sync_required
));
if
(
copy_from_user
((
void
*
)
&
filter_count
,
(
const
void
*
)
arg
+
offsetof
(
struct
tas_biquad_ctrl_list_t
,
filter_count
),
sizeof
(
int
)))
{
return
-
EFAULT
;
}
if
(
copy_from_user
((
void
*
)
&
flags
,
(
const
void
*
)
arg
+
offsetof
(
struct
tas_biquad_ctrl_list_t
,
flags
),
sizeof
(
int
)))
{
return
-
EFAULT
;
}
if
(
cmd
&
SIOC_IN
)
{
}
for
(
i
=
0
;
i
<
filter_count
;
i
++
)
{
if
(
copy_from_user
((
void
*
)
&
biquad
,
(
const
void
*
)
arg
+
offsetof
(
struct
tas_biquad_ctrl_list_t
,
biquads
[
i
]),
sizeof
(
struct
tas_biquad_ctrl_t
)))
{
return
-
EFAULT
;
}
if
(
cmd
&
SIOC_IN
)
{
sync_required
[
biquad
.
channel
][
biquad
.
filter
]
=
1
;
rc
=
tas3004_write_biquad_shadow
(
self
,
biquad
.
channel
,
biquad
.
filter
,
&
biquad
.
data
);
if
(
rc
!=
0
)
return
rc
;
}
if
(
cmd
&
SIOC_OUT
)
{
rc
=
tas3004_read_biquad
(
self
,
biquad
.
channel
,
biquad
.
filter
,
&
biquad
.
data
);
if
(
rc
!=
0
)
return
rc
;
if
(
copy_to_user
((
void
*
)
arg
+
offsetof
(
struct
tas_biquad_ctrl_list_t
,
biquads
[
i
]),
(
const
void
*
)
&
biquad
,
sizeof
(
struct
tas_biquad_ctrl_t
)))
{
return
-
EFAULT
;
}
}
}
if
(
cmd
&
SIOC_IN
)
{
/*
* This is OK for the tas3004. For the
* tas3001c, going into fast load mode causes
* the treble and bass to be reset to 0dB, and
* volume controls to be muted.
*/
if
(
flags
&
TAS_BIQUAD_FAST_LOAD
)
tas3004_fast_load
(
self
,
1
);
for
(
i
=
0
;
i
<
TAS3004_BIQUAD_CHANNEL_COUNT
;
i
++
)
{
for
(
j
=
0
;
j
<
TAS3004_BIQUAD_FILTER_COUNT
;
j
++
)
{
if
(
sync_required
[
i
][
j
])
{
rc
=
tas3004_sync_biquad
(
self
,
i
,
j
);
if
(
rc
<
0
)
goto
out
;
}
}
}
out:
if
(
flags
&
TAS_BIQUAD_FAST_LOAD
)
tas3004_fast_load
(
self
,
0
);
}
return
rc
;
}
static
int
tas3004_update_drce
(
struct
tas3004_data_t
*
self
,
int
flags
,
struct
tas_drce_t
*
drce
)
{
tas_shadow_t
*
shadow
;
int
i
;
shadow
=
self
->
super
.
shadow
;
if
(
flags
&
TAS_DRCE_ABOVE_RATIO
)
{
self
->
drce_state
.
above
.
expand
=
drce
->
above
.
expand
;
if
(
drce
->
above
.
val
==
(
1
<<
8
))
{
self
->
drce_state
.
above
.
val
=
1
<<
8
;
shadow
[
TAS3004_REG_DRC
][
0
]
=
0x02
;
}
else
if
(
drce
->
above
.
expand
)
{
i
=
above_threshold_expansion_index
(
drce
->
above
.
val
);
self
->
drce_state
.
above
.
val
=
above_threshold_expansion_ratio
[
i
];
shadow
[
TAS3004_REG_DRC
][
0
]
=
0x0a
+
(
i
<<
3
);
}
else
{
i
=
above_threshold_compression_index
(
drce
->
above
.
val
);
self
->
drce_state
.
above
.
val
=
above_threshold_compression_ratio
[
i
];
shadow
[
TAS3004_REG_DRC
][
0
]
=
0x08
+
(
i
<<
3
);
}
}
if
(
flags
&
TAS_DRCE_BELOW_RATIO
)
{
self
->
drce_state
.
below
.
expand
=
drce
->
below
.
expand
;
if
(
drce
->
below
.
val
==
(
1
<<
8
))
{
self
->
drce_state
.
below
.
val
=
1
<<
8
;
shadow
[
TAS3004_REG_DRC
][
1
]
=
0x02
;
}
else
if
(
drce
->
below
.
expand
)
{
i
=
below_threshold_expansion_index
(
drce
->
below
.
val
);
self
->
drce_state
.
below
.
val
=
below_threshold_expansion_ratio
[
i
];
shadow
[
TAS3004_REG_DRC
][
1
]
=
0x08
+
(
i
<<
3
);
}
else
{
i
=
below_threshold_compression_index
(
drce
->
below
.
val
);
self
->
drce_state
.
below
.
val
=
below_threshold_compression_ratio
[
i
];
shadow
[
TAS3004_REG_DRC
][
1
]
=
0x0a
+
(
i
<<
3
);
}
}
if
(
flags
&
TAS_DRCE_THRESHOLD
)
{
self
->
drce_state
.
threshold
=
quantize_db
(
drce
->
threshold
);
shadow
[
TAS3004_REG_DRC
][
2
]
=
db_to_regval
(
self
->
drce_state
.
threshold
);
}
if
(
flags
&
TAS_DRCE_ENERGY
)
{
i
=
time_index
(
drce
->
energy
);
self
->
drce_state
.
energy
=
time_constants
[
i
];
shadow
[
TAS3004_REG_DRC
][
3
]
=
0x40
+
(
i
<<
4
);
}
if
(
flags
&
TAS_DRCE_ATTACK
)
{
i
=
time_index
(
drce
->
attack
);
self
->
drce_state
.
attack
=
time_constants
[
i
];
shadow
[
TAS3004_REG_DRC
][
4
]
=
0x40
+
(
i
<<
4
);
}
if
(
flags
&
TAS_DRCE_DECAY
)
{
i
=
time_index
(
drce
->
decay
);
self
->
drce_state
.
decay
=
time_constants
[
i
];
shadow
[
TAS3004_REG_DRC
][
5
]
=
0x40
+
(
i
<<
4
);
}
if
(
flags
&
TAS_DRCE_ENABLE
)
{
self
->
drce_state
.
enable
=
drce
->
enable
;
}
if
(
!
self
->
drce_state
.
enable
)
{
shadow
[
TAS3004_REG_DRC
][
0
]
|=
0x01
;
}
#ifdef DEBUG_DRCE
printk
(
"DRCE: set [ ENABLE:%x ABOVE:%x/%x BELOW:%x/%x THRESH:%x ENERGY:%x ATTACK:%x DECAY:%x
\n
"
,
self
->
drce_state
.
enable
,
self
->
drce_state
.
above
.
expand
,
self
->
drce_state
.
above
.
val
,
self
->
drce_state
.
below
.
expand
,
self
->
drce_state
.
below
.
val
,
self
->
drce_state
.
threshold
,
self
->
drce_state
.
energy
,
self
->
drce_state
.
attack
,
self
->
drce_state
.
decay
);
printk
(
"DRCE: reg [ %02x %02x %02x %02x %02x %02x ]
\n
"
,
(
unsigned
char
)
shadow
[
TAS3004_REG_DRC
][
0
],
(
unsigned
char
)
shadow
[
TAS3004_REG_DRC
][
1
],
(
unsigned
char
)
shadow
[
TAS3004_REG_DRC
][
2
],
(
unsigned
char
)
shadow
[
TAS3004_REG_DRC
][
3
],
(
unsigned
char
)
shadow
[
TAS3004_REG_DRC
][
4
],
(
unsigned
char
)
shadow
[
TAS3004_REG_DRC
][
5
]);
#endif
return
tas3004_sync_register
(
self
,
TAS3004_REG_DRC
);
}
static
int
tas3004_drce_rw
(
struct
tas3004_data_t
*
self
,
u_int
cmd
,
u_long
arg
)
{
int
rc
;
struct
tas_drce_ctrl_t
drce_ctrl
;
if
(
copy_from_user
((
void
*
)
&
drce_ctrl
,
(
const
void
*
)
arg
,
sizeof
(
struct
tas_drce_ctrl_t
)))
{
return
-
EFAULT
;
}
#ifdef DEBUG_DRCE
printk
(
"DRCE: input [ FLAGS:%x ENABLE:%x ABOVE:%x/%x BELOW:%x/%x THRESH:%x ENERGY:%x ATTACK:%x DECAY:%x
\n
"
,
drce_ctrl
.
flags
,
drce_ctrl
.
data
.
enable
,
drce_ctrl
.
data
.
above
.
expand
,
drce_ctrl
.
data
.
above
.
val
,
drce_ctrl
.
data
.
below
.
expand
,
drce_ctrl
.
data
.
below
.
val
,
drce_ctrl
.
data
.
threshold
,
drce_ctrl
.
data
.
energy
,
drce_ctrl
.
data
.
attack
,
drce_ctrl
.
data
.
decay
);
#endif
if
(
cmd
&
SIOC_IN
)
{
rc
=
tas3004_update_drce
(
self
,
drce_ctrl
.
flags
,
&
drce_ctrl
.
data
);
if
(
rc
<
0
)
return
rc
;
}
if
(
cmd
&
SIOC_OUT
)
{
if
(
drce_ctrl
.
flags
&
TAS_DRCE_ENABLE
)
drce_ctrl
.
data
.
enable
=
self
->
drce_state
.
enable
;
if
(
drce_ctrl
.
flags
&
TAS_DRCE_ABOVE_RATIO
)
drce_ctrl
.
data
.
above
=
self
->
drce_state
.
above
;
if
(
drce_ctrl
.
flags
&
TAS_DRCE_BELOW_RATIO
)
drce_ctrl
.
data
.
below
=
self
->
drce_state
.
below
;
if
(
drce_ctrl
.
flags
&
TAS_DRCE_THRESHOLD
)
drce_ctrl
.
data
.
threshold
=
self
->
drce_state
.
threshold
;
if
(
drce_ctrl
.
flags
&
TAS_DRCE_ENERGY
)
drce_ctrl
.
data
.
energy
=
self
->
drce_state
.
energy
;
if
(
drce_ctrl
.
flags
&
TAS_DRCE_ATTACK
)
drce_ctrl
.
data
.
attack
=
self
->
drce_state
.
attack
;
if
(
drce_ctrl
.
flags
&
TAS_DRCE_DECAY
)
drce_ctrl
.
data
.
decay
=
self
->
drce_state
.
decay
;
if
(
copy_to_user
((
void
*
)
arg
,
(
const
void
*
)
&
drce_ctrl
,
sizeof
(
struct
tas_drce_ctrl_t
)))
{
return
-
EFAULT
;
}
}
return
0
;
}
static
void
tas3004_update_device_parameters
(
struct
tas3004_data_t
*
self
)
{
char
data
;
int
i
;
if
(
!
self
)
return
;
if
(
self
->
output_id
==
TAS_OUTPUT_HEADPHONES
)
{
/* turn on allPass when headphones are plugged in */
data
=
0x02
;
}
else
{
data
=
0x00
;
}
tas3004_write_register
(
self
,
TAS3004_REG_MCR2
,
&
data
,
WRITE_NORMAL
|
FORCE_WRITE
);
for
(
i
=
0
;
tas3004_eq_prefs
[
i
];
i
++
)
{
struct
tas_eq_pref_t
*
eq
=
tas3004_eq_prefs
[
i
];
if
(
eq
->
device_id
==
self
->
device_id
&&
(
eq
->
output_id
==
0
||
eq
->
output_id
==
self
->
output_id
)
&&
(
eq
->
speaker_id
==
0
||
eq
->
speaker_id
==
self
->
speaker_id
))
{
tas3004_update_drce
(
self
,
TAS_DRCE_ALL
,
eq
->
drce
);
tas3004_write_biquad_list
(
self
,
eq
->
filter_count
,
TAS_BIQUAD_FAST_LOAD
,
eq
->
biquads
);
break
;
}
}
}
static
void
tas3004_device_change_handler
(
void
*
self
)
{
if
(
!
