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|
/******************************************************************************
$Id$
$Log$
Revision 1.16 2003/02/12 13:59:14 matteo
mer feb 12 14:56:57 CET 2003
Revision 1.1.1.1 2003/02/12 13:59:14 matteo
mer feb 12 14:56:57 CET 2003
Revision 1.1 1999/12/01 05:25:58 markster
Start on the Internet Phone Jack channel
Revision 3.0 1999/11/18 22:21:43 root
Added isapnp kernel module support.
Revision 2.5 1999/11/09 15:42:06 root
Fixed convert code for older PhoneJACK cards.
Fixed G723.1 5.3 record bug.
Revision 2.4 1999/11/02 20:17:20 root
Fixed hookswitch bug for PhoneJACK
Added filter exception bit code.
Revision 2.3 1999/11/01 23:22:02 root
Added tone cadence generation.
Fixed hookswitch detection when PORT != POTS
Fixed ringing when PORT != POTS
Revision 2.2 1999/10/13 05:33:31 root
Added G.729A/B codec.
Fixed G.728 codec.
Revision 2.1 1999/10/11 19:29:46 root
Enhanced PSTN ring detection
Added Caller ID recognition
Added wink detection
Revision 2.0 1999/09/18 03:29:15 root
Added PSTN Support
Enhanced mixer functions
Fixed LineJACK and PhoneJACK Lite not reporting second IO range in p/proc/ioports
Added DSP Volume controls
Revision 1.23 1999/08/16 16:37:27 root
Added drybuffer ioctls
Added card type ioctl
Revision 1.22 1999/08/14 05:15:58 root
Fixed select timeout problems. Was using the wrong wait queues.
Revision 1.21 1999/08/04 22:53:43 root
Added levels to AEC
Revision 1.20 1999/07/28 20:32:23 root
Added non-blocking rings
Added ring cadence
Revision 1.19 1999/07/14 21:08:10 root
fixed rcsid
Revision 1.18 1999/07/14 21:03:33 root
added rcsid
Revision 1.17 1999/07/12 20:20:00 root
Continuing work on 20ms and 10ms linear modes.
Revision 1.16 1999/07/09 19:13:50 root
Added IXJCTL_RATE to set the rate the DSP is polled.
Added 20ms and 10ms linear modes for LineJack and PhoneJack Lite.
Revision 1.15 1999/07/08 02:21:20 root
Async Notification on hookswitch changes.
Added IXJ_EXCEPTION bitfield structure for select exception sets
Added IXJCTL_DTMFASCII ioctl
Revision 1.14 1999/07/06 23:20:52 root
*** empty log message ***
Revision 1.14 1999/07/06 21:48:38 root
Fixed lockups in linear modes during write.
Revision 1.13 1999/06/28 18:30:44 root
Added buffer depth commands to reduce latency in compressed modes.
Revision 1.12 1999/06/25 21:03:18 root
Close device properly.
Started Mixer code for LineJack
Revision 1.11 1999/06/24 21:51:21 root
bug fixes
Revision 1.10 1999/06/17 18:23:16 root
Added tone generation.
Fixed LineJack hookswitch again.
Revision 1.9 1999/06/09 14:18:15 root
Fixed duplicate IOCTL numbers
Revision 1.8 1999/06/09 14:13:29 root
Added DTMF Recognition with Async Notification
Revision 1.7 1999/06/03 16:50:43 root
Added IXJCTL_HZ to allow changing the HZ value the driver uses.
Revision 1.6 1999/05/31 17:56:07 root
All linear modes now work properly.
Revision 1.5 1999/05/25 14:05:44 root
Added multiple codec selections.
Revision 1.4 1999/04/28 03:43:52 root
More work on echo cancellation
Revision 1.3 1999/04/27 17:17:12 root
added AEC
Revision 1.2 1999/04/22 11:43:52 root
Fixed stability problems
Revision 1.1 1999/03/25 21:52:42 root
Initial revision
*
* IOCTL's used for the Quicknet Cards
*
* If you use the IXJCTL_TESTRAM command, the card must be power cycled to
* reset the SRAM values before futher use.
