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|
/*
* Routines for Trident 4DWave NX/DX soundcards - Synthesizer
* Copyright (c) by Scott McNab <jedi@tartarus.uwa.edu.au>
*
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*/
#include <sound/driver.h>
#include <asm/io.h>
#include <linux/init.h>
#include <linux/slab.h>
#include <linux/pci.h>
#include <sound/core.h>
#include <sound/trident.h>
#include <sound/seq_device.h>
MODULE_AUTHOR("Scott McNab <jedi@tartarus.uwa.edu.au>");
MODULE_DESCRIPTION("Routines for Trident 4DWave NX/DX soundcards - Synthesizer");
MODULE_LICENSE("GPL");
/* linear to log pan conversion table (4.2 channel attenuation format) */
static unsigned int pan_table[63] = {
7959, 7733, 7514, 7301, 7093, 6892, 6697, 6507,
6322, 6143, 5968, 5799, 5634, 5475, 5319, 5168,
5022, 4879, 4741, 4606, 4475, 4349, 4225, 4105,
3989, 3876, 3766, 3659, 3555, 3454, 3356, 3261,
3168, 3078, 2991, 2906, 2824, 2744, 2666, 2590,
2517, 2445, 2376, 2308, 2243, 2179, 2117, 2057,
1999, 1942, 1887, 1833, 1781, 1731, 1682, 1634,
1588, 1543, 1499, 1456, 1415, 1375, 1336
};
#define LOG_TABLE_SIZE 386
/* Linear half-attenuation to log conversion table in the format:
* {linear volume, logarithmic attenuation equivalent}, ...
*
* Provides conversion from a linear half-volume value in the range
* [0,8192] to a logarithmic attenuation value in the range 0 to 6.02dB.
* Halving the linear volume is equivalent to an additional 6dB of
* logarithmic attenuation. The algorithm used in log_from_linear()
* therefore uses this table as follows:
*
* - loop and for every time the volume is less than half the maximum
* volume (16384), add another 6dB and halve the maximum value used
* for this comparison.
* - when the volume is greater than half the maximum volume, take
* the difference of the volume to half volume (in the range [0,8192])
* and look up the log_table[] to find the nearest entry.
* - take the logarithic component of this entry and add it to the
* resulting attenuation.
*
* Thus this routine provides a linear->log conversion for a range of
* [0,16384] using only 386 table entries
*
* Note: although this table stores log attenuation in 8.8 format, values
* were only calculated for 6 bits fractional precision, since that is
* the most precision offered by the trident hardware.
*/
static unsigned short log_table[LOG_TABLE_SIZE*2] =
{
4, 0x0604, 19, 0x0600, 34, 0x05fc,
49, 0x05f8, 63, 0x05f4, 78, 0x05f0, 93, 0x05ec, 108, 0x05e8,
123, 0x05e4, 138, 0x05e0, 153, 0x05dc, 168, 0x05d8, 183, 0x05d4,
198, 0x05d0, 213, 0x05cc, 228, 0x05c8, 244, 0x05c4, 259, 0x05c0,
274, 0x05bc, 289, 0x05b8, 304, 0x05b4, 320, 0x05b0, 335, 0x05ac,
350, 0x05a8, 366, 0x05a4, 381, 0x05a0, 397, 0x059c, 412, 0x0598,
428, 0x0594, 443, 0x0590, 459, 0x058c, 474, 0x0588, 490, 0x0584,
506, 0x0580, 521, 0x057c, 537, 0x0578, 553, 0x0574, 568, 0x0570,
584, 0x056c, 600, 0x0568, 616, 0x0564, 632, 0x0560, 647, 0x055c,
663, 0x0558, 679, 0x0554, 695, 0x0550, 711, 0x054c, 727, 0x0548,
743, 0x0544, 759, 0x0540, 776, 0x053c, 792, 0x0538, 808, 0x0534,
824, 0x0530, 840, 0x052c, 857, 0x0528, 873, 0x0524, 889, 0x0520,
906, 0x051c, 922, 0x0518, 938, 0x0514, 955, 0x0510, 971, 0x050c,
988, 0x0508, 1004, 0x0504, 1021, 0x0500, 1037, 0x04fc, 1054, 0x04f8,
1071, 0x04f4, 1087, 0x04f0, 1104, 0x04ec, 1121, 0x04e8, 1138, 0x04e4,
1154, 0x04e0, 1171, 0x04dc, 1188, 0x04d8, 1205, 0x04d4, 1222, 0x04d0,
1239, 0x04cc, 1256, 0x04c8, 1273, 0x04c4, 1290, 0x04c0, 1307, 0x04bc,
1324, 0x04b8, 1341, 0x04b4, 1358, 0x04b0, 1376, 0x04ac, 1393, 0x04a8,
1410, 0x04a4, 1427, 0x04a0, 1445, 0x049c, 1462, 0x0498, 1479, 0x0494,
1497, 0x0490, 1514, 0x048c, 1532, 0x0488, 1549, 0x0484, 1567, 0x0480,
1584, 0x047c, 1602, 0x0478, 1620, 0x0474, 1637, 0x0470, 1655, 0x046c,
1673, 0x0468, 1690, 0x0464, 1708, 0x0460, 1726, 0x045c, 1744, 0x0458,
1762, 0x0454, 1780, 0x0450, 1798, 0x044c, 1816, 0x0448, 1834, 0x0444,
1852, 0x0440, 1870, 0x043c, 1888, 0x0438, 1906, 0x0434, 1924, 0x0430,
1943, 0x042c, 1961, 0x0428, 1979, 0x0424, 1997, 0x0420, 2016, 0x041c,
2034, 0x0418, 2053, 0x0414, 2071, 0x0410, 2089, 0x040c, 2108, 0x0408,