self
)
return
;
tas3004_update_device_parameters
((
struct
tas3004_data_t
*
)
self
);
}
static
struct
work_struct
device_change
;
static
int
tas3004_output_device_change
(
struct
tas3004_data_t
*
self
,
int
device_id
,
int
output_id
,
int
speaker_id
)
{
self
->
device_id
=
device_id
;
self
->
output_id
=
output_id
;
self
->
speaker_id
=
speaker_id
;
schedule_work
(
&
device_change
);
return
0
;
}
static
int
tas3004_device_ioctl
(
struct
tas3004_data_t
*
self
,
u_int
cmd
,
u_long
arg
)
{
switch
(
cmd
)
{
case
TAS_READ_EQ
:
case
TAS_WRITE_EQ
:
return
tas3004_eq_rw
(
self
,
cmd
,
arg
);
case
TAS_READ_EQ_LIST
:
case
TAS_WRITE_EQ_LIST
:
return
tas3004_eq_list_rw
(
self
,
cmd
,
arg
);
case
TAS_READ_EQ_FILTER_COUNT
:
put_user
(
TAS3004_BIQUAD_FILTER_COUNT
,
(
uint
*
)(
arg
));
return
0
;
case
TAS_READ_EQ_CHANNEL_COUNT
:
put_user
(
TAS3004_BIQUAD_CHANNEL_COUNT
,
(
uint
*
)(
arg
));
return
0
;
case
TAS_READ_DRCE
:
case
TAS_WRITE_DRCE
:
return
tas3004_drce_rw
(
self
,
cmd
,
arg
);
case
TAS_READ_DRCE_CAPS
:
put_user
(
TAS_DRCE_ENABLE
|
TAS_DRCE_ABOVE_RATIO
|
TAS_DRCE_BELOW_RATIO
|
TAS_DRCE_THRESHOLD
|
TAS_DRCE_ENERGY
|
TAS_DRCE_ATTACK
|
TAS_DRCE_DECAY
,
(
uint
*
)(
arg
));
return
0
;
case
TAS_READ_DRCE_MIN
:
case
TAS_READ_DRCE_MAX
:
{
struct
tas_drce_ctrl_t
drce_ctrl
;
const
struct
tas_drce_t
*
drce_copy
;
if
(
copy_from_user
((
void
*
)
&
drce_ctrl
,
(
const
void
*
)
arg
,
sizeof
(
struct
tas_drce_ctrl_t
)))
{
return
-
EFAULT
;
}
if
(
cmd
==
TAS_READ_DRCE_MIN
)
{
drce_copy
=&
tas3004_drce_min
;
}
else
{
drce_copy
=&
tas3004_drce_max
;
}
if
(
drce_ctrl
.
flags
&
TAS_DRCE_ABOVE_RATIO
)
{
drce_ctrl
.
data
.
above
=
drce_copy
->
above
;
}
if
(
drce_ctrl
.
flags
&
TAS_DRCE_BELOW_RATIO
)
{
drce_ctrl
.
data
.
below
=
drce_copy
->
below
;
}
if
(
drce_ctrl
.
flags
&
TAS_DRCE_THRESHOLD
)
{
drce_ctrl
.
data
.
threshold
=
drce_copy
->
threshold
;
}
if
(
drce_ctrl
.
flags
&
TAS_DRCE_ENERGY
)
{
drce_ctrl
.
data
.
energy
=
drce_copy
->
energy
;
}
if
(
drce_ctrl
.
flags
&
TAS_DRCE_ATTACK
)
{
drce_ctrl
.
data
.
attack
=
drce_copy
->
attack
;
}
if
(
drce_ctrl
.
flags
&
TAS_DRCE_DECAY
)
{
drce_ctrl
.
data
.
decay
=
drce_copy
->
decay
;
}
if
(
copy_to_user
((
void
*
)
arg
,
(
const
void
*
)
&
drce_ctrl
,
sizeof
(
struct
tas_drce_ctrl_t
)))
{
return
-
EFAULT
;
}
}
}
return
-
EINVAL
;
}
static
int
tas3004_init_mixer
(
struct
tas3004_data_t
*
self
)
{
unsigned
char
mcr
=
(
1
<<
6
)
+
(
2
<<
4
)
+
(
2
<<
2
);
/* Make sure something answers on the i2c bus */
if
(
tas3004_write_register
(
self
,
TAS3004_REG_MCR
,
&
mcr
,
WRITE_NORMAL
|
FORCE_WRITE
)
<
0
)
return
-
1
;
tas3004_fast_load
(
self
,
1
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD0
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD1
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD2
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD3
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD4
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD5
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_RIGHT_BIQUAD6
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD0
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD1
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD2
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD3
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD4
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD5
);
(
void
)
tas3004_sync_register
(
self
,
TAS3004_REG_LEFT_BIQUAD6
);
tas3004_sync_register
(
self
,
TAS3004_REG_DRC
);
tas3004_sync_register
(
self
,
TAS3004_REG_MCR2
);
tas3004_fast_load
(
self
,
0
);
tas3004_set_mixer_level
(
self
,
SOUND_MIXER_VOLUME
,
VOL_DEFAULT
<<
8
|
VOL_DEFAULT
);
tas3004_set_mixer_level
(
self
,
SOUND_MIXER_PCM
,
INPUT_DEFAULT
<<
8
|
INPUT_DEFAULT
);
tas3004_set_mixer_level
(
self
,
SOUND_MIXER_ALTPCM
,
0
);
tas3004_set_mixer_level
(
self
,
SOUND_MIXER_IMIX
,
0
);
tas3004_set_mixer_level
(
self
,
SOUND_MIXER_BASS
,
BASS_DEFAULT
);
tas3004_set_mixer_level
(
self
,
SOUND_MIXER_TREBLE
,
TREBLE_DEFAULT
);
return
0
;
}
static
int
tas3004_uninit_mixer
(
struct
tas3004_data_t
*
self
)
{
tas3004_set_mixer_level
(
self
,
SOUND_MIXER_VOLUME
,
0
);
tas3004_set_mixer_level
(
self
,
SOUND_MIXER_PCM
,
0
);
tas3004_set_mixer_level
(
self
,
SOUND_MIXER_ALTPCM
,
0
);
tas3004_set_mixer_level
(
self
,
SOUND_MIXER_IMIX
,
0
);
tas3004_set_mixer_level
(
self
,
SOUND_MIXER_BASS
,
0
);
tas3004_set_mixer_level
(
self
,
SOUND_MIXER_TREBLE
,
0
);
return
0
;
}
static
int
tas3004_init
(
struct
i2c_client
*
client
)
{
struct
tas3004_data_t
*
self
;
size_t
sz
=
sizeof
(
*
self
)
+
(
TAS3004_REG_MAX
*
sizeof
(
tas_shadow_t
));
char
drce_init
[]
=
{
0x69
,
0x22
,
0x9f
,
0xb0
,
0x60
,
0xa0
};
char
mcr2
=
0
;
int
i
,
j
;
self
=
kmalloc
(
sz
,
GFP_KERNEL
);
if
(
!
self
)
return
-
ENOMEM
;
memset
(
self
,
0
,
sz
);
self
->
super
.
client
=
client
;
self
->
super
.
shadow
=
(
tas_shadow_t
*
)(
self
+
1
);
self
->
output_id
=
TAS_OUTPUT_HEADPHONES
;
dev_set_drvdata
(
&
client
->
dev
,
self
);
for
(
i
=
0
;
i
<
TAS3004_BIQUAD_CHANNEL_COUNT
;
i
++
)
for
(
j
=
0
;
j
<
TAS3004_BIQUAD_FILTER_COUNT
;
j
++
)
tas3004_write_biquad_shadow
(
self
,
i
,
j
,
&
tas3004_eq_unity
);
tas3004_write_register
(
self
,
TAS3004_REG_MCR2
,
&
mcr2
,
WRITE_SHADOW
);
tas3004_write_register
(
self
,
TAS3004_REG_DRC
,
drce_init
,
WRITE_SHADOW
);
INIT_WORK
(
&
device_change
,
tas3004_device_change_handler
,
self
);
return
0
;
}
static
void
tas3004_uninit
(
struct
tas3004_data_t
*
self
)
{
tas3004_uninit_mixer
(
self
);
kfree
(
self
);
}
struct
tas_driver_hooks_t
tas3004_hooks
=
{
.
init
=
(
tas_hook_init_t
)
tas3004_init
,
.
post_init
=
(
tas_hook_post_init_t
)
tas3004_init_mixer
,
.
uninit
=
(
tas_hook_uninit_t
)
tas3004_uninit
,
.
get_mixer_level
=
(
tas_hook_get_mixer_level_t
)
tas3004_get_mixer_level
,
.
set_mixer_level
=
(
tas_hook_set_mixer_level_t
)
tas3004_set_mixer_level
,
.
enter_sleep
=
(
tas_hook_enter_sleep_t
)
tas3004_enter_sleep
,
.
leave_sleep
=
(
tas_hook_leave_sleep_t
)
tas3004_leave_sleep
,
.
supported_mixers
=
(
tas_hook_supported_mixers_t
)
tas3004_supported_mixers
,
.
mixer_is_stereo
=
(
tas_hook_mixer_is_stereo_t
)
tas3004_mixer_is_stereo
,
.
stereo_mixers
=
(
tas_hook_stereo_mixers_t
)
tas3004_stereo_mixers
,
.
output_device_change
=
(
tas_hook_output_device_change_t
)
tas3004_output_device_change
,
.
device_ioctl
=
(
tas_hook_device_ioctl_t
)
tas3004_device_ioctl
};
sound/oss/dmasound/tas3004.h
0 → 100644
View file @
3f250722
/*
* Header file for the i2c/i2s based TA3004 sound chip used
* on some Apple hardware. Also known as "tumbler".
*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file COPYING in the main directory of this archive
* for more details.
*
* Written by Christopher C. Chimelis <chris@debian.org>
*/
#ifndef _TAS3004_H_
#define _TAS3004_H_
#include <linux/types.h>
#include "tas_common.h"
#include "tas_eq_prefs.h"
/*
* Macros that correspond to the registers that we write to
* when setting the various values.