*
******************************************************************************/
static char ixjuser_h_rcsid[] = "$Id$";
#define IXJCTL_DSP_RESET _IO ('q', 0x80)
#define IXJCTL_RING _IO ('q', 0x82)
#define IXJCTL_HOOKSTATE _IO ('q', 0x83)
#define IXJCTL_MAXRINGS _IOW ('q', 0x84, char)
#define IXJCTL_RING_CADENCE _IOW ('q', 0x85, short)
#define IXJCTL_RING_START _IO ('q', 0x86)
#define IXJCTL_RING_STOP _IO ('q', 0x87)
#define IXJCTL_CARDTYPE _IOR ('q', 0x88, int)
#define IXJCTL_DSP_TYPE _IOR ('q', 0x8C, int)
#define IXJCTL_DSP_VERSION _IOR ('q', 0x8D, int)
#define IXJCTL_DSP_IDLE _IO ('q', 0x8E)
#define IXJCTL_TESTRAM _IO ('q', 0x8F)
/******************************************************************************
*
* This group of IOCTLs deal with the record settings of the DSP
*
* The IXJCTL_REC_DEPTH command sets the internal buffer depth of the DSP.
* Setting a lower depth reduces latency, but increases the demand of the
* application to service the driver without frame loss. The DSP has 480
* bytes of physical buffer memory for the record channel so the true
* maximum limit is determined by how many frames will fit in the buffer.
*
* 1 uncompressed (480 byte) 16-bit linear frame.
* 2 uncompressed (240 byte) 8-bit A-law/mu-law frames.
* 15 TrueSpeech 8.5 frames.
* 20 TrueSpeech 6.3,5.3,4.8 or 4.1 frames.
*
* The default in the driver is currently set to 2 frames.
*
* The IXJCTL_REC_VOLUME and IXJCTL_PLAY_VOLUME commands both use a Q8
* number as a parameter, 0x100 scales the signal by 1.0, 0x200 scales the
* signal by 2.0, 0x80 scales the signal by 0.5. No protection is given
* against over-scaling, if the multiplication factor times the input
* signal exceeds 16 bits, overflow distortion will occur. The default
* setting is 0x100 (1.0).
*
* The IXJCTL_REC_LEVEL returns the average signal level (not r.m.s.) on
* the most recently recorded frame as a 16 bit value.
******************************************************************************/
#define IXJCTL_REC_CODEC _IOW ('q', 0x90, int)
#define IXJCTL_REC_START _IO ('q', 0x92)
#define IXJCTL_REC_STOP _IO ('q', 0x93)
#define IXJCTL_REC_DEPTH _IOW ('q', 0x94, int)
#define IXJCTL_FRAME _IOW ('q', 0x95, int)
#define IXJCTL_REC_VOLUME _IOW ('q', 0x96, int)
#define IXJCTL_REC_LEVEL _IO ('q', 0x97)
typedef enum{
f300_640 = 4, f300_500, f1100, f350, f400, f480, f440, f620, f20_50,
f133_200, f300, f300_420, f330, f300_425, f330_440, f340, f350_400,
f350_440, f350_450, f360, f380_420, f392, f400_425, f400_440, f400_450,
f420, f425, f425_450, f425_475, f435, f440_450, f440_480, f445, f450,
f452, f475, f480_620, f494, f500, f520, f523, f525, f540_660, f587,
f590, f600, f660, f700, f740, f750, f750_1450, f770, f800, f816, f850,
f857_1645, f900, f900_1300, f935_1215, f941_1477, f942, f950, f950_1400,
f975, f1000, f1020, f1050, f1100_1750, f1140, f1200, f1209, f1330, f1336,
lf1366, f1380, f1400, f1477, f1600, f1633_1638, f1800, f1860
}IXJ_FILTER_FREQ;
typedef struct
{
unsigned int filter;
IXJ_FILTER_FREQ freq;
char enable;
}IXJ_FILTER;
#define IXJCTL_SET_FILTER _IOW ('q', 0x98, IXJ_FILTER *)
#define IXJCTL_GET_FILTER_HIST _IOW ('q', 0x9B, int)
/******************************************************************************
*
* This IOCTL allows you to reassign values in the tone index table. The
* tone table has 32 entries (0 - 31), but the driver only allows entries
* 13 - 27 to be modified, entry 0 is reserved for silence and 1 - 12 are
* the standard DTMF digits and 28 - 31 are the DTMF tones for A, B, C & D.