2127, 0x0404, 2145, 0x0400, 2164, 0x03fc, 2182, 0x03f8, 2201, 0x03f4,
2220, 0x03f0, 2239, 0x03ec, 2257, 0x03e8, 2276, 0x03e4, 2295, 0x03e0,
2314, 0x03dc, 2333, 0x03d8, 2352, 0x03d4, 2371, 0x03d0, 2390, 0x03cc,
2409, 0x03c8, 2428, 0x03c4, 2447, 0x03c0, 2466, 0x03bc, 2485, 0x03b8,
2505, 0x03b4, 2524, 0x03b0, 2543, 0x03ac, 2562, 0x03a8, 2582, 0x03a4,
2601, 0x03a0, 2621, 0x039c, 2640, 0x0398, 2660, 0x0394, 2679, 0x0390,
2699, 0x038c, 2718, 0x0388, 2738, 0x0384, 2758, 0x0380, 2777, 0x037c,
2797, 0x0378, 2817, 0x0374, 2837, 0x0370, 2857, 0x036c, 2876, 0x0368,
2896, 0x0364, 2916, 0x0360, 2936, 0x035c, 2956, 0x0358, 2976, 0x0354,
2997, 0x0350, 3017, 0x034c, 3037, 0x0348, 3057, 0x0344, 3077, 0x0340,
3098, 0x033c, 3118, 0x0338, 3138, 0x0334, 3159, 0x0330, 3179, 0x032c,
3200, 0x0328, 3220, 0x0324, 3241, 0x0320, 3261, 0x031c, 3282, 0x0318,
3303, 0x0314, 3323, 0x0310, 3344, 0x030c, 3365, 0x0308, 3386, 0x0304,
3406, 0x0300, 3427, 0x02fc, 3448, 0x02f8, 3469, 0x02f4, 3490, 0x02f0,
3511, 0x02ec, 3532, 0x02e8, 3553, 0x02e4, 3575, 0x02e0, 3596, 0x02dc,
3617, 0x02d8, 3638, 0x02d4, 3660, 0x02d0, 3681, 0x02cc, 3702, 0x02c8,
3724, 0x02c4, 3745, 0x02c0, 3767, 0x02bc, 3788, 0x02b8, 3810, 0x02b4,
3831, 0x02b0, 3853, 0x02ac, 3875, 0x02a8, 3896, 0x02a4, 3918, 0x02a0,
3940, 0x029c, 3962, 0x0298, 3984, 0x0294, 4006, 0x0290, 4028, 0x028c,
4050, 0x0288, 4072, 0x0284, 4094, 0x0280, 4116, 0x027c, 4138, 0x0278,
4160, 0x0274, 4182, 0x0270, 4205, 0x026c, 4227, 0x0268, 4249, 0x0264,
4272, 0x0260, 4294, 0x025c, 4317, 0x0258, 4339, 0x0254, 4362, 0x0250,
4384, 0x024c, 4407, 0x0248, 4430, 0x0244, 4453, 0x0240, 4475, 0x023c,
4498, 0x0238, 4521, 0x0234, 4544, 0x0230, 4567, 0x022c, 4590, 0x0228,
4613, 0x0224, 4636, 0x0220, 4659, 0x021c, 4682, 0x0218, 4705, 0x0214,
4728, 0x0210, 4752, 0x020c, 4775, 0x0208, 4798, 0x0204, 4822, 0x0200,
4845, 0x01fc, 4869, 0x01f8, 4892, 0x01f4, 4916, 0x01f0, 4939, 0x01ec,
4963, 0x01e8, 4987, 0x01e4, 5010, 0x01e0, 5034, 0x01dc, 5058, 0x01d8,
5082, 0x01d4, 5106, 0x01d0, 5130, 0x01cc, 5154, 0x01c8, 5178, 0x01c4,
5202, 0x01c0, 5226, 0x01bc, 5250, 0x01b8, 5274, 0x01b4, 5299, 0x01b0,
5323, 0x01ac, 5347, 0x01a8, 5372, 0x01a4, 5396, 0x01a0, 5420, 0x019c,
5445, 0x0198, 5469, 0x0194, 5494, 0x0190, 5519, 0x018c, 5543, 0x0188,
5568, 0x0184, 5593, 0x0180, 5618, 0x017c, 5643, 0x0178, 5668, 0x0174,
5692, 0x0170, 5717, 0x016c, 5743, 0x0168, 5768, 0x0164, 5793, 0x0160,
5818, 0x015c, 5843, 0x0158, 5868, 0x0154, 5894, 0x0150, 5919, 0x014c,
5945, 0x0148, 5970, 0x0144, 5995, 0x0140, 6021, 0x013c, 6047, 0x0138,
6072, 0x0134, 6098, 0x0130, 6124, 0x012c, 6149, 0x0128, 6175, 0x0124,
6201, 0x0120, 6227, 0x011c, 6253, 0x0118, 6279, 0x0114, 6305, 0x0110,
6331, 0x010c, 6357, 0x0108, 6384, 0x0104, 6410, 0x0100, 6436, 0x00fc,
6462, 0x00f8, 6489, 0x00f4, 6515, 0x00f0, 6542, 0x00ec, 6568, 0x00e8,
6595, 0x00e4, 6621, 0x00e0, 6648, 0x00dc, 6675, 0x00d8, 6702, 0x00d4,
6728, 0x00d0, 6755, 0x00cc, 6782, 0x00c8, 6809, 0x00c4, 6836, 0x00c0,
6863, 0x00bc, 6890, 0x00b8, 6917, 0x00b4, 6945, 0x00b0, 6972, 0x00ac,
6999, 0x00a8, 7027, 0x00a4, 7054, 0x00a0, 7081, 0x009c, 7109, 0x0098,
7136, 0x0094, 7164, 0x0090, 7192, 0x008c, 7219, 0x0088, 7247, 0x0084,
7275, 0x0080, 7303, 0x007c, 7331, 0x0078, 7359, 0x0074, 7387, 0x0070,
7415, 0x006c, 7443, 0x0068, 7471, 0x0064, 7499, 0x0060, 7527, 0x005c,
7556, 0x0058, 7584, 0x0054, 7613, 0x0050, 7641, 0x004c, 7669, 0x0048,
7698, 0x0044, 7727, 0x0040, 7755, 0x003c, 7784, 0x0038, 7813, 0x0034,
7842, 0x0030, 7870, 0x002c, 7899, 0x0028, 7928, 0x0024, 7957, 0x0020,
7986, 0x001c, 8016, 0x0018, 8045, 0x0014, 8074, 0x0010, 8103, 0x000c,
8133, 0x0008, 8162, 0x0004, 8192, 0x0000
};
static unsigned short lookup_volume_table( unsigned short value )
{
/* This code is an optimised version of:
* int i = 0;
* while( volume_table[i*2] < value )
* i++;
* return volume_table[i*2+1];
*/
unsigned short *ptr = log_table;
while( *ptr < value )
ptr += 2;
return *(ptr+1);
}
/* this function calculates a 8.8 fixed point logarithmic attenuation
* value from a linear volume value in the range 0 to 16384 */
static unsigned short log_from_linear( unsigned short value )
