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2622 2623 2624 2625 2626 2627 2628 2629 2630 2631 2632 2633 2634 2635 2636 2637 2638 2639 2640 2641 2642 2643 2644 2645 2646 2647 2648 2649 2650 2651 2652 2653 2654 2655 2656 2657 2658 2659 2660 2661 2662 2663 2664 2665 2666 2667 2668 2669 2670 2671 2672 2673 2674 2675 2676 2677 2678 2679 2680 2681 2682 2683 2684 2685 2686 2687 2688 2689 2690 2691 2692 2693 2694 2695 2696 2697 2698 2699 2700 2701 2702 2703 2704 2705 | /* * sound/ad1848.c * * The low level driver for the AD1848/CS4248 codec chip which * is used for example in the MS Sound System. * * The CS4231 which is used in the GUS MAX and some other cards is * upwards compatible with AD1848 and this driver is able to drive it. * * CS4231A and AD1845 are upward compatible with CS4231. However * the new features of these chips are different. * * CS4232 is a PnP audio chip which contains a CS4231A (and SB, MPU). * CS4232A is an improved version of CS4232. * * * * Copyright (C) by Hannu Savolainen 1993-1997 * * OSS/Free for Linux is distributed under the GNU GENERAL PUBLIC LICENSE (GPL) * Version 2 (June 1991). See the "COPYING" file distributed with this software * for more info. * * * Thomas Sailer : ioctl code reworked (vmalloc/vfree removed) * general sleep/wakeup clean up. * Alan Cox : reformatted. Fixed SMP bugs. Moved to kernel alloc/free * of irqs. Use dev_id. * * Status: * Tested. Believed fully functional. */ #include <linux/config.h> #include <linux/module.h> #include <linux/stddef.h> #include "soundmodule.h" #define DEB(x) #define DEB1(x) #include "sound_config.h" #ifdef CONFIG_AD1848 #include "ad1848_mixer.h" typedef struct { int base; int irq; int dma1, dma2; int dual_dma; /* 1, when two DMA channels allocated */ unsigned char MCE_bit; unsigned char saved_regs[32]; int debug_flag; int audio_flags; int record_dev, playback_dev; int xfer_count; int audio_mode; int open_mode; int intr_active; char *chip_name, *name; int model; #define MD_1848 1 #define MD_4231 2 #define MD_4231A 3 #define MD_1845 4 #define MD_4232 5 #define MD_C930 6 #define MD_IWAVE 7 #define MD_4235 8 /* Crystal Audio CS4235 */ /* Mixer parameters */ int recmask; int supported_devices, orig_devices; int supported_rec_devices, orig_rec_devices; int *levels; short mixer_reroute[32]; int dev_no; volatile unsigned long timer_ticks; int timer_running; int irq_ok; mixer_ents *mix_devices; int mixer_output_port; } ad1848_info; typedef struct ad1848_port_info { int open_mode; int speed; unsigned char speed_bits; int channels; int audio_format; unsigned char format_bits; } ad1848_port_info; static int nr_ad1848_devs = 0; int deskpro_xl = 0; #ifdef CONFIG_SOUND_SPRO int soundpro = 1; #else int soundpro = 0; #endif static volatile char irq2dev[17] = { -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1 }; #if defined(CONFIG_SEQUENCER) && !defined(EXCLUDE_TIMERS) || defined(MODULE) static int timer_installed = -1; #endif static int ad_format_mask[9 /*devc->model */ ] = { 0, AFMT_U8 | AFMT_S16_LE | AFMT_MU_LAW | AFMT_A_LAW, AFMT_U8 | AFMT_S16_LE | AFMT_MU_LAW | AFMT_A_LAW | AFMT_S16_BE | AFMT_IMA_ADPCM, AFMT_U8 | AFMT_S16_LE | AFMT_MU_LAW | AFMT_A_LAW | AFMT_S16_BE | AFMT_IMA_ADPCM, AFMT_U8 | AFMT_S16_LE | AFMT_MU_LAW | AFMT_A_LAW, /* AD1845 */ AFMT_U8 | AFMT_S16_LE | AFMT_MU_LAW | AFMT_A_LAW | AFMT_S16_BE | AFMT_IMA_ADPCM, AFMT_U8 | AFMT_S16_LE | AFMT_MU_LAW | AFMT_A_LAW | AFMT_S16_BE | AFMT_IMA_ADPCM, AFMT_U8 | AFMT_S16_LE | AFMT_MU_LAW | AFMT_A_LAW | AFMT_S16_BE | AFMT_IMA_ADPCM, AFMT_U8 | AFMT_S16_LE /* CS4235 */ }; static ad1848_info adev_info[MAX_AUDIO_DEV]; #define io_Index_Addr(d) ((d)->base) #define io_Indexed_Data(d) ((d)->base+1) #define io_Status(d) ((d)->base+2) #define io_Polled_IO(d) ((d)->base+3) static struct { unsigned char flags; #define CAP_F_TIMER 0x01 } capabilities [9 /*devc->model */ ] = { {0} ,{0} /* MD_1848 */ ,{CAP_F_TIMER} /* MD_4231 */ ,{CAP_F_TIMER} /* MD_4231A */ ,{CAP_F_TIMER} /* MD_1845 */ ,{CAP_F_TIMER} /* MD_4232 */ ,{0} /* MD_C930 */ ,{CAP_F_TIMER} /* MD_IWAVE */ ,{0} /* MD_4235 */ }; static int ad1848_open(int dev, int mode); static void ad1848_close(int dev); static void ad1848_output_block(int dev, unsigned long buf, int count, int intrflag); static void ad1848_start_input(int dev, unsigned long buf, int count, int intrflag); static int ad1848_prepare_for_output(int dev, int bsize, int bcount); static int ad1848_prepare_for_input(int dev, int bsize, int bcount); static void ad1848_halt(int dev); static void ad1848_halt_input(int dev); static void ad1848_halt_output(int dev); static void ad1848_trigger(int dev, int bits); #if defined(CONFIG_SEQUENCER) && !defined(EXCLUDE_TIMERS) static int ad1848_tmr_install(int dev); static void ad1848_tmr_reprogram(int dev); #endif static int ad_read(ad1848_info * devc, int reg) { unsigned long flags; int x; int timeout = 900000; while (timeout > 0 && inb(devc->base) == 0x80) /*Are we initializing */ timeout--; save_flags(flags); cli(); outb(((unsigned char) (reg & 0xff) | devc->MCE_bit), io_Index_Addr(devc)); x = inb(io_Indexed_Data(devc)); /* printk("(%02x<-%02x) ", reg|devc->MCE_bit, x); */ restore_flags(flags); return x; } static void ad_write(ad1848_info * devc, int reg, int data) { unsigned long flags; int timeout = 900000; while (timeout > 0 && inb(devc->base) == 0x80) /* Are we initializing */ timeout--; save_flags(flags); cli(); outb(((unsigned char) (reg & 0xff) | devc->MCE_bit), io_Index_Addr(devc)); outb(((unsigned char) (data & 0xff)), io_Indexed_Data(devc)); /* printk("(%02x->%02x) ", reg|devc->MCE_bit, data); */ restore_flags(flags); } static void wait_for_calibration(ad1848_info * devc) { int timeout = 0; /* * Wait until the auto calibration process has finished. * * 1) Wait until the chip becomes ready (reads don't return 0x80). * 2) Wait until the ACI bit of I11 gets on and then off. */ timeout = 100000; while (timeout > 0 && inb(devc->base) == 0x80) timeout--; if (inb(devc->base) & 0x80) printk(KERN_WARNING "ad1848: Auto calibration timed out(1).\n"); timeout = 100; while (timeout > 0 && !(ad_read(devc, 11) & 0x20)) timeout--; if (!(ad_read(devc, 11) & 0x20)) return; timeout = 80000; while (timeout > 0 && (ad_read(devc, 11) & 0x20)) timeout--; if (ad_read(devc, 11) & 0x20) if (devc->model != MD_1845) printk(KERN_WARNING "ad1848: Auto calibration timed out(3).\n"); } static void ad_mute(ad1848_info * devc) { int i; unsigned char prev; /* * Save old register settings and mute output channels */ for (i = 6; i < 8; i++) { prev = devc->saved_regs[i] = ad_read(devc, i); } } static void ad_unmute(ad1848_info * devc) { } static void ad_enter_MCE(ad1848_info * devc) { unsigned long flags; int timeout = 1000; unsigned short prev; while (timeout > 0 && inb(devc->base) == 0x80) /*Are we initializing */ timeout--; save_flags(flags); cli(); devc->MCE_bit = 0x40; prev = inb(io_Index_Addr(devc)); if (prev & 0x40) { restore_flags(flags); return; } outb((devc->MCE_bit), io_Index_Addr(devc)); restore_flags(flags); } static