* The positions used internally for Call Progress Tones are as follows:
* Dial Tone - 25
* Ring Back - 26
* Busy Signal - 27
*
* The freq values are calculated as:
* freq = cos(2 * PI * frequency / 8000)
*
* The most commonly needed values are already calculated and listed in the
* enum IXJ_TONE_FREQ. Each tone index can have two frequencies with
* different gains, if you are only using a single frequency set the unused
* one to 0.
*
* The gain values range from 0 to 15 indicating +6dB to -24dB in 2dB
* increments.
*
******************************************************************************/
typedef enum
{
hz20 = 0x7ffa,
hz50 = 0x7fe5,
hz133 = 0x7f4c,
hz200 = 0x7e6b,
hz261 = 0x7d50, /* .63 C1 */
hz277 = 0x7cfa, /* .18 CS1 */
hz293 = 0x7c9f, /* .66 D1 */
hz300 = 0x7c75,
hz311 = 0x7c32, /* .13 DS1 */
hz329 = 0x7bbf, /* .63 E1 */
hz330 = 0x7bb8,
hz340 = 0x7b75,
hz349 = 0x7b37, /* .23 F1 */
hz350 = 0x7b30,
hz360 = 0x7ae9,
hz369 = 0x7aa8, /* .99 FS1 */
hz380 = 0x7a56,
hz392 = 0x79fa, /* .00 G1 */
hz400 = 0x79bb,
hz415 = 0x7941, /* .30 GS1 */
hz420 = 0x7918,
hz425 = 0x78ee,
hz435 = 0x7899,
hz440 = 0x786d, /* .00 A1 */
hz445 = 0x7842,
hz450 = 0x7815,
hz452 = 0x7803,
hz466 = 0x7784, /* .16 AS1 */
hz475 = 0x7731,
hz480 = 0x7701,
hz493 = 0x7685, /* .88 B1 */
hz494 = 0x767b,
hz500 = 0x7640,
hz520 = 0x7578,
hz523 = 0x7559, /* .25 C2 */
hz525 = 0x7544,
hz540 = 0x74a7,
hz554 = 0x7411, /* .37 CS2 */
hz587 = 0x72a1, /* .33 D2 */
hz590 = 0x727f,
hz600 = 0x720b,
hz620 = 0x711e,
hz622 = 0x7106, /* .25 DS2 */
hz659 = 0x6f3b, /* .26 E2 */
hz660 = 0x6f2e,
hz698 = 0x6d3d, /* .46 F2 */
hz700 = 0x6d22,
hz739 = 0x6b09, /* .99 FS2 */
hz740 = 0x6afa,
hz750 = 0x6a6c,
hz770 = 0x694b,
hz783 = 0x688b, /* .99 G2 */
hz800 = 0x678d,
hz816 = 0x6698,
hz830 = 0x65bf, /* .61 GS2 */
hz850 = 0x6484,
hz857 = 0x6414,
hz880 = 0x629f, /* .00 A2 */
hz900 = 0x6154,
hz932 = 0x5f35, /* .33 AS2 */
hz935 = 0x5f01,
hz941 = 0x5e9a,
hz942 = 0x5e88,
hz950 = 0x5dfd,
hz975 = 0x5c44,
hz1000 = 0x5a81,
hz1020 = 0x5912,
hz1050 = 0x56e2,
hz1100 = 0x5320,
hz1140 = 0x5007,
hz1200 = 0x4b3b,
hz1209 = 0x4a80,
hz1215 = 0x4a02,
hz1250 = 0x471c,
hz1300 = 0x42e0,
hz1330 = 0x4049,
hz1336 = 0x3fc4,
hz1366 = 0x3d22,
hz1380 = 0x3be4,
hz1400 = 0x3a1b,
hz1450 = 0x3596,
hz1477 = 0x331c,
hz1500 = 0x30fb,
hz1600 = 0x278d,
hz1633 = 0x2462,
hz1638 = 0x23e7,
hz1645 = 0x233a,
hz1750 = 0x18f8,
hz1800 = 0x1405,
hz1860 = 0xe0b,
hz2100 = 0xf5f6,
hz2450 = 0xd3b3
}IXJ_FREQ;
typedef enum
{
C1 = hz261,
CS1 = hz277,
D1 = hz293,
DS1 = hz311,
E1 = hz329,
F1 = hz349,
FS1 = hz369,
G1 = hz392,
GS1 = hz415,
A1 = hz440,
AS1 = hz466,
B1 = hz493,
C2 = hz523,
CS2 = hz554,
D2 = hz587,
DS2 = hz622,
E2 = hz659,
F2 = hz698,
FS2 = hz739,
G2 = hz783,
GS2 = hz830,
A2 = hz880,
AS2 = hz932,
}IXJ_NOTE;
typedef struct
{
int tone_index;
int freq0;
int gain0;
int freq1;
int gain1;
}IXJ_TONE;
#define IXJCTL_INIT_TONE _IOW ('q', 0x99, IXJ_TONE *)