{
if (value >= 16384)
return 0x0000;
if (value) {
unsigned short result = 0;
int v, c;
for( c = 0, v = 8192; c < 14; c++, v >>= 1 ) {
if( value >= v ) {
result += lookup_volume_table( (value - v) << c );
return result;
}
result += 0x0605; /* 6.0205 (result of -20*log10(0.5)) */
}
}
return 0xffff;
}
/*
* Sample handling operations
*/
static void sample_start(struct snd_trident * trident, struct snd_trident_voice * voice, snd_seq_position_t position);
static void sample_stop(struct snd_trident * trident, struct snd_trident_voice * voice, int mode);
static void sample_freq(struct snd_trident * trident, struct snd_trident_voice * voice, snd_seq_frequency_t freq);
static void sample_volume(struct snd_trident * trident, struct snd_trident_voice * voice, struct snd_seq_ev_volume * volume);
static void sample_loop(struct snd_trident * trident, struct snd_trident_voice * voice, struct snd_seq_ev_loop * loop);
static void sample_pos(struct snd_trident * trident, struct snd_trident_voice * voice, snd_seq_position_t position);
static void sample_private1(struct snd_trident * trident, struct snd_trident_voice * voice, unsigned char *data);
static struct snd_trident_sample_ops sample_ops =
{
sample_start,
sample_stop,
sample_freq,
sample_volume,
sample_loop,
sample_pos,
sample_private1
};
static void snd_trident_simple_init(struct snd_trident_voice * voice)
{
//voice->handler_wave = interrupt_wave;
//voice->handler_volume = interrupt_volume;
//voice->handler_effect = interrupt_effect;
//voice->volume_change = NULL;
voice->sample_ops = &sample_ops;
}
static void sample_start(struct snd_trident * trident, struct snd_trident_voice * voice, snd_seq_position_t position)
{
struct simple_instrument *simple;
struct snd_seq_kinstr *instr;
unsigned long flags;
unsigned int loop_start, loop_end, sample_start, sample_end, start_offset;
unsigned int value;
unsigned int shift = 0;
instr = snd_seq_instr_find(trident->synth.ilist, &voice->instr, 0, 1);
if (instr == NULL)
return;
voice->instr = instr->instr; /* copy ID to speedup aliases */
simple = KINSTR_DATA(instr);
spin_lock_irqsave(&trident->reg_lock, flags);
if (trident->device == TRIDENT_DEVICE_ID_SI7018)
voice->GVSel = 1; /* route to Wave volume */
voice->CTRL = 0;
voice->Alpha = 0;
voice->FMS = 0;
loop_start = simple->loop_start >> 4;
loop_end = simple->loop_end >> 4;
sample_start = (simple->start + position) >> 4;
if( sample_start >= simple->size )
sample_start = simple->start >> 4;
sample_end = simple->size;
start_offset = position >> 4;
if (simple->format & SIMPLE_WAVE_16BIT) {
voice->CTRL |= 8;
shift++;
}
if (simple->format & SIMPLE_WAVE_STEREO) {
voice->CTRL |= 4;
shift++;
}
if (!(simple->format & SIMPLE_WAVE_UNSIGNED))
voice->CTRL |= 2;
voice->LBA = simple->address.memory;
if (simple->format & SIMPLE_WAVE_LOOP) {
voice->CTRL |= 1;
voice->LBA += loop_start << shift;
if( start_offset >= loop_start ) {
voice->CSO = start_offset - loop_start;
voice->negCSO = 0;
} else {
voice->CSO = loop_start - start_offset;
voice->negCSO = 1;
}
voice->ESO = loop_end - loop_start - 1;
} else {
voice->LBA += start_offset << shift;
voice->CSO = sample_start;
voice->ESO = sample_end - 1;
voice->negCSO = 0;
}
if (voice->flags & SNDRV_TRIDENT_VFLG_RUNNING) {
snd_trident_stop_voice(trident, voice->number);
voice->flags &= ~SNDRV_TRIDENT_VFLG_RUNNING;
}
/* set CSO sign */
value = inl(TRID_REG(trident, T4D_SIGN_CSO_A));
if( voice->negCSO ) {
value |= 1 << (voice->number&31);
} else {
value &= ~(1 << (voice->number&31));
}
outl(value,TRID_REG(trident, T4D_SIGN_CSO_A));
voice->Attribute = 0;
snd_trident_write_voice_regs(trident, voice);
snd_trident_start_voice(trident, voice->number);
voice->flags |= SNDRV_TRIDENT_VFLG_RUNNING;
spin_unlock_irqrestore(&trident->reg_lock, flags);
snd_seq_instr_free_use(trident->synth.ilist, instr);
}
static void sample_stop(struct snd_trident * trident, struct snd_trident_voice * voice, int mode)
{
unsigned long flags;
if (!(voice->flags & SNDRV_TRIDENT_VFLG_RUNNING))
return;
switch (mode) {
default:
spin_lock_irqsave(&trident->reg_lock, flags);