*/
#define TAS3004_VERSION "0.3"
#define TAS3004_DATE "20011214"
#define I2C_DRIVERNAME_TAS3004 "TAS3004 driver V " TAS3004_VERSION
#define I2C_DRIVERID_TAS3004 (I2C_DRIVERID_TAS_BASE+1)
extern
struct
tas_driver_hooks_t
tas3004_hooks
;
extern
struct
tas_gain_t
tas3004_gain
;
extern
struct
tas_eq_pref_t
*
tas3004_eq_prefs
[];
enum
tas3004_reg_t
{
TAS3004_REG_MCR
=
0x01
,
TAS3004_REG_DRC
=
0x02
,
TAS3004_REG_VOLUME
=
0x04
,
TAS3004_REG_TREBLE
=
0x05
,
TAS3004_REG_BASS
=
0x06
,
TAS3004_REG_LEFT_MIXER
=
0x07
,
TAS3004_REG_RIGHT_MIXER
=
0x08
,
TAS3004_REG_LEFT_BIQUAD0
=
0x0a
,
TAS3004_REG_LEFT_BIQUAD1
=
0x0b
,
TAS3004_REG_LEFT_BIQUAD2
=
0x0c
,
TAS3004_REG_LEFT_BIQUAD3
=
0x0d
,
TAS3004_REG_LEFT_BIQUAD4
=
0x0e
,
TAS3004_REG_LEFT_BIQUAD5
=
0x0f
,
TAS3004_REG_LEFT_BIQUAD6
=
0x10
,
TAS3004_REG_RIGHT_BIQUAD0
=
0x13
,
TAS3004_REG_RIGHT_BIQUAD1
=
0x14
,
TAS3004_REG_RIGHT_BIQUAD2
=
0x15
,
TAS3004_REG_RIGHT_BIQUAD3
=
0x16
,
TAS3004_REG_RIGHT_BIQUAD4
=
0x17
,
TAS3004_REG_RIGHT_BIQUAD5
=
0x18
,
TAS3004_REG_RIGHT_BIQUAD6
=
0x19
,
TAS3004_REG_LEFT_LOUD_BIQUAD
=
0x21
,
TAS3004_REG_RIGHT_LOUD_BIQUAD
=
0x22
,
TAS3004_REG_LEFT_LOUD_BIQUAD_GAIN
=
0x23
,
TAS3004_REG_RIGHT_LOUD_BIQUAD_GAIN
=
0x24
,
TAS3004_REG_TEST
=
0x29
,
TAS3004_REG_ANALOG_CTRL
=
0x40
,
TAS3004_REG_TEST1
=
0x41
,
TAS3004_REG_TEST2
=
0x42
,
TAS3004_REG_MCR2
=
0x43
,
TAS3004_REG_MAX
=
0x44
};
#endif
/* _TAS3004_H_ */
sound/oss/dmasound/tas3004_tables.c
0 → 100644
View file @
3f250722
#include "tas3004.h"
#include "tas_eq_prefs.h"
static
struct
tas_drce_t
eqp_17_1_0_drce
=
{
enable:
1
,
above:
{
val
:
3
.
0
*
(
1
<<
8
),
expand
:
0
},
below:
{
val
:
1
.
0
*
(
1
<<
8
),
expand
:
0
},
threshold:
-
19
.
12
*
(
1
<<
8
),
energy:
2
.
4
*
(
1
<<
12
),
attack:
0
.
013
*
(
1
<<
12
),
decay:
0
.
212
*
(
1
<<
12
),
};
static
struct
tas_biquad_ctrl_t
eqp_17_1_0_biquads
[]
=
{
{
channel
:
0
,
filter
:
0
,
data
:
{
coeff
:
{
0x0fd0d4
,
0xe05e56
,
0x0fd0d4
,
0xe05ee1
,
0x0fa234
}
}
},
{
channel
:
0
,
filter
:
1
,
data
:
{
coeff
:
{
0x0910d7
,
0x088e1a
,
0x030651
,
0x01dcb1
,
0x02c892
}
}
},
{
channel
:
0
,
filter
:
2
,
data
:
{
coeff
:
{
0x0ff895
,
0xe0970b
,
0x0f7f00
,
0xe0970b
,
0x0f7795
}
}
},
{
channel
:
0
,
filter
:
3
,
data
:
{
coeff
:
{
0x0fd1c4
,
0xe1ac22
,
0x0ec8cf
,
0xe1ac22
,
0x0e9a94
}
}
},
{
channel
:
0
,
filter
:
4
,
data
:
{
coeff
:
{
0x0f7c1c
,
0xe3cc03
,
0x0df786
,
0xe3cc03
,
0x0d73a2
}
}
},
{
channel
:
0
,
filter
:
5
,
data
:
{
coeff
:
{
0x11fb92
,
0xf5a1a0
,
0x073cd2
,
0xf5a1a0
,
0x093865
}
}
},
{
channel
:
0
,
filter
:
6
,
data
:
{
coeff
:
{
0x0e17a9
,
0x068b6c
,
0x08a0e5
,
0x068b6c
,
0x06b88e
}
}
},
{
channel
:
1
,
filter
:
0
,
data
:
{
coeff
:
{
0x0fd0d4
,
0xe05e56
,
0x0fd0d4
,
0xe05ee1
,
0x0fa234
}
}
},
{
channel
:
1
,
filter
:
1
,
data
:
{
coeff
:
{
0x0910d7
,
0x088e1a
,
0x030651
,
0x01dcb1
,
0x02c892
}
}
},
{
channel
:
1
,
filter
:
2
,
data
:
{
coeff
:
{
0x0ff895
,
0xe0970b
,
0x0f7f00
,
0xe0970b
,
0x0f7795
}
}
},
{
channel
:
1
,
filter
:
3
,
data
:
{
coeff
:
{
0x0fd1c4
,
0xe1ac22
,
0x0ec8cf
,
0xe1ac22
,
0x0e9a94
}
}
},
{
channel
:
1
,
filter
:
4
,
data
:
{
coeff
:
{
0x0f7c1c
,
0xe3cc03
,
0x0df786
,
0xe3cc03
,
0x0d73a2
}
}
},
{
channel
:
1
,
filter
:
5
,
data
:
{
coeff
:
{
0x11fb92
,
0xf5a1a0
,
0x073cd2
,
0xf5a1a0
,
0x093865
}
}
},
{
channel
:
1
,
filter
:
6
,
data
:
{
coeff
:
{
0x0e17a9
,
0x068b6c
,
0x08a0e5
,
0x068b6c
,
0x06b88e
}
}
}
};
static
struct
tas_eq_pref_t
eqp_17_1_0
=
{
sample_rate:
44100
,
device_id:
0x17
,
output_id:
TAS_OUTPUT_INTERNAL_SPKR
,
speaker_id:
0x00
,
drce:
&
eqp_17_1_0_drce
,
filter_count:
14
,
biquads:
eqp_17_1_0_biquads
};
/* ======================================================================== */
static
struct
tas_drce_t
eqp_18_1_0_drce
=
{
enable:
1
,
above:
{
val
:
3
.
0
*
(
1
<<
8
),
expand
:
0
},
below:
{
val
:
1
.
0
*
(
1
<<
8
),
expand
:
0
},
threshold:
-
13
.
14
*
(
1
<<
8
),
energy:
2
.
4
*
(
1
<<
12
),
attack:
0
.
013
*
(
1
<<
12
),
decay:
0
.
212
*
(
1
<<
12
),
};
static
struct
tas_biquad_ctrl_t
eqp_18_1_0_biquads
[]
=
{
{
channel
:
0
,
filter
:
0
,
data
:
{
coeff
:
{
0x0f5514
,
0xe155d7
,
0x0f5514
,
0xe15cfa
,
0x0eb14b
}
}
},
{
channel
:
0
,
filter
:
1
,
data
:
{
coeff
:
{
0x06ec33
,
0x02abe3
,
0x015eef
,
0xf764d9
,
0x03922d
}
}
},
{
channel
:
0
,
filter
:
2
,
data
:
{
coeff
:
{
0x0ef5f2
,
0xe67d1f
,
0x0bcf37
,
0xe67d1f
,
0x0ac529
}
}
},
{
channel
:
0
,
filter
:
3
,
data
:
{
coeff
:
{
0x0db050
,
0xe5be4d
,
0x0d0c78
,
0xe5be4d
,
0x0abcc8
}
}
},
{
channel
:
0
,
filter
:
4
,
data
:
{
coeff
:
{
0x0f1298
,
0xe64ec6
,
0x0cc03e
,
0xe64ec6
,
0x0bd2d7
}
}
},
{
channel
:
0
,
filter
:
5
,
data
:
{
coeff
:
{
0x0c641a
,
0x06537a
,
0x08d155
,
0x06537a
,
0x053570
}
}
},
{
channel
:
0
,
filter
:
6
,
data
:
{
coeff
:
{
0x100000
,
0x000000
,
0x000000
,
0x000000
,
0x000000
}
}
},
{
channel
:
1
,
filter
:
0
,
data
:
{
coeff
:
{
0x0f5514
,
0xe155d7
,
0x0f5514
,
0xe15cfa
,
0x0eb14b
}
}
},
{
channel
:
1
,
filter
:
1
,
data
:
{
coeff
:
{
0x06ec33
,
0x02abe3
,
0x015eef
,
0xf764d9
,
0x03922d
}
}
},
{
channel
:
1
,
filter
:
2
,
data
:
{
coeff
:
{
0x0ef5f2
,
0xe67d1f
,
0x0bcf37
,
0xe67d1f
,
0x0ac529
}
}
},
{
channel
:
1
,
filter
:
3
,
data
:
{
coeff
:
{
0x0db050
,
0xe5be4d
,
0x0d0c78
,
0xe5be4d
,
0x0abcc8
}
}
},
{
channel
:
1
,
filter
:
4
,
data
:
{
coeff
:
{
0x0f1298
,
0xe64ec6
,
0x0cc03e
,
0xe64ec6
,
0x0bd2d7
}
}
},
{
channel
:
1
,
filter
:
5
,
data
:
{
coeff
:
{
0x0c641a
,
0x06537a
,
0x08d155
,
0x06537a
,
0x053570
}
}
},
{
channel
:
1
,
filter
:
6
,
data
:
{
coeff
:
{
0x100000
,
0x000000
,
0x000000
,
0x000000
,
0x000000
}
}
}
};
static
struct
tas_eq_pref_t
eqp_18_1_0
=
{
sample_rate:
44100
,
device_id:
0x18
,
output_id:
TAS_OUTPUT_INTERNAL_SPKR
,
speaker_id:
0x00
,
drce:
&
eqp_18_1_0_drce
,
filter_count:
14
,
biquads:
eqp_18_1_0_biquads
};
/* ======================================================================== */
static
struct
tas_drce_t
eqp_1a_1_0_drce
=
{
enable:
1
,
above:
{
val
:
3
.
0
*
(
1
<<
8
),
expand
:
0
},
below:
{
val
:
1
.
0
*
(
1
<<
8
),
expand
:
0
},
threshold:
-
10
.
75
*
(
1
<<
8
),
energy:
2
.
4
*
(
1
<<
12
),
attack:
0
.
013
*
(
1
<<
12
),
decay:
0
.