/******************************************************************************
*
* The IXJCTL_TONE_CADENCE ioctl defines tone sequences used for various
* Call Progress Tones (CPT). This is accomplished by setting up an array of
* IXJ_CADENCE_ELEMENT structures that sequentially define the states of
* the tone sequence. The tone_on_time and tone_off time are in
* 250 microsecond intervals. A pointer to this array is passed to the
* driver as the ce element of an IXJ_CADENCE structure. The elements_used
* must be set to the number of IXJ_CADENCE_ELEMENTS in the array. The
* termination variable defines what to do at the end of a cadence, the
* options are to play the cadence once and stop, to repeat the last
* element of the cadence indefinatly, or to repeat the entire cadence
* indefinatly. The ce variable is a pointer to the array of IXJ_TONE
* structures. If the freq0 variable is non-zero, the tone table contents
* for the tone_index are updated to the frequencies and gains defined. It
* should be noted that DTMF tones cannot be reassigned, so if DTMF tone
* table indexs are used in a cadence the frequency and gain variables will
* be ignored.
*
* If the array elements contain frequency parameters the driver will
* initialize the needed tone table elements and begin playing the tone,
* there is no preset limit on the number of elements in the cadence. If
* there is more than one frequency used in the cadence, sequential elements
* of different frequencies MUST use different tone table indexes. Only one
* cadence can be played at a time. It is possible to build complex
* cadences with multiple frequencies using 2 tone table indexes by
* alternating between them.
*
******************************************************************************/
typedef struct
{
int index;
int tone_on_time;
int tone_off_time;
int freq0;
int gain0;
int freq1;
int gain1;
}IXJ_CADENCE_ELEMENT;
typedef enum
{
PLAY_ONCE,
REPEAT_LAST_ELEMENT,
REPEAT_ALL
}IXJ_CADENCE_TERM;
typedef struct
{
int elements_used;
IXJ_CADENCE_TERM termination;
IXJ_CADENCE_ELEMENT *ce;
}IXJ_CADENCE;
#define IXJCTL_TONE_CADENCE _IOW ('q', 0x9A, IXJ_CADENCE *)
/******************************************************************************
*
* This group of IOCTLs deal with the playback settings of the DSP
*
******************************************************************************/
#define IXJCTL_PLAY_CODEC _IOW ('q', 0xA0, int)
#define IXJCTL_PLAY_START _IO ('q', 0xA2)
#define IXJCTL_PLAY_STOP _IO ('q', 0xA3)
#define IXJCTL_PLAY_DEPTH _IOW ('q', 0xA4, int)
#define IXJCTL_PLAY_VOLUME _IOW ('q', 0xA5, int)
#define IXJCTL_PLAY_LEVEL _IO ('q', 0xA6)
/******************************************************************************
*
* This group of IOCTLs deal with the Acoustic Echo Cancellation settings
* of the DSP
*
* Issueing the IXJCTL_AEC_START command with a value of AEC_OFF has the
* same effect as IXJCTL_AEC_STOP. This is to simplify slider bar
* controls.