snd_trident_stop_voice(trident, voice->number);
voice->flags &= ~SNDRV_TRIDENT_VFLG_RUNNING;
spin_unlock_irqrestore(&trident->reg_lock, flags);
break;
case SAMPLE_STOP_LOOP: /* disable loop only */
voice->CTRL &= ~1;
spin_lock_irqsave(&trident->reg_lock, flags);
outb((unsigned char) voice->number, TRID_REG(trident, T4D_LFO_GC_CIR));
outw((((voice->CTRL << 12) | (voice->EC & 0x0fff)) & 0xffff), CH_GVSEL_PAN_VOL_CTRL_EC);
spin_unlock_irqrestore(&trident->reg_lock, flags);
break;
}
}
static void sample_freq(struct snd_trident * trident, struct snd_trident_voice * voice, snd_seq_frequency_t freq)
{
unsigned long flags;
freq >>= 4;
spin_lock_irqsave(&trident->reg_lock, flags);
if (freq == 44100)
voice->Delta = 0xeb3;
else if (freq == 8000)
voice->Delta = 0x2ab;
else if (freq == 48000)
voice->Delta = 0x1000;
else
voice->Delta = (((freq << 12) + freq) / 48000) & 0x0000ffff;
outb((unsigned char) voice->number, TRID_REG(trident, T4D_LFO_GC_CIR));
if (trident->device == TRIDENT_DEVICE_ID_NX) {
outb((unsigned char) voice->Delta, TRID_REG(trident, CH_NX_DELTA_CSO + 3));
outb((unsigned char) (voice->Delta >> 8), TRID_REG(trident, CH_NX_DELTA_ESO + 3));
} else {
outw((unsigned short) voice->Delta, TRID_REG(trident, CH_DX_ESO_DELTA));
}
spin_unlock_irqrestore(&trident->reg_lock, flags);
}
static void sample_volume(struct snd_trident * trident, struct snd_trident_voice * voice, struct snd_seq_ev_volume * volume)
{
unsigned long flags;
unsigned short value;
spin_lock_irqsave(&trident->reg_lock, flags);
voice->GVSel = 0; /* use global music volume */
voice->FMC = 0x03; /* fixme: can we do something useful with FMC? */
if (volume->volume >= 0) {
volume->volume &= 0x3fff;
/* linear volume -> logarithmic attenuation conversion
* uses EC register for greater resolution (6.6 bits) than Vol register (5.3 bits)
* Vol register used when additional attenuation is required */
voice->RVol = 0;
voice->CVol = 0;
value = log_from_linear( volume->volume );
voice->Vol = 0;
voice->EC = (value & 0x3fff) >> 2;
if (value > 0x3fff) {
voice->EC |= 0xfc0;
if (value < 0x5f00 )
voice->Vol = ((value >> 8) - 0x3f) << 5;
else {
voice->Vol = 0x3ff;
voice->EC = 0xfff;
}
}
}
if (volume->lr >= 0) {
volume->lr &= 0x3fff;
/* approximate linear pan by attenuating channels */
if (volume->lr >= 0x2000) { /* attenuate left (pan right) */
value = 0x3fff - volume->lr;
for (voice->Pan = 0; voice->Pan < 63; voice->Pan++ )
if (value >= pan_table[voice->Pan] )
break;
} else { /* attenuate right (pan left) */
for (voice->Pan = 0; voice->Pan < 63; voice->Pan++ )
if ((unsigned int)volume->lr >= pan_table[voice->Pan] )
break;
voice->Pan |= 0x40;
}
}
outb((unsigned char) voice->number, TRID_REG(trident, T4D_LFO_GC_CIR));
outl((voice->GVSel << 31) | ((voice->Pan & 0x0000007f) << 24) |
((voice->Vol & 0x000000ff) << 16) | ((voice->CTRL & 0x0000000f) << 12) |
(voice->EC & 0x00000fff), TRID_REG(trident, CH_GVSEL_PAN_VOL_CTRL_EC));
value = ((voice->FMC & 0x03) << 14) | ((voice->RVol & 0x7f) << 7) | (voice->CVol & 0x7f);
outw(value, TRID_REG(trident, CH_DX_FMC_RVOL_CVOL));
spin_unlock_irqrestore(&trident->reg_lock, flags);
}
static void sample_loop(struct snd_trident * trident, struct snd_trident_voice * voice, struct snd_seq_ev_loop * loop)
{
unsigned long flags;
struct simple_instrument *simple;
struct snd_seq_kinstr *instr;
unsigned int loop_start, loop_end;
instr = snd_seq_instr_find(trident->synth.ilist, &voice->instr, 0, 1);
if (instr == NULL)
return;
voice->instr = instr->instr; /* copy ID to speedup aliases */
simple = KINSTR_DATA(instr);
loop_start = loop->start >> 4;
loop_end = loop->end >> 4;
spin_lock_irqsave(&trident->reg_lock, flags);
voice->LBA = simple->address.memory + loop_start;
voice->CSO = 0;
voice->ESO = loop_end - loop_start - 1;
outb((unsigned char) voice->number, TRID_REG(trident, T4D_LFO_GC_CIR));
outb((voice->LBA >> 16), TRID_REG(trident, CH_LBA + 2));
outw((voice->LBA & 0xffff), TRID_REG(trident, CH_LBA));
if (trident->device == TRIDENT_DEVICE_ID_NX) {
outb((voice->ESO >> 16), TRID_REG(trident, CH_NX_DELTA_ESO + 2));
outw((voice->ESO & 0xffff), TRID_REG(trident, CH_NX_DELTA_ESO));