212
*
(
1
<<
12
),
};
static
struct
tas_biquad_ctrl_t
eqp_1a_1_0_biquads
[]
=
{
{
channel
:
0
,
filter
:
0
,
data
:
{
coeff
:
{
0x0fb8fd
,
0xe08e04
,
0x0fb8fd
,
0xe08f40
,
0x0f7336
}
}
},
{
channel
:
0
,
filter
:
1
,
data
:
{
coeff
:
{
0x06371d
,
0x0c6e3a
,
0x06371d
,
0x05bfd3
,
0x031ca2
}
}
},
{
channel
:
0
,
filter
:
2
,
data
:
{
coeff
:
{
0x0fa1c0
,
0xe18692
,
0x0f030e
,
0xe18692
,
0x0ea4ce
}
}
},
{
channel
:
0
,
filter
:
3
,
data
:
{
coeff
:
{
0x0fe495
,
0xe17eff
,
0x0f0452
,
0xe17eff
,
0x0ee8e7
}
}
},
{
channel
:
0
,
filter
:
4
,
data
:
{
coeff
:
{
0x100857
,
0xe7e71c
,
0x0e9599
,
0xe7e71c
,
0x0e9df1
}
}
},
{
channel
:
0
,
filter
:
5
,
data
:
{
coeff
:
{
0x0fb26e
,
0x06a82c
,
0x0db2b4
,
0x06a82c
,
0x0d6522
}
}
},
{
channel
:
0
,
filter
:
6
,
data
:
{
coeff
:
{
0x11419d
,
0xf06cbf
,
0x0a4f6e
,
0xf06cbf
,
0x0b910c
}
}
},
{
channel
:
1
,
filter
:
0
,
data
:
{
coeff
:
{
0x0fb8fd
,
0xe08e04
,
0x0fb8fd
,
0xe08f40
,
0x0f7336
}
}
},
{
channel
:
1
,
filter
:
1
,
data
:
{
coeff
:
{
0x06371d
,
0x0c6e3a
,
0x06371d
,
0x05bfd3
,
0x031ca2
}
}
},
{
channel
:
1
,
filter
:
2
,
data
:
{
coeff
:
{
0x0fa1c0
,
0xe18692
,
0x0f030e
,
0xe18692
,
0x0ea4ce
}
}
},
{
channel
:
1
,
filter
:
3
,
data
:
{
coeff
:
{
0x0fe495
,
0xe17eff
,
0x0f0452
,
0xe17eff
,
0x0ee8e7
}
}
},
{
channel
:
1
,
filter
:
4
,
data
:
{
coeff
:
{
0x100857
,
0xe7e71c
,
0x0e9599
,
0xe7e71c
,
0x0e9df1
}
}
},
{
channel
:
1
,
filter
:
5
,
data
:
{
coeff
:
{
0x0fb26e
,
0x06a82c
,
0x0db2b4
,
0x06a82c
,
0x0d6522
}
}
},
{
channel
:
1
,
filter
:
6
,
data
:
{
coeff
:
{
0x11419d
,
0xf06cbf
,
0x0a4f6e
,
0xf06cbf
,
0x0b910c
}
}
}
};
static
struct
tas_eq_pref_t
eqp_1a_1_0
=
{
sample_rate:
44100
,
device_id:
0x1a
,
output_id:
TAS_OUTPUT_INTERNAL_SPKR
,
speaker_id:
0x00
,
drce:
&
eqp_1a_1_0_drce
,
filter_count:
14
,
biquads:
eqp_1a_1_0_biquads
};
/* ======================================================================== */
static
struct
tas_drce_t
eqp_1c_1_0_drce
=
{
enable:
1
,
above:
{
val
:
3
.
0
*
(
1
<<
8
),
expand
:
0
},
below:
{
val
:
1
.
0
*
(
1
<<
8
),
expand
:
0
},
threshold:
-
14
.
34
*
(
1
<<
8
),
energy:
2
.
4
*
(
1
<<
12
),
attack:
0
.
013
*
(
1
<<
12
),
decay:
0
.
212
*
(
1
<<
12
),
};
static
struct
tas_biquad_ctrl_t
eqp_1c_1_0_biquads
[]
=
{
{
channel
:
0
,
filter
:
0
,
data
:
{
coeff
:
{
0x0f4f95
,
0xe160d4
,
0x0f4f95
,
0xe1686e
,
0x0ea6c5
}
}
},
{
channel
:
0
,
filter
:
1
,
data
:
{
coeff
:
{
0x066b92
,
0x0290d4
,
0x0148a0
,
0xf6853f
,
0x03bfc7
}
}
},
{
channel
:
0
,
filter
:
2
,
data
:
{
coeff
:
{
0x0f57dc
,
0xe51c91
,
0x0dd1cb
,
0xe51c91
,
0x0d29a8
}
}
},
{
channel
:
0
,
filter
:
3
,
data
:
{
coeff
:
{
0x0df1cb
,
0xe4fa84
,
0x0d7cdc
,
0xe4fa84
,
0x0b6ea7
}
}
},
{
channel
:
0
,
filter
:
4
,
data
:
{
coeff
:
{
0x0eba36
,
0xe6aa48
,
0x0b9f52
,
0xe6aa48
,
0x0a5989
}
}
},
{
channel
:
0
,
filter
:
5
,
data
:
{
coeff
:
{
0x0caf02
,
0x05ef9d
,
0x084beb
,
0x05ef9d
,
0x04faee
}
}
},
{
channel
:
0
,
filter
:
6
,
data
:
{
coeff
:
{
0x0fc686
,
0xe22947
,
0x0e4b5d
,
0xe22947
,
0x0e11e4
}
}
},
{
channel
:
1
,
filter
:
0
,
data
:
{
coeff
:
{
0x0f4f95
,
0xe160d4
,
0x0f4f95
,
0xe1686e
,
0x0ea6c5
}
}
},
{
channel
:
1
,
filter
:
1
,
data
:
{
coeff
:
{
0x066b92
,
0x0290d4
,
0x0148a0
,
0xf6853f
,
0x03bfc7
}
}
},
{
channel
:
1
,
filter
:
2
,
data
:
{
coeff
:
{
0x0f57dc
,
0xe51c91
,
0x0dd1cb
,
0xe51c91
,
0x0d29a8
}
}
},
{
channel
:
1
,
filter
:
3
,
data
:
{
coeff
:
{
0x0df1cb
,
0xe4fa84
,
0x0d7cdc
,
0xe4fa84
,
0x0b6ea7
}
}
},
{
channel
:
1
,
filter
:
4
,
data
:
{
coeff
:
{
0x0eba36
,
0xe6aa48
,
0x0b9f52
,
0xe6aa48
,
0x0a5989
}
}
},
{
channel
:
1
,
filter
:
5
,
data
:
{
coeff
:
{
0x0caf02
,
0x05ef9d
,
0x084beb
,
0x05ef9d
,
0x04faee
}
}
},
{
channel
:
1
,
filter
:
6
,
data
:
{
coeff
:
{
0x0fc686
,
0xe22947
,
0x0e4b5d
,
0xe22947
,
0x0e11e4
}
}
}
};
static
struct
tas_eq_pref_t
eqp_1c_1_0
=
{
sample_rate:
44100
,
device_id:
0x1c
,
output_id:
TAS_OUTPUT_INTERNAL_SPKR
,
speaker_id:
0x00
,
drce:
&
eqp_1c_1_0_drce
,
filter_count:
14
,
biquads:
eqp_1c_1_0_biquads
};
/* ======================================================================== */
static
uint
tas3004_master_tab
[]
=
{
0x0
,
0x75
,
0x9c
,
0xbb
,
0xdb
,
0xfb
,
0x11e
,
0x143
,
0x16b
,
0x196
,
0x1c3
,
0x1f5
,
0x229
,
0x263
,
0x29f
,
0x2e1
,
0x328
,
0x373
,
0x3c5
,
0x41b
,
0x478
,
0x4dc
,
0x547
,
0x5b8
,
0x633
,
0x6b5
,
0x740
,
0x7d5
,
0x873
,
0x91c
,
0x9d2
,
0xa92
,
0xb5e
,
0xc39
,
0xd22
,
0xe19
,
0xf20
,
0x1037
,
0x1161
,
0x129e
,
0x13ed
,
0x1551
,
0x16ca
,
0x185d
,
0x1a08
,
0x1bcc
,
0x1dac
,
0x1fa7
,
0x21c1
,
0x23fa
,
0x2655
,
0x28d6
,
0x2b7c
,
0x2e4a
,
0x3141
,
0x3464
,
0x37b4
,
0x3b35
,
0x3ee9
,
0x42d3
,
0x46f6
,
0x4b53
,
0x4ff0
,
0x54ce
,
0x59f2
,
0x5f5f
,
0x6519
,
0x6b24
,
0x7183
,
0x783c
,
0x7f53
,
0x86cc
,
0x8ead
,
0x96fa
,
0x9fba
,
0xa8f2
,
0xb2a7
,
0xbce1
,
0xc7a5
,
0xd2fa
,
0xdee8
,
0xeb75
,
0xf8aa
,
0x1068e
,
0x1152a
,
0x12487
,
0x134ad
,
0x145a5
,
0x1577b
,
0x16a37
,
0x17df5
,
0x192bd
,
0x1a890
,
0x1bf7b
,
0x1d78d
,
0x1f0d1
,
0x20b55
,
0x22727
,
0x24456
,
0x262f2
,
0x2830b
};
static
uint
tas3004_mixer_tab
[]
=
{
0x0
,
0x748
,
0x9be
,
0xbaf
,
0xda4
,
0xfb1
,
0x11de
,
0x1431
,
0x16ad
,
0x1959
,
0x1c37
,
0x1f4b
,
0x2298
,
0x2628
,
0x29fb
,
0x2e12
,
0x327d
,
0x3734
,
0x3c47
,
0x41b4
,
0x4787
,
0x4dbe
,
0x546d
,
0x5b86
,
0x632e
,
0x6b52
,
0x7400
,
0x7d54
,
0x873b
,
0x91c6
,
0x9d1a
,
0xa920
,
0xb5e5
,
0xc38c
,
0xd21b
,
0xe18f
,
0xf1f5
,
0x1036a
,
0x1160f
,
0x129d6
,
0x13ed0
,
0x1550c
,
0x16ca0
,
0x185c9
,
0x1a07b
,
0x1bcc3
,
0x1dab9
,
0x1fa75
,
0x21c0f
,
0x23fa3
,
0x26552
,
0x28d64
,
0x2b7c9
,
0x2e4a2
,
0x31411
,
0x3463b
,
0x37b44
,
0x3b353
,
0x3ee94
,
0x42d30
,
0x46f55
,
0x4b533
,
0x4fefc
,
0x54ce5
,
0x59f25
,
0x5f5f6
,
0x65193
,
0x6b23c
,
0x71835
,
0x783c3
,
0x7f52c
,
0x86cc0
,
0x8eacc
,
0x96fa5
,
0x9fba0
,
0xa8f1a
,
0xb2a71
,
0xbce0a
,
0xc7a4a
,
0xd2fa0
,
0xdee7b
,
0xeb752
,
0xf8a9f
,
0x1068e4
,
0x1152a3
,
0x12486a
,
0x134ac8
,
0x145a55
,
0x1577ac
,
0x16a370
,
0x17df51
,
0x192bc2
,
0x1a88f8
,
0x1bf7b7
,
0x1d78c9
,
0x1f0d04
,
0x20b542
,
0x227268
,
0x244564
,
0x262f26
,
0x2830af
};
static
uint
tas3004_treble_tab
[]
=
{
0x96
,
0x95
,
0x95
,
0x94
,
0x93
,
0x92
,
0x92
,
0x91
,
0x90
,
0x90
,
0x8f
,
0x8e
,
0x8d
,
0x8d
,
0x8c
,
0x8b
,
0x8a
,
0x8a
,
0x89
,
0x88
,
0x88
,
0x87
,
0x86
,
0x85
,
0x85
,
0x84
,
0x83
,
0x83
,
0x82
,
0x81
,
0x80
,
0x80
,
0x7f
,
0x7e
,
0x7e
,
0x7d
,
0x7c
,
0x7b
,
0x7b
,
0x7a
,
0x79
,
0x78
,
0x78
,
0x77
,
0x76
,
0x76
,
0x75
,
0x74
,
0x73
,
0x73
,
0x72
,
0x71
,
0x71
,
0x68
,
0x45
,
0x5b
,
0x6d
,
0x6c
,
0x6b
,
0x6a
,
0x69
,
0x68
,
0x67
,
0x66
,
0x65
,
0x63
,
0x62
,
0x62
,
0x60
,
0x5e
,
0x5c
,
0x5b
,
0x59
,
0x57
,
0x55
,
0x53
,
0x52
,
0x4f
,
0x4d
,
0x4a
,
0x48
,
0x46
,
0x43
,
0x40
,
0x3d
,
0x3a
,
0x36
,
0x33
,
0x2f
,
0x2c
,
0x27
,
0x23
,
0x1f
,
0x1a
,
0x15
,
0xf
,
0x8
,
0x5
,
0x2
,
0x1
,
0x1
};
static
uint
tas3004_bass_tab
[]
=
{
0x96
,
0x95
,
0x95
,
0x94
,
0x93
,
0x92
,
0x92
,
0x91
,
0x90
,
0x90
,
0x8f
,
0x8e
,
0x8d
,
0x8d
,
0x8c
,
0x8b
,
0x8a
,
0x8a
,
0x89
,
0x88
,
0x88
,
0x87
,
0x86
,
0x85
,
0x85
,
0x84
,
0x83
,
0x83
,
0x82
,
0x81
,
0x80
,
0x80
,
0x7f
,
0x7e
,
0x7e
,
0x7d
,
0x7c
,
0x7b
,
0x7b
,
0x7a
,
0x79
,
0x78
,
0x78
,
0x77
,
0x76
,
0x76
,
0x75
,
0x74
,
0x73
,
0x73
,
0x72
,
0x71
,
0x70
,
0x6f
,
0x6e
,
0x6d
,
0x6c
,
0x6b
,
0x6a
,
0x6a
,
0x69
,
0x67
,
0x66
,
0x66
,
0x65
,
0x63
,
0x62
,
0x62
,
0x61
,
0x60
,
0x5e
,
0x5d
,
0x5b
,
0x59
,
0x57
,
0x55
,
0x53
,
0x51
,
0x4f
,
0x4c
,
0x4a
,
0x48
,
0x46
,
0x44
,
0x41
,
0x3e
,
0x3b
,
0x38
,
0x36
,
0x33
,
0x2f
,
0x2b
,
0x28
,
0x24
,
0x20
,
0x1c
,
0x17
,
0x12
,
0xd
,
0x7
,
0x1
};
struct
tas_gain_t
tas3004_gain
=
{
master:
tas3004_master_tab
,
treble:
tas3004_treble_tab
,
bass:
tas3004_bass_tab
,
mixer:
tas3004_mixer_tab
};
struct
tas_eq_pref_t
*
tas3004_eq_prefs
[]
=
{
&
eqp_17_1_0
,
&
eqp_18_1_0
,
&
eqp_1a_1_0
,
&
eqp_1c_1_0
,
NULL
};
sound/oss/dmasound/tas_common.c
0 → 100644
View file @
3f250722
#include <linux/version.h>
#include <linux/module.h>
#include <linux/slab.h>
#include <linux/proc_fs.h>
#include <linux/ioport.h>
#include <linux/sysctl.h>
#include <linux/types.h>
#include <linux/i2c.h>
#include <linux/init.h>
#include <linux/soundcard.h>
#include <asm/uaccess.h>
#include <asm/errno.h>
#include <asm/io.h>
#include <asm/prom.h>
#include "tas_common.h"
#define CALL0(proc) \
do { \
struct tas_data_t *self; \
if (!tas_client || driver_hooks == NULL) \
return -1; \
self = dev_get_drvdata(&tas_client->dev); \
if (driver_hooks->proc) \
return driver_hooks->proc(self); \
else \
return -EINVAL; \
} while (0)
#define CALL(proc,arg...) \
do { \
struct tas_data_t *self; \
if (!tas_client || driver_hooks == NULL) \
return -1; \
self = dev_get_drvdata(&tas_client->dev); \
if (driver_hooks->proc) \
return driver_hooks->proc(self, ## arg); \
else \
return -EINVAL; \
} while (0)
static
u8
tas_i2c_address
=
0x34
;
static
struct
i2c_client
*
tas_client
;
static
struct
device_node
*
tas_node
;
static
int
tas_attach_adapter
(
struct
i2c_adapter
*
);
static
int
tas_detach_client
(
struct
i2c_client
*
);
struct
i2c_driver
tas_driver
=
{
.