******************************************************************************/
#define IXJCTL_AEC_START _IOW ('q', 0xB0, int)
#define IXJCTL_AEC_STOP _IO ('q', 0xB1)
#define AEC_OFF 0
#define AEC_LOW 1
#define AEC_MED 2
#define AEC_HIGH 3
/******************************************************************************
*
* Call Progress Tones, DTMF, etc.
* Tone on and off times are in 250 microsecond intervals so
* ioctl(ixj1, IXJCTL_SET_TONE_ON_TIME, 360);
* will set the tone on time of board ixj1 to 360 * 250us = 90ms
* the default values of tone on and off times is 840 or 210ms
******************************************************************************/
#define IXJCTL_DTMF_READY _IOR ('q', 0xC0, int)
#define IXJCTL_GET_DTMF _IOR ('q', 0xC1, int)
#define IXJCTL_GET_DTMF_ASCII _IOR ('q', 0xC2, int)
#define IXJCTL_EXCEPTION _IOR ('q', 0xC4, int)
#define IXJCTL_PLAY_TONE _IOW ('q', 0xC6, char)
#define IXJCTL_SET_TONE_ON_TIME _IOW ('q', 0xC7, int)
#define IXJCTL_SET_TONE_OFF_TIME _IOW ('q', 0xC8, int)
#define IXJCTL_GET_TONE_ON_TIME _IO ('q', 0xC9)
#define IXJCTL_GET_TONE_OFF_TIME _IO ('q', 0xCA)
#define IXJCTL_GET_TONE_STATE _IO ('q', 0xCB)
#define IXJCTL_BUSY _IO ('q', 0xCC)
#define IXJCTL_RINGBACK _IO ('q', 0xCD)
#define IXJCTL_DIALTONE _IO ('q', 0xCE)
// This IOCTL replaced both IXJCTL_BUSY_STOP and IXJCTL_RINGBACK_STOP and
// should be used from now on to stop all Call Progress Tones. It will
// actually abort any tone, regardless of time left in the tone_on_time
// and tone_off_time counters.
#define IXJCTL_CPT_STOP _IO ('q', 0xCF)
/******************************************************************************
* LineJack specific IOCTLs
*
* The lsb 4 bits of the LED argument represent the state of each of the 4
* LED's on the LineJack
******************************************************************************/
#define IXJCTL_SET_LED _IOW ('q', 0xD0, int)
#define IXJCTL_MIXER _IOW ('q', 0xD1, int)
/******************************************************************************
*
* The master volume controls use attenuation with 32 levels from 0 to -62dB
* with steps of 2dB each, the defines should be OR'ed together then sent
* as the parameter to the mixer command to change the mixer settings.
*
******************************************************************************/
#define MIXER_MASTER_L 0x0100
#define MIXER_MASTER_R 0x0200
#define ATT00DB 0x00
#define ATT02DB 0x01
#define ATT04DB 0x02
#define ATT06DB 0x03
#define ATT08DB 0x04
#define ATT10DB 0x05
#define ATT12DB 0x06
#define ATT14DB 0x07
#define ATT16DB 0x08
#define ATT18DB 0x09
#define ATT20DB 0x0A
#define ATT22DB 0x0B
#define ATT24DB 0x0C
#define ATT26DB 0x0D
#define ATT28DB 0x0E
#define ATT30DB 0x0F
#define ATT32DB 0x10
#define ATT34DB 0x11
#define ATT36DB 0x12
#define ATT38DB 0x13
#define ATT40DB 0x14
#define ATT42DB 0x15
#define ATT44DB 0x16
#define ATT46DB 0x17
#define ATT48DB 0x18
#define ATT50DB 0x19
#define ATT52DB 0x1A
#define ATT54DB 0x1B
#define ATT56DB 0x1C
#define ATT58DB 0x1D
#define ATT60DB 0x1E
#define ATT62DB 0x1F
#define MASTER_MUTE 0x80
/******************************************************************************
*
* The input volume controls use gain with 32 levels from +12dB to -50dB
* with steps of 2dB each, the defines should be OR'ed together then sent
* as the parameter to the mixer command to change the mixer settings.