outb((voice->CSO >> 16), TRID_REG(trident, CH_NX_DELTA_CSO + 2));
outw((voice->CSO & 0xffff), TRID_REG(trident, CH_NX_DELTA_CSO));
} else {
outw((voice->ESO & 0xffff), TRID_REG(trident, CH_DX_ESO_DELTA + 2));
outw((voice->CSO & 0xffff), TRID_REG(trident, CH_DX_CSO_ALPHA_FMS + 2));
}
spin_unlock_irqrestore(&trident->reg_lock, flags);
snd_seq_instr_free_use(trident->synth.ilist, instr);
}
static void sample_pos(struct snd_trident * trident, struct snd_trident_voice * voice, snd_seq_position_t position)
{
unsigned long flags;
struct simple_instrument *simple;
struct snd_seq_kinstr *instr;
unsigned int value;
instr = snd_seq_instr_find(trident->synth.ilist, &voice->instr, 0, 1);
if (instr == NULL)
return;
voice->instr = instr->instr; /* copy ID to speedup aliases */
simple = KINSTR_DATA(instr);
spin_lock_irqsave(&trident->reg_lock, flags);
if (simple->format & SIMPLE_WAVE_LOOP) {
if( position >= simple->loop_start ) {
voice->CSO = (position - simple->loop_start) >> 4;
voice->negCSO = 0;
} else {
voice->CSO = (simple->loop_start - position) >> 4;
voice->negCSO = 1;
}
} else {
voice->CSO = position >> 4;
voice->negCSO = 0;
}
/* set CSO sign */
value = inl(TRID_REG(trident, T4D_SIGN_CSO_A));
if( voice->negCSO ) {
value |= 1 << (voice->number&31);
} else {
value &= ~(1 << (voice->number&31));
}
outl(value,TRID_REG(trident, T4D_SIGN_CSO_A));
outb((unsigned char) voice->number, TRID_REG(trident, T4D_LFO_GC_CIR));
if (trident->device == TRIDENT_DEVICE_ID_NX) {
outw((voice->CSO & 0xffff), TRID_REG(trident, CH_NX_DELTA_CSO));
outb((voice->CSO >> 16), TRID_REG(trident, CH_NX_DELTA_CSO + 2));
} else {
outw((voice->CSO & 0xffff), TRID_REG(trident, CH_DX_CSO_ALPHA_FMS) + 2);
}
spin_unlock_irqrestore(&trident->reg_lock, flags);
snd_seq_instr_free_use(trident->synth.ilist, instr);
}
static void sample_private1(struct snd_trident * trident, struct snd_trident_voice * voice, unsigned char *data)
{
}
/*
* Memory management / sample loading
*/
static int snd_trident_simple_put_sample(void *private_data,
struct simple_instrument * instr,
char __user *data, long len, int atomic)
{
struct snd_trident *trident = private_data;
int size = instr->size;
int shift = 0;
if (instr->format & SIMPLE_WAVE_BACKWARD ||
instr->format & SIMPLE_WAVE_BIDIR ||
instr->format & SIMPLE_WAVE_ULAW)
return -EINVAL; /* not supported */
if (instr->format & SIMPLE_WAVE_16BIT)
shift++;
if (instr->format & SIMPLE_WAVE_STEREO)
shift++;
size <<= shift;
if (trident->synth.current_size + size > trident->synth.max_size)
return -ENOMEM;
if (!access_ok(VERIFY_READ, data, size))
return -EFAULT;
if (trident->tlb.entries) {
struct snd_util_memblk *memblk;
memblk = snd_trident_synth_alloc(trident, size);
if (memblk == NULL)
return -ENOMEM;
if (snd_trident_synth_copy_from_user(trident, memblk, 0, data, size) ) {
snd_trident_synth_free(trident, memblk);
return -EFAULT;
}
instr->address.ptr = (unsigned char*)memblk;
instr->address.memory = memblk->offset;
} else {
struct snd_dma_buffer dmab;
if (snd_dma_alloc_pages(SNDRV_DMA_TYPE_DEV, snd_dma_pci_data(trident->pci),
size, &dmab) < 0)
return -ENOMEM;
if (copy_from_user(dmab.area, data, size)) {
snd_dma_free_pages(&dmab);
return -EFAULT;
}
instr->address.ptr = dmab.area;
instr->address.memory = dmab.addr;
}
trident->synth.current_size += size;
return 0;
}
static int snd_trident_simple_get_sample(void *private_data,
struct simple_instrument * instr,
char __user *data, long len, int atomic)
{
//struct snd_trident *trident = private_data;
int size = instr->size;
int shift = 0;
if (instr->format & SIMPLE_WAVE_16BIT)
shift++;
if (instr->format & SIMPLE_WAVE_STEREO)
shift++;
size <<= shift;
if (!access_ok(VERIFY_WRITE, data, size))
return -EFAULT;
/* FIXME: not implemented yet */
return -EBUSY;
}
static int snd_trident_simple_remove_sample(void *private_data,
struct simple_instrument * instr,
int atomic)
{
struct snd_trident *trident = private_data;
int size = instr->size;
if (instr->format & SIMPLE_WAVE_16BIT)
size <<= 1;
if (instr->format & SIMPLE_WAVE_STEREO)
size <<= 1;
if (trident->tlb.entries) {