owner
=
THIS_MODULE
,
.
name
=
"tas"
,
.
flags
=
I2C_DF_NOTIFY
,
.
attach_adapter
=
tas_attach_adapter
,
.
detach_client
=
tas_detach_client
,
};
struct
tas_driver_hooks_t
*
driver_hooks
;
int
tas_register_driver
(
struct
tas_driver_hooks_t
*
hooks
)
{
driver_hooks
=
hooks
;
return
0
;
}
int
tas_get_mixer_level
(
int
mixer
,
uint
*
level
)
{
CALL
(
get_mixer_level
,
mixer
,
level
);
}
int
tas_set_mixer_level
(
int
mixer
,
uint
level
)
{
CALL
(
set_mixer_level
,
mixer
,
level
);
}
int
tas_enter_sleep
(
void
)
{
CALL0
(
enter_sleep
);
}
int
tas_leave_sleep
(
void
)
{
CALL0
(
leave_sleep
);
}
int
tas_supported_mixers
(
void
)
{
CALL0
(
supported_mixers
);
}
int
tas_mixer_is_stereo
(
int
mixer
)
{
CALL
(
mixer_is_stereo
,
mixer
);
}
int
tas_stereo_mixers
(
void
)
{
CALL0
(
stereo_mixers
);
}
int
tas_output_device_change
(
int
device_id
,
int
layout_id
,
int
speaker_id
)
{
CALL
(
output_device_change
,
device_id
,
layout_id
,
speaker_id
);
}
int
tas_device_ioctl
(
u_int
cmd
,
u_long
arg
)
{
CALL
(
device_ioctl
,
cmd
,
arg
);
}
int
tas_post_init
(
void
)
{
CALL0
(
post_init
);
}
static
int
tas_detect_client
(
struct
i2c_adapter
*
adapter
,
int
address
)
{
static
const
char
*
client_name
=
"tas Digital Equalizer"
;
struct
i2c_client
*
new_client
;
int
rc
=
-
ENODEV
;
if
(
!
driver_hooks
)
{
printk
(
KERN_ERR
"tas_detect_client called with no hooks !
\n
"
);
return
-
ENODEV
;
}
new_client
=
kmalloc
(
sizeof
(
*
new_client
),
GFP_KERNEL
);
if
(
!
new_client
)
return
-
ENOMEM
;
memset
(
new_client
,
0
,
sizeof
(
*
new_client
));
new_client
->
addr
=
address
;
new_client
->
adapter
=
adapter
;
new_client
->
driver
=
&
tas_driver
;
strlcpy
(
new_client
->
name
,
client_name
,
DEVICE_NAME_SIZE
);
if
(
driver_hooks
->
init
(
new_client
))
goto
bail
;
/* Tell the i2c layer a new client has arrived */
if
(
i2c_attach_client
(
new_client
))
{
driver_hooks
->
uninit
(
dev_get_drvdata
(
&
new_client
->
dev
));
goto
bail
;
}
tas_client
=
new_client
;
return
0
;
bail:
tas_client
=
NULL
;
kfree
(
new_client
);
return
rc
;
}
static
int
tas_attach_adapter
(
struct
i2c_adapter
*
adapter
)
{
if
(
!
strncmp
(
adapter
->
name
,
"mac-io"
,
6
))
return
tas_detect_client
(
adapter
,
tas_i2c_address
);
return
0
;
}
static
int
tas_detach_client
(
struct
i2c_client
*
client
)
{
if
(
client
==
tas_client
)
{
driver_hooks
->
uninit
(
dev_get_drvdata
(
&
client
->
dev
));
i2c_detach_client
(
client
);
kfree
(
client
);
}
return
0
;
}
void
tas_cleanup
(
void
)
{
i2c_del_driver
(
&
tas_driver
);
}
int
__init
tas_init
(
int
driver_id
,
const
char
*
driver_name
)
{
u32
*
paddr
;
printk
(
KERN_INFO
"tas driver [%s])
\n
"
,
driver_name
);
tas_node
=
find_devices
(
"deq"
);
if
(
tas_node
==
NULL
)
return
-
ENODEV
;
paddr
=
(
u32
*
)
get_property
(
tas_node
,
"i2c-address"
,
NULL
);
if
(
paddr
)
{
tas_i2c_address
=
(
*
paddr
)
>>
1
;
printk
(
KERN_INFO
"using i2c address: 0x%x from device-tree
\n
"
,
tas_i2c_address
);
}
else
printk
(
KERN_INFO
"using i2c address: 0x%x (default)
\n
"
,
tas_i2c_address
);
return
i2c_add_driver
(
&
tas_driver
);
}
sound/oss/dmasound/tas_common.h
0 → 100644
View file @
3f250722
#ifndef _TAS_COMMON_H_
#define _TAS_COMMON_H_
#include <linux/i2c.h>
#include <linux/soundcard.h>
#include <asm/string.h>
#define I2C_DRIVERID_TAS_BASE (0xFEBA)
#define SET_4_20(shadow, offset, val) \
do { \
(shadow)[(offset)+0] = ((val) >> 16) & 0xff; \
(shadow)[(offset)+1] = ((val) >> 8) & 0xff; \
(shadow)[(offset)+2] = ((val) >> 0) & 0xff; \
} while (0)
#define GET_4_20(shadow, offset) \
(((u_int)((shadow)[(offset)+0]) << 16) | \
((u_int)((shadow)[(offset)+1]) << 8) | \
((u_int)((shadow)[(offset)+2]) << 0))
#define TAS_BIQUAD_FAST_LOAD 0x01
#define TAS_DRCE_ENABLE 0x01
#define TAS_DRCE_ABOVE_RATIO 0x02
#define TAS_DRCE_BELOW_RATIO 0x04
#define TAS_DRCE_THRESHOLD 0x08
#define TAS_DRCE_ENERGY 0x10
#define TAS_DRCE_ATTACK 0x20
#define TAS_DRCE_DECAY 0x40
#define TAS_DRCE_ALL 0x7f
#define TAS_OUTPUT_HEADPHONES 0x00
#define TAS_OUTPUT_INTERNAL_SPKR 0x01
#define TAS_OUTPUT_EXTERNAL_SPKR 0x02
union
tas_biquad_t
{
struct
{
int
b0
,
b1
,
b2
,
a1
,
a2
;
}
coeff
;
int
buf
[
5
];
};
struct
tas_biquad_ctrl_t
{
u_int
channel
:
4
;
u_int
filter
:
4
;
union
tas_biquad_t
data
;
};
struct
tas_biquad_ctrl_list_t
{
int
flags
;
int
filter_count
;
struct
tas_biquad_ctrl_t
biquads
[
0
];
};
struct
tas_ratio_t
{
unsigned
short
val
;
/* 8.8 */
unsigned
short
expand
;
/* 0 = compress, !0 = expand. */
};
struct
tas_drce_t
{
unsigned
short
enable
;
struct
tas_ratio_t
above
;
struct
tas_ratio_t
below
;
short
threshold
;
/* dB, 8.8 signed */
unsigned
short
energy
;
/* seconds, 4.12 unsigned */
unsigned
short
attack
;
/* seconds, 4.12 unsigned */
unsigned
short
decay
;
/* seconds, 4.12 unsigned */
};
struct
tas_drce_ctrl_t
{
uint
flags
;
struct
tas_drce_t
data
;
};
struct
tas_gain_t
{
unsigned
int
*
master
;
unsigned
int
*
treble
;
unsigned
int
*
bass
;
unsigned
int
*
mixer
;
};
typedef
char
tas_shadow_t
[
16
];
struct
tas_data_t
{
struct
i2c_client
*
client
;
tas_shadow_t
*
shadow
;
uint
mixer
[
SOUND_MIXER_NRDEVICES
];
};
typedef
int
(
*
tas_hook_init_t
)(
struct
i2c_client
*
);
typedef
int
(
*
tas_hook_post_init_t
)(
struct
tas_data_t
*
);
typedef
void
(
*
tas_hook_uninit_t
)(
struct
tas_data_t
*
);
typedef
int
(
*
tas_hook_get_mixer_level_t
)(
struct
tas_data_t
*
,
int
,
uint
*
);
typedef
int
(
*
tas_hook_set_mixer_level_t
)(
struct
tas_data_t
*
,
int
,
uint
);
typedef
int
(
*
tas_hook_enter_sleep_t
)(
struct
tas_data_t
*
);
typedef
int
(
*
tas_hook_leave_sleep_t
)(
struct
tas_data_t
*
);
typedef
int
(
*
tas_hook_supported_mixers_t
)(
struct
tas_data_t
*
);
typedef
int
(
*
tas_hook_mixer_is_stereo_t
)(
struct
tas_data_t
*
,
int
);
typedef
int
(
*
tas_hook_stereo_mixers_t
)(
struct
tas_data_t
*
);
typedef
int
(
*
tas_hook_output_device_change_t
)(
struct
tas_data_t
*
,
int
,
int
,
int
);
typedef
int
(
*
tas_hook_device_ioctl_t
)(
struct
tas_data_t
*
,
u_int
,
u_long
);
struct
tas_driver_hooks_t
{
/*
* All hardware initialisation must be performed in
* post_init(), as tas_dmasound_init() does a hardware reset.