*
******************************************************************************/
#define MIXER_PORT_CD_L 0x0600
#define MIXER_PORT_CD_R 0x0700
#define MIXER_PORT_LINE_IN_L 0x0800
#define MIXER_PORT_LINE_IN_R 0x0900
#define MIXER_PORT_POTS_REC 0x0C00
#define MIXER_PORT_MIC 0x0E00
#define GAIN12DB 0x00
#define GAIN10DB 0x01
#define GAIN08DB 0x02
#define GAIN06DB 0x03
#define GAIN04DB 0x04
#define GAIN02DB 0x05
#define GAIN00DB 0x06
#define GAIN_02DB 0x07
#define GAIN_04DB 0x08
#define GAIN_06DB 0x09
#define GAIN_08DB 0x0A
#define GAIN_10DB 0x0B
#define GAIN_12DB 0x0C
#define GAIN_14DB 0x0D
#define GAIN_16DB 0x0E
#define GAIN_18DB 0x0F
#define GAIN_20DB 0x10
#define GAIN_22DB 0x11
#define GAIN_24DB 0x12
#define GAIN_26DB 0x13
#define GAIN_28DB 0x14
#define GAIN_30DB 0x15
#define GAIN_32DB 0x16
#define GAIN_34DB 0x17
#define GAIN_36DB 0x18
#define GAIN_38DB 0x19
#define GAIN_40DB 0x1A
#define GAIN_42DB 0x1B
#define GAIN_44DB 0x1C
#define GAIN_46DB 0x1D
#define GAIN_48DB 0x1E
#define GAIN_50DB 0x1F
#define INPUT_MUTE 0x80
/******************************************************************************
*
* The POTS volume control use attenuation with 8 levels from 0dB to -28dB
* with steps of 4dB each, the defines should be OR'ed together then sent
* as the parameter to the mixer command to change the mixer settings.
*
******************************************************************************/
#define MIXER_PORT_POTS_PLAY 0x0F00
#define POTS_ATT_00DB 0x00
#define POTS_ATT_04DB 0x01
#define POTS_ATT_08DB 0x02
#define POTS_ATT_12DB 0x03
#define POTS_ATT_16DB 0x04
#define POTS_ATT_20DB 0x05
#define POTS_ATT_24DB 0x06
#define POTS_ATT_28DB 0x07
#define POTS_MUTE 0x80
/******************************************************************************
*
* The DAA controls the interface to the PSTN port. The driver loads the
* US coefficients by default, so if you live in a different country you
* need to load the set for your countries phone system.
*
******************************************************************************/
#define IXJCTL_DAA_COEFF_SET _IOW ('q', 0xD2, int)
#define DAA_US 1 //PITA 8kHz
#define DAA_UK 2 //ISAR34 8kHz
#define DAA_FRANCE 3 //
#define DAA_GERMANY 4
#define DAA_AUSTRALIA 5
#define DAA_JAPAN 6
/******************************************************************************
*
* Use IXJCTL_PORT to set or query the port the card is set to. If the
* argument is set to PORT_QUERY, the return value of the ioctl will
* indicate which port is currently in use, otherwise it will change the
* port.