struct snd_util_memblk *memblk = (struct snd_util_memblk *)instr->address.ptr;
if (memblk)
snd_trident_synth_free(trident, memblk);
else
return -EFAULT;
} else {
struct snd_dma_buffer dmab;
dmab.dev.type = SNDRV_DMA_TYPE_DEV;
dmab.dev.dev = snd_dma_pci_data(trident->pci);
dmab.area = instr->address.ptr;
dmab.addr = instr->address.memory;
dmab.bytes = size;
snd_dma_free_pages(&dmab);
}
trident->synth.current_size -= size;
if (trident->synth.current_size < 0) /* shouldn't need this check... */
trident->synth.current_size = 0;
return 0;
}
static void select_instrument(struct snd_trident * trident, struct snd_trident_voice * v)
{
struct snd_seq_kinstr *instr;
instr = snd_seq_instr_find(trident->synth.ilist, &v->instr, 0, 1);
if (instr != NULL) {
if (instr->ops) {
if (!strcmp(instr->ops->instr_type, SNDRV_SEQ_INSTR_ID_SIMPLE))
snd_trident_simple_init(v);
}
snd_seq_instr_free_use(trident->synth.ilist, instr);
}
}
/*
*/
static void event_sample(struct snd_seq_event * ev, struct snd_trident_port * p, struct snd_trident_voice * v)
{
if (v->sample_ops && v->sample_ops->sample_stop)
v->sample_ops->sample_stop(p->trident, v, SAMPLE_STOP_IMMEDIATELY);
v->instr.std = ev->data.sample.param.sample.std;
if (v->instr.std & 0xff000000) { /* private instrument */
v->instr.std &= 0x00ffffff;
v->instr.std |= (unsigned int)ev->source.client << 24;
}
v->instr.bank = ev->data.sample.param.sample.bank;
v->instr.prg = ev->data.sample.param.sample.prg;
select_instrument(p->trident, v);
}
static void event_cluster(struct snd_seq_event * ev, struct snd_trident_port * p, struct snd_trident_voice * v)
{
if (v->sample_ops && v->sample_ops->sample_stop)
v->sample_ops->sample_stop(p->trident, v, SAMPLE_STOP_IMMEDIATELY);
v->instr.cluster = ev->data.sample.param.cluster.cluster;
select_instrument(p->trident, v);
}
static void event_start(struct snd_seq_event * ev, struct snd_trident_port * p, struct snd_trident_voice * v)
{
if (v->sample_ops && v->sample_ops->sample_start)
v->sample_ops->sample_start(p->trident, v, ev->data.sample.param.position);
}
static void event_stop(struct snd_seq_event * ev, struct snd_trident_port * p, struct snd_trident_voice * v)
{
if (v->sample_ops && v->sample_ops->sample_stop)
v->sample_ops->sample_stop(p->trident, v, ev->data.sample.param.stop_mode);
}
static void event_freq(struct snd_seq_event * ev, struct snd_trident_port * p, struct snd_trident_voice * v)
{
if (v->sample_ops && v->sample_ops->sample_freq)
v->sample_ops->sample_freq(p->trident, v, ev->data.sample.param.frequency);
}
static void event_volume(struct snd_seq_event * ev, struct snd_trident_port * p, struct snd_trident_voice * v)
{
if (v->sample_ops && v->sample_ops->sample_volume)
v->sample_ops->sample_volume(p->trident, v, &ev->data.sample.param.volume);
}
static void event_loop(struct snd_seq_event * ev, struct snd_trident_port * p, struct snd_trident_voice * v)
{
if (v->sample_ops && v->sample_ops->sample_loop)
v->sample_ops->sample_loop(p->trident, v, &ev->data.sample.param.loop);
}
static void event_position(struct snd_seq_event * ev, struct snd_trident_port * p, struct snd_trident_voice * v)
{
if (v->sample_ops && v->sample_ops->sample_pos)
v->sample_ops->sample_pos(p->trident, v, ev->data.sample.param.position);
}
static void event_private1(struct snd_seq_event * ev, struct snd_trident_port * p, struct snd_trident_voice * v)
{
if (v->sample_ops && v->sample_ops->sample_private1)
v->sample_ops->sample_private1(p->trident, v, (unsigned char *) &ev->data.sample.param.raw8);
}
typedef void (trident_sample_event_handler_t) (struct snd_seq_event * ev, struct snd_trident_port * p, struct snd_trident_voice * v);
static trident_sample_event_handler_t *trident_sample_event_handlers[9] =
{
event_sample,
event_cluster,
event_start,
event_stop,
event_freq,
event_volume,
event_loop,
event_position,
event_private1
};
static void snd_trident_sample_event(struct snd_seq_event * ev, struct snd_trident_port * p)
{
int idx, voice;
struct snd_trident *trident = p->trident;
struct snd_trident_voice *v;
unsigned long flags;
idx = ev->type - SNDRV_SEQ_EVENT_SAMPLE;