*
* init() is called before tas_dmasound_init() so that
* ouput_device_change() is always called after i2c driver
* initialisation. The implication is that
* output_device_change() must cope with the fact that it
* may be called before post_init().
*/
tas_hook_init_t
init
;
tas_hook_post_init_t
post_init
;
tas_hook_uninit_t
uninit
;
tas_hook_get_mixer_level_t
get_mixer_level
;
tas_hook_set_mixer_level_t
set_mixer_level
;
tas_hook_enter_sleep_t
enter_sleep
;
tas_hook_leave_sleep_t
leave_sleep
;
tas_hook_supported_mixers_t
supported_mixers
;
tas_hook_mixer_is_stereo_t
mixer_is_stereo
;
tas_hook_stereo_mixers_t
stereo_mixers
;
tas_hook_output_device_change_t
output_device_change
;
tas_hook_device_ioctl_t
device_ioctl
;
};
enum
tas_write_mode_t
{
WRITE_HW
=
0x01
,
WRITE_SHADOW
=
0x02
,
WRITE_NORMAL
=
0x03
,
FORCE_WRITE
=
0x04
};
static
inline
uint
tas_mono_to_stereo
(
uint
mono
)
{
mono
&=
0xff
;
return
mono
|
(
mono
<<
8
);
}
/*
* Todo: make these functions a bit more efficient !
*/
static
inline
int
tas_write_register
(
struct
tas_data_t
*
self
,
uint
reg_num
,
uint
reg_width
,
char
*
data
,
uint
write_mode
)
{
int
rc
;
if
(
reg_width
==
0
||
data
==
NULL
||
self
==
NULL
)
return
-
EINVAL
;
if
(
!
(
write_mode
&
FORCE_WRITE
)
&&
!
memcmp
(
data
,
self
->
shadow
[
reg_num
],
reg_width
))
return
0
;
if
(
write_mode
&
WRITE_SHADOW
)
memcpy
(
self
->
shadow
[
reg_num
],
data
,
reg_width
);
if
(
write_mode
&
WRITE_HW
)
{
rc
=
i2c_smbus_write_block_data
(
self
->
client
,
reg_num
,
reg_width
,
data
);
if
(
rc
<
0
)
{
printk
(
"tas: I2C block write failed
\n
"
);
return
rc
;
}
}
return
0
;
}
static
inline
int
tas_sync_register
(
struct
tas_data_t
*
self
,
uint
reg_num
,
uint
reg_width
)
{
int
rc
;
if
(
reg_width
==
0
||
self
==
NULL
)
return
-
EINVAL
;
rc
=
i2c_smbus_write_block_data
(
self
->
client
,
reg_num
,
reg_width
,
self
->
shadow
[
reg_num
]);
if
(
rc
<
0
)
{
printk
(
"tas: I2C block write failed
\n
"
);
return
rc
;
}
return
0
;
}
static
inline
int
tas_write_byte_register
(
struct
tas_data_t
*
self
,
uint
reg_num
,
char
data
,
uint
write_mode
)
{
if
(
self
==
NULL
)
return
-
1
;
if
(
!
(
write_mode
&
FORCE_WRITE
)
&&
data
!=
self
->
shadow
[
reg_num
][
0
])
return
0
;
if
(
write_mode
&
WRITE_SHADOW
)
self
->
shadow
[
reg_num
][
0
]
=
data
;
if
(
write_mode
&
WRITE_HW
)
{
if
(
i2c_smbus_write_byte_data
(
self
->
client
,
reg_num
,
data
)
<
0
)
{
printk
(
"tas: I2C byte write failed
\n
"
);
return
-
1
;
}
}
return
0
;
}
static
inline
int
tas_sync_byte_register
(
struct
tas_data_t
*
self
,
uint
reg_num
,
uint
reg_width
)
{
if
(
reg_width
==
0
||
self
==
NULL
)
return
-
1
;
if
(
i2c_smbus_write_byte_data
(
self
->
client
,
reg_num
,
self
->
shadow
[
reg_num
][
0
])
<
0
)
{
printk
(
"tas: I2C byte write failed
\n
"
);
return
-
1
;
}
return
0
;
}
static
inline
int
tas_read_register
(
struct
tas_data_t
*
self
,
uint
reg_num
,
uint
reg_width
,
char
*
data
)
{
if
(
reg_width
==
0
||
data
==
NULL
||
self
==
NULL
)
return
-
1
;
memcpy
(
data
,
self
->
shadow
[
reg_num
],
reg_width
);
return
0
;
}
extern
int
tas_register_driver
(
struct
tas_driver_hooks_t
*
hooks
);
extern
int
tas_get_mixer_level
(
int
mixer
,
uint
*
level
);
extern
int
tas_set_mixer_level
(
int
mixer
,
uint
level
);
extern
int
tas_enter_sleep
(
void
);
extern
int
tas_leave_sleep
(
void
);
extern
int
tas_supported_mixers
(
void
);
extern
int
tas_mixer_is_stereo
(
int
mixer
);
extern
int
tas_stereo_mixers
(
void
);
extern
int
tas_output_device_change
(
int
,
int
,
int
);
extern
int
tas_device_ioctl
(
u_int
,
u_long
);
extern
void
tas_cleanup
(
void
);
extern
int
tas_init
(
int
driver_id
,
const
char
*
driver_name
);
extern
int
tas_post_init
(
void
);
#endif
/* _TAS_COMMON_H_ */
/*
* Local Variables:
* tab-width: 8
* indent-tabs-mode: t
* c-basic-offset: 8
* End:
*/
sound/oss/dmasound/tas_eq_prefs.h
0 → 100644
View file @
3f250722
#ifndef _TAS_EQ_PREFS_H_
#define _TAS_EQ_PREFS_H_
struct
tas_eq_pref_t
{
u_int
sample_rate
;
u_int
device_id
;
u_int
output_id
;
u_int
speaker_id
;
struct
tas_drce_t
*
drce
;
u_int
filter_count
;
struct
tas_biquad_ctrl_t
*
biquads
;
};
#endif
/* _TAS_EQ_PREFS_H_ */
/*
* Local Variables:
* tab-width: 8
* indent-tabs-mode: t
* c-basic-offset: 8
* End:
*/
sound/oss/dmasound/tas_ioctl.h
0 → 100644
View file @
3f250722
#ifndef _TAS_IOCTL_H_
#define _TAS_IOCTL_H_
#include <linux/i2c.h>
#include <linux/soundcard.h>
#define TAS_READ_EQ _SIOR('t',0,struct tas_biquad_ctrl_t)
#define TAS_WRITE_EQ _SIOW('t',0,struct tas_biquad_ctrl_t)
#define TAS_READ_EQ_LIST _SIOR('t',1,struct tas_biquad_ctrl_t)
#define TAS_WRITE_EQ_LIST _SIOW('t',1,struct tas_biquad_ctrl_t)
#define TAS_READ_EQ_FILTER_COUNT _SIOR('t',2,int)
#define TAS_READ_EQ_CHANNEL_COUNT _SIOR('t',3,int)
#define TAS_READ_DRCE _SIOR('t',4,struct tas_drce_ctrl_t)
#define TAS_WRITE_DRCE _SIOW('t',4,struct tas_drce_ctrl_t)
#define TAS_READ_DRCE_CAPS _SIOR('t',5,int)
#define TAS_READ_DRCE_MIN _SIOR('t',6,int)
#define TAS_READ_DRCE_MAX _SIOR('t',7,int)
#endif
sound/oss/dmasound/trans_16.c
0 → 100644
View file @
3f250722
/*
* linux/drivers/sound/dmasound/trans_16.c
*
* 16 bit translation routines. Only used by Power mac at present.
*
* See linux/drivers/sound/dmasound/dmasound_core.c for copyright and
* history prior to 08/02/2001.
*
* 08/02/2001 Iain Sandoe
* split from dmasound_awacs.c
*/
#include <linux/soundcard.h>
#include <asm/uaccess.h>
#include "dmasound.h"
static
short
dmasound_alaw2dma16
[]
;
static
short
dmasound_ulaw2dma16
[]
;
static
ssize_t
pmac_ct_law
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
);
static
ssize_t
pmac_ct_s8
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
);
static
ssize_t
pmac_ct_u8
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
);
static
ssize_t
pmac_ct_s16
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
);
static
ssize_t
pmac_ct_u16
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
);
static
ssize_t
pmac_ctx_law
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
);
static
ssize_t
pmac_ctx_s8
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
);
static
ssize_t
pmac_ctx_u8
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
);
static
ssize_t
pmac_ctx_s16
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
);
static
ssize_t
pmac_ctx_u16
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
);
static
ssize_t
pmac_ct_s16_read
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
);
static
ssize_t
pmac_ct_u16_read
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
);
/*** Translations ************************************************************/
extern
int
expand_bal
;
/* Balance factor for expanding (not volume!) */
static
int
expand_data
;
/* Data for expanding */
static
ssize_t
pmac_ct_law
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
short
*
table
=
dmasound
.
soft
.
format
==
AFMT_MU_LAW
?
dmasound_ulaw2dma16
:
dmasound_alaw2dma16
;
ssize_t
count
,
used
;
short
*
p
=
(
short
*
)
&
frame
[
*
frameUsed
];
int
val
,
stereo
=
dmasound
.
soft
.
stereo
;
frameLeft
>>=
2
;
if
(
stereo
)
userCount
>>=
1
;
used
=
count
=
min_t
(
unsigned
long
,
userCount
,
frameLeft
);
while
(
count
>
0
)
{
u_char
data
;
if
(
get_user
(
data
,
userPtr
++
))
return
-
EFAULT
;
val
=
table
[
data
];
*
p
++
=
val
;
if
(
stereo
)
{
if
(
get_user
(
data
,
userPtr
++
))
return
-
EFAULT
;
val
=
table
[
data
];
}
*
p
++
=
val
;
count
--
;
}
*
frameUsed
+=
used
*
4
;
return
stereo
?
used
*
2
:
used
;
}
static
ssize_t
pmac_ct_s8
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
ssize_t
count
,
used
;
short
*
p
=
(
short
*
)
&
frame
[
*
frameUsed
];
int
val
,
stereo
=
dmasound
.
soft
.
stereo
;
frameLeft
>>=
2
;
if
(
stereo
)
userCount
>>=
1
;
used
=
count
=
min_t
(
unsigned
long
,
userCount
,
frameLeft
);
while
(
count
>
0
)
{
u_char
data
;
if
(
get_user
(
data
,
userPtr
++
))
return
-
EFAULT
;
val
=
data
<<
8
;
*
p
++
=
val
;
if
(
stereo
)
{
if
(
get_user
(
data
,
userPtr
++
))
return
-
EFAULT
;
val
=
data
<<
8
;
}
*
p
++
=
val
;
count
--
;
}
*
frameUsed
+=
used
*
4
;
return
stereo
?
used
*
2
:
used
;
}
static
ssize_t
pmac_ct_u8
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
ssize_t
count
,
used
;
short
*
p
=
(
short
*
)
&
frame
[
*
frameUsed
];
int
val
,
stereo
=
dmasound
.
soft
.
stereo
;
frameLeft
>>=
2
;
if
(
stereo
)
userCount
>>=
1
;
used
=
count
=
min_t
(
unsigned
long
,
userCount
,
frameLeft
);
while
(
count
>
0
)
{
u_char
data
;
if
(
get_user
(
data
,
userPtr
++
))
return
-
EFAULT
;
val
=
(
data
^
0x80
)
<<
8
;
*
p
++
=
val
;
if
(
stereo
)
{
if
(
get_user
(
data
,
userPtr
++
))
return
-
EFAULT
;
val
=
(
data
^
0x80
)
<<
8
;
}
*
p
++
=
val
;
count
--
;
}
*
frameUsed
+=
used
*
4
;
return
stereo
?
used
*
2
:
used
;
}
static
ssize_t
pmac_ct_s16
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
ssize_t
count
,
used
;
int
stereo
=
dmasound
.
soft
.
stereo
;
short
*
fp
=
(
short
*
)
&
frame
[
*
frameUsed
];
frameLeft
>>=
2
;
userCount
>>=
(
stereo
?