*
******************************************************************************/
#define IXJCTL_PORT _IOW ('q', 0xD3, int)
#define PORT_QUERY 0
#define PORT_POTS 1
#define PORT_PSTN 2
#define PORT_SPEAKER 3
#define PORT_HANDSET 4
#define IXJCTL_PSTN_SET_STATE _IOW ('q', 0xD4, int)
#define IXJCTL_PSTN_GET_STATE _IO ('q', 0xD5)
#define PSTN_ON_HOOK 0
#define PSTN_RINGING 1
#define PSTN_OFF_HOOK 2
#define PSTN_PULSE_DIAL 3
/******************************************************************************
*
* The DAA Analog GAIN sets 2 parameters at one time, the recieve gain (AGRR),
* and the transmit gain (AGX). OR together the components and pass them
* as the parameter to IXJCTL_DAA_AGAIN. The default setting is both at 0dB.
*
******************************************************************************/
#define IXJCTL_DAA_AGAIN _IOW ('q', 0xD6, int)
#define AGRR00DB 0x00 // Analog gain in recieve direction 0dB
#define AGRR3_5DB 0x10 // Analog gain in recieve direction 3.5dB
#define AGRR06DB 0x30 // Analog gain in recieve direction 6dB
#define AGX00DB 0x00 // Analog gain in transmit direction 0dB
#define AGX_6DB 0x04 // Analog gain in transmit direction -6dB
#define AGX3_5DB 0x08 // Analog gain in transmit direction 3.5dB
#define AGX_2_5B 0x0C // Analog gain in transmit direction -2.5dB
#define IXJCTL_PSTN_LINETEST _IO ('q', 0xD7)
typedef struct
{
char month[3];
char day[3];
char hour[3];
char min[3];
int numlen;
char number[11];
int namelen;
char name[80];
}IXJ_CID;
#define IXJCTL_CID _IOR ('q', 0xD8, IXJ_CID *)
/******************************************************************************
*
* The wink duration is tunable with this ioctl. The default wink duration
* is 320ms. You do not need to use this ioctl if you do not require a
* different wink duration.
*
******************************************************************************/
#define IXJCTL_WINK_DURATION _IOW ('q', 0xD9, int)
/******************************************************************************
*
* This ioctl will connect the POTS port to the PSTN port on the LineJACK
* In order for this to work properly the port selection should be set to
* the PSTN port with IXJCTL_PORT prior to calling this ioctl. This will
* enable conference calls between PSTN callers and network callers.
* Passing a 1 to this ioctl enables the POTS<->PSTN connection while
* passing a 0 turns it back off.
*
******************************************************************************/
#define IXJCTL_POTS_PSTN _IOW ('q', 0xDA, int)
/******************************************************************************
*
* IOCTLs added by request.
*
* IXJCTL_HZ sets the value your Linux kernel uses for HZ as defined in
* /usr/include/asm/param.h, this determines the fundamental
* frequency of the clock ticks on your Linux system. The kernel
* must be rebuilt if you change this value, also all modules you
* use (except this one) must be recompiled. The default value
* is 100, and you only need to use this IOCTL if you use some
* other value.
*
*
* IXJCTL_RATE sets the number of times per second that the driver polls
* the DSP. This value cannot be larger than HZ. By
* increasing both of these values, you may be able to reduce
* latency because the max hang time that can exist between the
* driver and the DSP will be reduced.
*
******************************************************************************/
#define IXJCTL_HZ _IOW ('q', 0xE0, int)
#define IXJCTL_RATE _IOW ('q', 0xE1, int)
#define IXJCTL_FRAMES_READ _IOR ('q', 0xE2, unsigned long)
#define IXJCTL_FRAMES_WRITTEN _IOR ('q', 0xE3, unsigned long)
#define IXJCTL_READ_WAIT _IOR ('q', 0xE4, unsigned long)
#define IXJCTL_WRITE_WAIT _IOR ('q', 0xE5, unsigned long)
#define IXJCTL_DRYBUFFER_READ _IOR ('q', 0xE6, unsigned long)
#define IXJCTL_DRYBUFFER_CLEAR _IO ('q', 0xE7)
/******************************************************************************
*
* The defined CODECs that can be used with the IXJCTL_REC_CODEC and
* IXJ_PLAY_CODEC IOCTLs.