if (idx < 0 || idx > 8)
return;
for (voice = 0; voice < 64; voice++) {
v = &trident->synth.voices[voice];
if (v->use && v->client == ev->source.client &&
v->port == ev->source.port &&
v->index == ev->data.sample.channel) {
spin_lock_irqsave(&trident->event_lock, flags);
trident_sample_event_handlers[idx] (ev, p, v);
spin_unlock_irqrestore(&trident->event_lock, flags);
return;
}
}
}
/*
*/
static void snd_trident_synth_free_voices(struct snd_trident * trident, int client, int port)
{
int idx;
struct snd_trident_voice *voice;
for (idx = 0; idx < 32; idx++) {
voice = &trident->synth.voices[idx];
if (voice->use && voice->client == client && voice->port == port)
snd_trident_free_voice(trident, voice);
}
}
static int snd_trident_synth_use(void *private_data, struct snd_seq_port_subscribe * info)
{
struct snd_trident_port *port = private_data;
struct snd_trident *trident = port->trident;
struct snd_trident_voice *voice;
unsigned int idx;
unsigned long flags;
if (info->voices > 32)
return -EINVAL;
spin_lock_irqsave(&trident->reg_lock, flags);
for (idx = 0; idx < info->voices; idx++) {
voice = snd_trident_alloc_voice(trident, SNDRV_TRIDENT_VOICE_TYPE_SYNTH, info->sender.client, info->sender.port);
if (voice == NULL) {
snd_trident_synth_free_voices(trident, info->sender.client, info->sender.port);
spin_unlock_irqrestore(&trident->reg_lock, flags);
return -EBUSY;
}
voice->index = idx;
voice->Vol = 0x3ff;
voice->EC = 0x0fff;
}
#if 0
for (idx = 0; idx < info->midi_voices; idx++) {
port->midi_has_voices = 1;
voice = snd_trident_alloc_voice(trident, SNDRV_TRIDENT_VOICE_TYPE_MIDI, info->sender.client, info->sender.port);
if (voice == NULL) {
snd_trident_synth_free_voices(trident, info->sender.client, info->sender.port);
spin_unlock_irqrestore(&trident->reg_lock, flags);
return -EBUSY;
}
voice->Vol = 0x3ff;
voice->EC = 0x0fff;
}
#endif
spin_unlock_irqrestore(&trident->reg_lock, flags);
return 0;
}
static int snd_trident_synth_unuse(void *private_data, struct snd_seq_port_subscribe * info)
{
struct snd_trident_port *port = private_data;
struct snd_trident *trident = port->trident;
unsigned long flags;
spin_lock_irqsave(&trident->reg_lock, flags);
snd_trident_synth_free_voices(trident, info->sender.client, info->sender.port);
spin_unlock_irqrestore(&trident->reg_lock, flags);
return 0;
}
/*
*/
static void snd_trident_synth_free_private_instruments(struct snd_trident_port * p, int client)
{
struct snd_seq_instr_header ifree;
memset(&ifree, 0, sizeof(ifree));
ifree.cmd = SNDRV_SEQ_INSTR_FREE_CMD_PRIVATE;
snd_seq_instr_list_free_cond(p->trident->synth.ilist, &ifree, client, 0);
}
static int snd_trident_synth_event_input(struct snd_seq_event * ev, int direct, void *private_data, int atomic, int hop)
{
struct snd_trident_port *p = (struct snd_trident_port *) private_data;
if (p == NULL)
return -EINVAL;
if (ev->type >= SNDRV_SEQ_EVENT_SAMPLE &&
ev->type <= SNDRV_SEQ_EVENT_SAMPLE_PRIVATE1) {
snd_trident_sample_event(ev, p);
return 0;
}
if (ev->source.client == SNDRV_SEQ_CLIENT_SYSTEM &&
ev->source.port == SNDRV_SEQ_PORT_SYSTEM_ANNOUNCE) {
if (ev->type == SNDRV_SEQ_EVENT_CLIENT_EXIT) {
snd_trident_synth_free_private_instruments(p, ev->data.addr.client);
return 0;
}
}
if (direct) {
if (ev->type >= SNDRV_SEQ_EVENT_INSTR_BEGIN) {
snd_seq_instr_event(&p->trident->synth.simple_ops.kops,
p->trident->synth.ilist, ev,
p->trident->synth.seq_client, atomic, hop);
return 0;
}
}
return 0;
}
static void snd_trident_synth_instr_notify(void *private_data,
struct snd_seq_kinstr * instr,
int what)
{
int idx;
struct snd_trident *trident = private_data;
struct snd_trident_voice *pvoice;
unsigned long flags;
spin_lock_irqsave(&trident->event_lock, flags);
for (idx = 0; idx < 64; idx++) {
pvoice = &trident->synth.voices[idx];
if (pvoice->use && !memcmp(&pvoice->instr, &instr->instr, sizeof(pvoice->instr))) {
if (pvoice->sample_ops && pvoice->sample_ops->sample_stop) {
pvoice->sample_ops->sample_stop(trident, pvoice, SAMPLE_STOP_IMMEDIATELY);
} else {
snd_trident_stop_voice(trident, pvoice->number);
pvoice->flags &= ~SNDRV_TRIDENT_VFLG_RUNNING;
}
}
}