2
:
1
);
used
=
count
=
min_t
(
unsigned
long
,
userCount
,
frameLeft
);
if
(
!
stereo
)
{
short
*
up
=
(
short
*
)
userPtr
;
while
(
count
>
0
)
{
short
data
;
if
(
get_user
(
data
,
up
++
))
return
-
EFAULT
;
*
fp
++
=
data
;
*
fp
++
=
data
;
count
--
;
}
}
else
{
if
(
copy_from_user
(
fp
,
userPtr
,
count
*
4
))
return
-
EFAULT
;
}
*
frameUsed
+=
used
*
4
;
return
stereo
?
used
*
4
:
used
*
2
;
}
static
ssize_t
pmac_ct_u16
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
ssize_t
count
,
used
;
int
mask
=
(
dmasound
.
soft
.
format
==
AFMT_U16_LE
?
0x0080
:
0x8000
);
int
stereo
=
dmasound
.
soft
.
stereo
;
short
*
fp
=
(
short
*
)
&
frame
[
*
frameUsed
];
short
*
up
=
(
short
*
)
userPtr
;
frameLeft
>>=
2
;
userCount
>>=
(
stereo
?
2
:
1
);
used
=
count
=
min_t
(
unsigned
long
,
userCount
,
frameLeft
);
while
(
count
>
0
)
{
short
data
;
if
(
get_user
(
data
,
up
++
))
return
-
EFAULT
;
data
^=
mask
;
*
fp
++
=
data
;
if
(
stereo
)
{
if
(
get_user
(
data
,
up
++
))
return
-
EFAULT
;
data
^=
mask
;
}
*
fp
++
=
data
;
count
--
;
}
*
frameUsed
+=
used
*
4
;
return
stereo
?
used
*
4
:
used
*
2
;
}
static
ssize_t
pmac_ctx_law
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
unsigned
short
*
table
=
(
unsigned
short
*
)
(
dmasound
.
soft
.
format
==
AFMT_MU_LAW
?
dmasound_ulaw2dma16
:
dmasound_alaw2dma16
);
unsigned
int
data
=
expand_data
;
unsigned
int
*
p
=
(
unsigned
int
*
)
&
frame
[
*
frameUsed
];
int
bal
=
expand_bal
;
int
hSpeed
=
dmasound
.
hard
.
speed
,
sSpeed
=
dmasound
.
soft
.
speed
;
int
utotal
,
ftotal
;
int
stereo
=
dmasound
.
soft
.
stereo
;
frameLeft
>>=
2
;
if
(
stereo
)
userCount
>>=
1
;
ftotal
=
frameLeft
;
utotal
=
userCount
;
while
(
frameLeft
)
{
u_char
c
;
if
(
bal
<
0
)
{
if
(
userCount
==
0
)
break
;
if
(
get_user
(
c
,
userPtr
++
))
return
-
EFAULT
;
data
=
table
[
c
];
if
(
stereo
)
{
if
(
get_user
(
c
,
userPtr
++
))
return
-
EFAULT
;
data
=
(
data
<<
16
)
+
table
[
c
];
}
else
data
=
(
data
<<
16
)
+
data
;
userCount
--
;
bal
+=
hSpeed
;
}
*
p
++
=
data
;
frameLeft
--
;
bal
-=
sSpeed
;
}
expand_bal
=
bal
;
expand_data
=
data
;
*
frameUsed
+=
(
ftotal
-
frameLeft
)
*
4
;
utotal
-=
userCount
;
return
stereo
?
utotal
*
2
:
utotal
;
}
static
ssize_t
pmac_ctx_s8
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
unsigned
int
*
p
=
(
unsigned
int
*
)
&
frame
[
*
frameUsed
];
unsigned
int
data
=
expand_data
;
int
bal
=
expand_bal
;
int
hSpeed
=
dmasound
.
hard
.
speed
,
sSpeed
=
dmasound
.
soft
.
speed
;
int
stereo
=
dmasound
.
soft
.
stereo
;
int
utotal
,
ftotal
;
frameLeft
>>=
2
;
if
(
stereo
)
userCount
>>=
1
;
ftotal
=
frameLeft
;
utotal
=
userCount
;
while
(
frameLeft
)
{
u_char
c
;
if
(
bal
<
0
)
{
if
(
userCount
==
0
)
break
;
if
(
get_user
(
c
,
userPtr
++
))
return
-
EFAULT
;
data
=
c
<<
8
;
if
(
stereo
)
{
if
(
get_user
(
c
,
userPtr
++
))
return
-
EFAULT
;
data
=
(
data
<<
16
)
+
(
c
<<
8
);
}
else
data
=
(
data
<<
16
)
+
data
;
userCount
--
;
bal
+=
hSpeed
;
}
*
p
++
=
data
;
frameLeft
--
;
bal
-=
sSpeed
;
}
expand_bal
=
bal
;
expand_data
=
data
;
*
frameUsed
+=
(
ftotal
-
frameLeft
)
*
4
;
utotal
-=
userCount
;
return
stereo
?
utotal
*
2
:
utotal
;
}
static
ssize_t
pmac_ctx_u8
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
unsigned
int
*
p
=
(
unsigned
int
*
)
&
frame
[
*
frameUsed
];
unsigned
int
data
=
expand_data
;
int
bal
=
expand_bal
;
int
hSpeed
=
dmasound
.
hard
.
speed
,
sSpeed
=
dmasound
.
soft
.
speed
;
int
stereo
=
dmasound
.
soft
.
stereo
;
int
utotal
,
ftotal
;
frameLeft
>>=
2
;
if
(
stereo
)
userCount
>>=
1
;
ftotal
=
frameLeft
;
utotal
=
userCount
;
while
(
frameLeft
)
{
u_char
c
;
if
(
bal
<
0
)
{
if
(
userCount
==
0
)
break
;
if
(
get_user
(
c
,
userPtr
++
))
return
-
EFAULT
;
data
=
(
c
^
0x80
)
<<
8
;
if
(
stereo
)
{
if
(
get_user
(
c
,
userPtr
++
))
return
-
EFAULT
;
data
=
(
data
<<
16
)
+
((
c
^
0x80
)
<<
8
);
}
else
data
=
(
data
<<
16
)
+
data
;
userCount
--
;
bal
+=
hSpeed
;
}
*
p
++
=
data
;
frameLeft
--
;
bal
-=
sSpeed
;
}
expand_bal
=
bal
;
expand_data
=
data
;
*
frameUsed
+=
(
ftotal
-
frameLeft
)
*
4
;
utotal
-=
userCount
;
return
stereo
?
utotal
*
2
:
utotal
;
}
static
ssize_t
pmac_ctx_s16
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
unsigned
int
*
p
=
(
unsigned
int
*
)
&
frame
[
*
frameUsed
];
unsigned
int
data
=
expand_data
;
unsigned
short
*
up
=
(
unsigned
short
*
)
userPtr
;
int
bal
=
expand_bal
;
int
hSpeed
=
dmasound
.
hard
.
speed
,
sSpeed
=
dmasound
.
soft
.
speed
;
int
stereo
=
dmasound
.
soft
.
stereo
;
int
utotal
,
ftotal
;
frameLeft
>>=
2
;
userCount
>>=
(
stereo
?
2
:
1
);
ftotal
=
frameLeft
;
utotal
=
userCount
;
while
(
frameLeft
)
{
unsigned
short
c
;
if
(
bal
<
0
)
{
if
(
userCount
==
0
)
break
;
if
(
get_user
(
data
,
up
++
))
return
-
EFAULT
;
if
(
stereo
)
{
if
(
get_user
(
c
,
up
++
))
return
-
EFAULT
;
data
=
(
data
<<
16
)
+
c
;
}
else
data
=
(
data
<<
16
)
+
data
;
userCount
--
;
bal
+=
hSpeed
;
}
*
p
++
=
data
;
frameLeft
--
;
bal
-=
sSpeed
;
}
expand_bal
=
bal
;
expand_data
=
data
;
*
frameUsed
+=
(
ftotal
-
frameLeft
)
*
4
;
utotal
-=
userCount
;
return
stereo
?
utotal
*
4
:
utotal
*
2
;
}
static
ssize_t
pmac_ctx_u16
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
int
mask
=
(
dmasound
.
soft
.
format
==
AFMT_U16_LE
?
0x0080
:
0x8000
);
unsigned
int
*
p
=
(
unsigned
int
*
)
&
frame
[
*
frameUsed
];
unsigned
int
data
=
expand_data
;
unsigned
short
*
up
=
(
unsigned
short
*
)
userPtr
;
int
bal
=
expand_bal
;
int
hSpeed
=
dmasound
.
hard
.
speed
,
sSpeed
=
dmasound
.
soft
.
speed
;
int
stereo
=
dmasound
.
soft
.
stereo
;
int
utotal
,
ftotal
;
frameLeft
>>=
2
;
userCount
>>=
(
stereo
?
2
:
1
);
ftotal
=
frameLeft
;
utotal
=
userCount
;
while
(
frameLeft
)
{
unsigned
short
c
;
if
(
bal
<
0
)
{
if
(
userCount
==
0
)
break
;
if
(
get_user
(
data
,
up
++
))
return
-
EFAULT
;
data
^=
mask
;
if
(
stereo
)
{
if
(
get_user
(
c
,
up
++
))
return
-
EFAULT
;
data
=
(
data
<<
16
)
+
(
c
^
mask
);
}
else
data
=
(
data
<<
16
)
+
data
;
userCount
--
;
bal
+=
hSpeed
;
}
*
p
++
=
data
;
frameLeft
--
;
bal
-=
sSpeed
;
}
expand_bal
=
bal
;
expand_data
=
data
;
*
frameUsed
+=
(
ftotal
-
frameLeft
)
*
4
;
utotal
-=
userCount
;
return
stereo
?
utotal
*
4
:
utotal
*
2
;
}
/* data in routines... */
static
ssize_t
pmac_ct_s8_read
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
ssize_t
count
,
used
;
short
*
p
=
(
short
*
)
&
frame
[
*
frameUsed
];
int
val
,
stereo
=
dmasound
.
soft
.
stereo
;
frameLeft
>>=
2
;
if
(
stereo
)
userCount
>>=
1
;
used
=
count
=
min_t
(
unsigned
long
,
userCount
,
frameLeft
);
while
(
count
>
0
)
{
u_char
data
;
val
=
*
p
++
;
data
=
val
>>
8
;
if
(
put_user
(
data
,
(
u_char
*
)
userPtr
++
))
return
-
EFAULT
;
if
(
stereo
)
{
val
=
*
p
;
data
=
val
>>
8
;
if
(
put_user
(
data
,
(
u_char
*
)
userPtr
++
))
return
-
EFAULT
;
}
p
++
;
count
--
;
}
*
frameUsed
+=
used
*
4
;
return
stereo
?
used
*
2
:
used
;
}
static
ssize_t
pmac_ct_u8_read
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
ssize_t
count
,
used
;
short
*
p
=
(
short
*
)
&
frame
[
*
frameUsed
];
int
val
,
stereo
=
dmasound
.
soft
.
stereo
;
frameLeft
>>=
2
;
if
(
stereo
)
userCount
>>=
1
;
used
=
count
=
min_t
(
unsigned
long
,
userCount
,
frameLeft
);
while
(
count
>
0
)
{
u_char
data
;
val
=
*
p
++
;
data
=
(
val
>>
8
)
^
0x80
;
if
(
put_user
(
data
,
(
u_char
*
)
userPtr
++
))
return
-
EFAULT
;
if
(
stereo
)
{
val
=
*
p
;
data
=
(
val
>>
8
)
^
0x80
;
if
(
put_user
(
data
,
(
u_char
*
)
userPtr
++
))
return
-
EFAULT
;
}
p
++
;
count
--
;
}
*
frameUsed
+=
used
*
4
;
return
stereo
?
used
*
2
:
used
;
}
static
ssize_t
pmac_ct_s16_read
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
ssize_t
count
,
used
;
int
stereo
=
dmasound
.
soft
.
stereo
;
short
*
fp
=
(
short
*
)
&
frame
[
*
frameUsed
];
frameLeft
>>=
2
;
userCount
>>=
(
stereo
?