*
* PCM uLaw mode is a "pass through" mode.
*
* 16 bit linear data is signed integer (2's complement form), positive
* full scale is 7FFFH, negative full scale is 8000H, zero is 0000H
*
* 8 bit linear data is signed byte (2's complement form), positive
* full scale is 7FH, negative full scale is 80H, zero is 00H
*
* 8 bit linear WSS data is unsigned byte, positive full scale is FFH,
* negative full scale is 00H, zero is 80H. This is the format used for
* 8-bit WAVE format data (Windows Sound System). Data can be converted
* between the two 8-bit formats by simply inverting the ms bit.
*
* G729 currently works most reliably with 10ms frames. Use 20ms and 30ms
* at your own risk. If you really need larger frame sizes you can
* concatenate multiple 10ms frames.
*
******************************************************************************/
typedef enum{ // Bytes per 30ms audio frame
G723_63 = 1, // 24
G723_53 = 2, // 20
TS85 = 3, // 32 Does not currently work on LineJack
TS48 = 4, // 18
TS41 = 5, // 16
G728 = 6, // 96 LineJack only!
G729 = 7, // 30 LineJack only!
ULAW = 8, // 240
ALAW = 9, // 240 not implemented DO NOT USE!
LINEAR16= 10, // 480
LINEAR8 = 11, // 240
WSS = 12 // 240
}IXJ_CODEC;
/******************************************************************************
*
* The intercom IOCTL's short the output from one card to the input of the
* other and vice versa (actually done in the DSP read function). It is only
* necessary to execute the IOCTL on one card, but it is necessary to have
* both devices open to be able to detect hook switch changes. The record
* codec and rate of each card must match the playback codec and rate of
* the other card for this to work properly.
*
******************************************************************************/
#define IXJCTL_INTERCOM_START _IOW ('q', 0xFD, int)
#define IXJCTL_INTERCOM_STOP _IOW ('q', 0xFE, int)
/******************************************************************************
*
* This IOCTL will decrement the module usage counter so you can force
* the module to unload after a program bombs.
*
******************************************************************************/
#define IXJCTL_MODRESET _IO ('q', 0xFF)
/******************************************************************************
*
* Various Defines used for the Quicknet Cards
*
******************************************************************************/
#define SYNC_MODE_CODEC 0
#define SYNC_MODE_DATA 1
#define SYNC_MODE_POLL 2
#define SYNC_MODE_HOST 3
#define RECORD_SYNC_MODE 0x5100
#define PLAYBACK_SYNC_MODE 0x5200
#define USA_RING_CADENCE 0xC0C0
/******************************************************************************
*
* The exception structure allows us to multiplex multiple events onto the
* select() exception set. If any of these flags are set select() will
* return with a positive indication on the exception set. The dtmf_ready
* bit indicates if there is data waiting in the DTMF buffer. The
* hookstate bit is set if there is a change in hookstate status, it does not
* indicate the current state of the hookswitch. The pstn_ring bit
* indicates that the DAA on a LineJACK card has detected ring voltage on
* the PSTN port. The caller_id bit indicates that caller_id data has been
* recieved and is available. The pstn_wink bit indicates that the DAA on
* the LineJACK has recieved a wink from the telco switch. The f0, f1, f2
* and f3 bits indicate that the filter has been triggered by detecting the
* frequency programmed into that filter.
*
******************************************************************************/
typedef struct
{
unsigned int dtmf_ready:1;
unsigned int hookstate:1;
unsigned int pstn_ring:1;
unsigned int caller_id:1;
unsigned int pstn_wink:1;
unsigned int f0:1;
unsigned int f1:1;
unsigned int f2:1;
unsigned int f3:1;
unsigned int reserved:23;
}IXJ_EXCEPT;
typedef union
{
IXJ_EXCEPT bits;
unsigned int bytes;
}IXJ_EXCEPTION;
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