spin_unlock_irqrestore(&trident->event_lock, flags);
}
/*
*/
static void snd_trident_synth_free_port(void *private_data)
{
struct snd_trident_port *p = (struct snd_trident_port *) private_data;
if (p)
snd_midi_channel_free_set(p->chset);
}
static int snd_trident_synth_create_port(struct snd_trident * trident, int idx)
{
struct snd_trident_port *p;
struct snd_seq_port_callback callbacks;
char name[32];
char *str;
int result;
p = &trident->synth.seq_ports[idx];
p->chset = snd_midi_channel_alloc_set(16);
if (p->chset == NULL)
return -ENOMEM;
p->chset->private_data = p;
p->trident = trident;
p->client = trident->synth.seq_client;
memset(&callbacks, 0, sizeof(callbacks));
callbacks.owner = THIS_MODULE;
callbacks.use = snd_trident_synth_use;
callbacks.unuse = snd_trident_synth_unuse;
callbacks.event_input = snd_trident_synth_event_input;
callbacks.private_free = snd_trident_synth_free_port;
callbacks.private_data = p;
str = "???";
switch (trident->device) {
case TRIDENT_DEVICE_ID_DX: str = "Trident 4DWave-DX"; break;
case TRIDENT_DEVICE_ID_NX: str = "Trident 4DWave-NX"; break;
case TRIDENT_DEVICE_ID_SI7018: str = "SiS 7018"; break;
}
sprintf(name, "%s port %i", str, idx);
p->chset->port = snd_seq_event_port_attach(trident->synth.seq_client,
&callbacks,
SNDRV_SEQ_PORT_CAP_WRITE | SNDRV_SEQ_PORT_CAP_SUBS_WRITE,
SNDRV_SEQ_PORT_TYPE_DIRECT_SAMPLE |
SNDRV_SEQ_PORT_TYPE_SYNTH |
SNDRV_SEQ_PORT_TYPE_HARDWARE |
SNDRV_SEQ_PORT_TYPE_SYNTHESIZER,
16, 0,
name);
if (p->chset->port < 0) {
result = p->chset->port;
snd_trident_synth_free_port(p);
return result;
}
p->port = p->chset->port;
return 0;
}
/*
*/
static int snd_trident_synth_new_device(struct snd_seq_device *dev)
{
struct snd_trident *trident;
int client, i;
struct snd_seq_port_subscribe sub;
struct snd_simple_ops *simpleops;
char *str;
trident = *(struct snd_trident **)SNDRV_SEQ_DEVICE_ARGPTR(dev);
if (trident == NULL)
return -EINVAL;
trident->synth.seq_client = -1;
/* allocate new client */
str = "???";
switch (trident->device) {
case TRIDENT_DEVICE_ID_DX: str = "Trident 4DWave-DX"; break;
case TRIDENT_DEVICE_ID_NX: str = "Trident 4DWave-NX"; break;
case TRIDENT_DEVICE_ID_SI7018: str = "SiS 7018"; break;
}
client = trident->synth.seq_client =
snd_seq_create_kernel_client(trident->card, 1, str);
if (client < 0)
return client;
for (i = 0; i < 4; i++)
snd_trident_synth_create_port(trident, i);
trident->synth.ilist = snd_seq_instr_list_new();
if (trident->synth.ilist == NULL) {
snd_seq_delete_kernel_client(client);
trident->synth.seq_client = -1;
return -ENOMEM;
}
trident->synth.ilist->flags = SNDRV_SEQ_INSTR_FLG_DIRECT;
simpleops = &trident->synth.simple_ops;
snd_seq_simple_init(simpleops, trident, NULL);
simpleops->put_sample = snd_trident_simple_put_sample;
simpleops->get_sample = snd_trident_simple_get_sample;
simpleops->remove_sample = snd_trident_simple_remove_sample;
simpleops->notify = snd_trident_synth_instr_notify;
memset(&sub, 0, sizeof(sub));
sub.sender.client = SNDRV_SEQ_CLIENT_SYSTEM;
sub.sender.port = SNDRV_SEQ_PORT_SYSTEM_ANNOUNCE;
sub.dest.client = client;
sub.dest.port = 0;
snd_seq_kernel_client_ctl(client, SNDRV_SEQ_IOCTL_SUBSCRIBE_PORT, &sub);
return 0;
}
static int snd_trident_synth_delete_device(struct snd_seq_device *dev)
{
struct snd_trident *trident;
trident = *(struct snd_trident **)SNDRV_SEQ_DEVICE_ARGPTR(dev);
if (trident == NULL)
return -EINVAL;
if (trident->synth.seq_client >= 0) {
snd_seq_delete_kernel_client(trident->synth.seq_client);
trident->synth.seq_client = -1;
}
if (trident->synth.ilist)
snd_seq_instr_list_free(&trident->synth.ilist);
return 0;
}
static int __init alsa_trident_synth_init(void)
{
static struct snd_seq_dev_ops ops =
{
snd_trident_synth_new_device,
snd_trident_synth_delete_device
};
return snd_seq_device_register_driver(SNDRV_SEQ_DEV_ID_TRIDENT, &ops,
sizeof(struct snd_trident *));
}
static void __exit alsa_trident_synth_exit(void)
{
snd_seq_device_unregister_driver(SNDRV_SEQ_DEV_ID_TRIDENT);
}
module_init(alsa_trident_synth_init)
module_exit(alsa_trident_synth_exit)
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