2
:
1
);
used
=
count
=
min_t
(
unsigned
long
,
userCount
,
frameLeft
);
if
(
!
stereo
)
{
short
*
up
=
(
short
*
)
userPtr
;
while
(
count
>
0
)
{
short
data
;
data
=
*
fp
;
if
(
put_user
(
data
,
up
++
))
return
-
EFAULT
;
fp
+=
2
;
count
--
;
}
}
else
{
if
(
copy_to_user
((
u_char
*
)
userPtr
,
fp
,
count
*
4
))
return
-
EFAULT
;
}
*
frameUsed
+=
used
*
4
;
return
stereo
?
used
*
4
:
used
*
2
;
}
static
ssize_t
pmac_ct_u16_read
(
const
u_char
*
userPtr
,
size_t
userCount
,
u_char
frame
[],
ssize_t
*
frameUsed
,
ssize_t
frameLeft
)
{
ssize_t
count
,
used
;
int
mask
=
(
dmasound
.
soft
.
format
==
AFMT_U16_LE
?
0x0080
:
0x8000
);
int
stereo
=
dmasound
.
soft
.
stereo
;
short
*
fp
=
(
short
*
)
&
frame
[
*
frameUsed
];
short
*
up
=
(
short
*
)
userPtr
;
frameLeft
>>=
2
;
userCount
>>=
(
stereo
?
2
:
1
);
used
=
count
=
min_t
(
unsigned
long
,
userCount
,
frameLeft
);
while
(
count
>
0
)
{
int
data
;
data
=
*
fp
++
;
data
^=
mask
;
if
(
put_user
(
data
,
up
++
))
return
-
EFAULT
;
if
(
stereo
)
{
data
=
*
fp
;
data
^=
mask
;
if
(
put_user
(
data
,
up
++
))
return
-
EFAULT
;
}
fp
++
;
count
--
;
}
*
frameUsed
+=
used
*
4
;
return
stereo
?
used
*
4
:
used
*
2
;
}
TRANS
transAwacsNormal
=
{
ct_ulaw:
pmac_ct_law
,
ct_alaw:
pmac_ct_law
,
ct_s8:
pmac_ct_s8
,
ct_u8:
pmac_ct_u8
,
ct_s16be:
pmac_ct_s16
,
ct_u16be:
pmac_ct_u16
,
ct_s16le:
pmac_ct_s16
,
ct_u16le:
pmac_ct_u16
,
};
TRANS
transAwacsExpand
=
{
ct_ulaw:
pmac_ctx_law
,
ct_alaw:
pmac_ctx_law
,
ct_s8:
pmac_ctx_s8
,
ct_u8:
pmac_ctx_u8
,
ct_s16be:
pmac_ctx_s16
,
ct_u16be:
pmac_ctx_u16
,
ct_s16le:
pmac_ctx_s16
,
ct_u16le:
pmac_ctx_u16
,
};
TRANS
transAwacsNormalRead
=
{
ct_s8:
pmac_ct_s8_read
,
ct_u8:
pmac_ct_u8_read
,
ct_s16be:
pmac_ct_s16_read
,
ct_u16be:
pmac_ct_u16_read
,
ct_s16le:
pmac_ct_s16_read
,
ct_u16le:
pmac_ct_u16_read
,
};
/* translation tables */
/* 16 bit mu-law */
static
short
dmasound_ulaw2dma16
[]
=
{
-
32124
,
-
31100
,
-
30076
,
-
29052
,
-
28028
,
-
27004
,
-
25980
,
-
24956
,
-
23932
,
-
22908
,
-
21884
,
-
20860
,
-
19836
,
-
18812
,
-
17788
,
-
16764
,
-
15996
,
-
15484
,
-
14972
,
-
14460
,
-
13948
,
-
13436
,
-
12924
,
-
12412
,
-
11900
,
-
11388
,
-
10876
,
-
10364
,
-
9852
,
-
9340
,
-
8828
,
-
8316
,
-
7932
,
-
7676
,
-
7420
,
-
7164
,
-
6908
,
-
6652
,
-
6396
,
-
6140
,
-
5884
,
-
5628
,
-
5372
,
-
5116
,
-
4860
,
-
4604
,
-
4348
,
-
4092
,
-
3900
,
-
3772
,
-
3644
,
-
3516
,
-
3388
,
-
3260
,
-
3132
,
-
3004
,
-
2876
,
-
2748
,
-
2620
,
-
2492
,
-
2364
,
-
2236
,
-
2108
,
-
1980
,
-
1884
,
-
1820
,
-
1756
,
-
1692
,
-
1628
,
-
1564
,
-
1500
,
-
1436
,
-
1372
,
-
1308
,
-
1244
,
-
1180
,
-
1116
,
-
1052
,
-
988
,
-
924
,
-
876
,
-
844
,
-
812
,
-
780
,
-
748
,
-
716
,
-
684
,
-
652
,
-
620
,
-
588
,
-
556
,
-
524
,
-
492
,
-
460
,
-
428
,
-
396
,
-
372
,
-
356
,
-
340
,
-
324
,
-
308
,
-
292
,
-
276
,
-
260
,
-
244
,
-
228
,
-
212
,
-
196
,
-
180
,
-
164
,
-
148
,
-
132
,
-
120
,
-
112
,
-
104
,
-
96
,
-
88
,
-
80
,
-
72
,
-
64
,
-
56
,
-
48
,
-
40
,
-
32
,
-
24
,
-
16
,
-
8
,
0
,
32124
,
31100
,
30076
,
29052
,
28028
,
27004
,
25980
,
24956
,
23932
,
22908
,
21884
,
20860
,
19836
,
18812
,
17788
,
16764
,
15996
,
15484
,
14972
,
14460
,
13948
,
13436
,
12924
,
12412
,
11900
,
11388
,
10876
,
10364
,
9852
,
9340
,
8828
,
8316
,
7932
,
7676
,
7420
,
7164
,
6908
,
6652
,
6396
,
6140
,
5884
,
5628
,
5372
,
5116
,
4860
,
4604
,
4348
,
4092
,
3900
,
3772
,
3644
,
3516
,
3388
,
3260
,
3132
,
3004
,
2876
,
2748
,
2620
,
2492
,
2364
,
2236
,
2108
,
1980
,
1884
,
1820
,
1756
,
1692
,
1628
,
1564
,
1500
,
1436
,
1372
,
1308
,
1244
,
1180
,
1116
,
1052
,
988
,
924
,
876
,
844
,
812
,
780
,
748
,
716
,
684
,
652
,
620
,
588
,
556
,
524
,
492
,
460
,
428
,
396
,
372
,
356
,
340
,
324
,
308
,
292
,
276
,
260
,
244
,
228
,
212
,
196
,
180
,
164
,
148
,
132
,
120
,
112
,
104
,
96
,
88
,
80
,
72
,
64
,
56
,
48
,
40
,
32
,
24
,
16
,
8
,
0
,
};
/* 16 bit A-law */
static
short
dmasound_alaw2dma16
[]
=
{
-
5504
,
-
5248
,
-
6016
,
-
5760
,
-
4480
,
-
4224
,
-
4992
,
-
4736
,
-
7552
,
-
7296
,
-
8064
,
-
7808
,
-
6528
,
-
6272
,
-
7040
,
-
6784
,
-
2752
,
-
2624
,
-
3008
,
-
2880
,
-
2240
,
-
2112
,
-
2496
,
-
2368
,
-
3776
,
-
3648
,
-
4032
,
-
3904
,
-
3264
,
-
3136
,
-
3520
,
-
3392
,
-
22016
,
-
20992
,
-
24064
,
-
23040
,
-
17920
,
-
16896
,
-
19968
,
-
18944
,
-
30208
,
-
29184
,
-
32256
,
-
31232
,
-
26112
,
-
25088
,
-
28160
,
-
27136
,
-
11008
,
-
10496
,
-
12032
,
-
11520
,
-
8960
,
-
8448
,
-
9984
,
-
9472
,
-
15104
,
-
14592
,
-
16128
,
-
15616
,
-
13056
,
-
12544
,
-
14080
,
-
13568
,
-
344
,
-
328
,
-
376
,
-
360
,
-
280
,
-
264
,
-
312
,
-
296
,
-
472
,
-
456
,
-
504
,
-
488
,
-
408
,
-
392
,
-
440
,
-
424
,
-
88
,
-
72
,
-
120
,
-
104
,
-
24
,
-
8
,
-
56
,
-
40
,
-
216
,
-
200
,
-
248
,
-
232
,
-
152
,
-
136
,
-
184
,
-
168
,
-
1376
,
-
1312
,
-
1504
,
-
1440
,
-
1120
,
-
1056
,
-
1248
,
-
1184
,
-
1888
,
-
1824
,
-
2016
,
-
1952
,
-
1632
,
-
1568
,
-
1760
,
-
1696
,
-
688
,
-
656
,
-
752
,
-
720
,
-
560
,
-
528
,
-
624
,
-
592
,
-
944
,
-
912
,
-
1008
,
-
976
,
-
816
,
-
784
,
-
880
,
-
848
,
5504
,
5248
,
6016
,
5760
,
4480
,
4224
,
4992
,
4736
,
7552
,
7296
,
8064
,
7808
,
6528
,
6272
,
7040
,
6784
,
2752
,
2624
,
3008
,
2880
,
2240
,
2112
,
2496
,
2368
,
3776
,
3648
,
4032
,
3904
,
3264
,
3136
,
3520
,
3392
,
22016
,
20992
,
24064
,
23040
,
17920
,
16896
,
19968
,
18944
,
30208
,
29184
,
32256
,
31232
,
26112
,
25088
,
28160
,
27136
,
11008
,
10496
,
12032
,
11520
,
8960
,
8448
,
9984
,
9472
,
15104
,
14592
,
16128
,
15616
,
13056
,
12544
,
14080
,
13568
,
344
,
328
,
376
,
360
,
280
,
264
,
312
,
296
,
472
,
456
,
504
,
488
,
408
,
392
,
440
,
424
,
88
,
72
,
120
,
104
,
24
,
8
,
56
,
40
,
216
,
200
,
248
,
232
,
152
,
136
,
184
,
168
,
1376
,
1312
,
1504
,
1440
,
1120
,
1056
,
1248
,
1184
,
1888
,
1824
,
2016
,
1952
,
1632
,
1568
,
1760
,
1696
,
688
,
656
,
752
,
720
,
560
,
528
,
624
,
592
,
944
,
912
,
1008
,
976
,
816
,
784
,
880
,
848
,
};
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