void ad_leave_MCE(ad1848_info * devc) { unsigned long flags; unsigned char prev, acal; int timeout = 1000; while (timeout > 0 && inb(devc->base) == 0x80) /*Are we initializing */ timeout--; save_flags(flags); cli(); acal = ad_read(devc, 9); devc->MCE_bit = 0x00; prev = inb(io_Index_Addr(devc)); outb((0x00), io_Index_Addr(devc)); /* Clear the MCE bit */ if ((prev & 0x40) == 0) /* Not in MCE mode */ { restore_flags(flags); return; } outb((0x00), io_Index_Addr(devc)); /* Clear the MCE bit */ if (acal & 0x08) /* Auto calibration is enabled */ wait_for_calibration(devc); restore_flags(flags); } static int ad1848_set_recmask(ad1848_info * devc, int mask) { unsigned char recdev; int i, n; mask &= devc->supported_rec_devices; /* Rename the mixer bits if necessary */ for (i = 0; i < 32; i++) { if (devc->mixer_reroute[i] != i) { if (mask & (1 << i)) { mask &= ~(1 << i); mask |= (1 << devc->mixer_reroute[i]); } } } n = 0; for (i = 0; i < 32; i++) /* Count selected device bits */ if (mask & (1 << i)) n++; if (!soundpro) { if (n == 0) mask = SOUND_MASK_MIC; else if (n != 1) { /* Too many devices selected */ mask &= ~devc->recmask; /* Filter out active settings */ n = 0; for (i = 0; i < 32; i++) /* Count selected device bits */ if (mask & (1 << i)) n++; if (n != 1) mask = SOUND_MASK_MIC; } switch (mask) { case SOUND_MASK_MIC: recdev = 2; break; case SOUND_MASK_LINE: case SOUND_MASK_LINE3: recdev = 0; break; case SOUND_MASK_CD: case SOUND_MASK_LINE1: recdev = 1; break; case SOUND_MASK_IMIX: recdev = 3; break; default: mask = SOUND_MASK_MIC; recdev = 2; } recdev <<= 6; ad_write(devc, 0, (ad_read(devc, 0) & 0x3f) | recdev); ad_write(devc, 1, (ad_read(devc, 1) & 0x3f) | recdev); } else { /* soundpro */ unsigned char val; int set_rec_bit; int j; for (i = 0; i < 32; i++) { /* For each bit */ if ((devc->supported_rec_devices & (1 << i)) == 0) continue; /* Device not supported */ for (j = LEFT_CHN; j <= RIGHT_CHN; j++) { if (devc->mix_devices[i][j].nbits == 0) /* Inexistent channel */ continue; /* * This is tricky: * set_rec_bit becomes 1 if the corresponding bit in mask is set * then it gets flipped if the polarity is inverse */ set_rec_bit = ((mask & (1 << i)) != 0) ^ devc->mix_devices[i][j].recpol; val = ad_read(devc, devc->mix_devices[i][j].recreg); val &= ~(1 << devc->mix_devices[i][j].recpos); val |= (set_rec_bit << devc->mix_devices[i][j].recpos); ad_write(devc, devc->mix_devices[i][j].recreg, val); } } } /* Rename the mixer bits back if necessary */ for (i = 0; i < 32; i++) { if (devc->mixer_reroute[i] != i) { if (mask & (1 << devc->mixer_reroute[i])) { mask &= ~(1 << devc->mixer_reroute[i]); mask |= (1 << i); } } } devc->recmask = mask; return mask; } static void change_bits(ad1848_info * devc, unsigned char *regval, unsigned char *muteval, int dev, int chn, int newval) { unsigned char mask; int shift; int mute; int mutemask; int set_mute_bit; set_mute_bit = (newval == 0) ^ devc->mix_devices[dev][chn].mutepol; if (devc->mix_devices[dev][chn].polarity == 1) /* Reverse */ newval = 100 - newval; mask = (1 << devc->mix_devices[dev][chn].nbits) - 1; shift = devc->mix_devices[dev][chn].bitpos; if (devc->mix_devices[dev][chn].mutepos == 8) { /* if there is no mute bit */ mute = 0; /* No mute bit; do nothing special */ mutemask = ~0; /* No mute bit; do nothing special */ } else { mute = (set_mute_bit << devc->mix_devices[dev][chn].mutepos); mutemask = ~(1 << devc->mix_devices[dev][chn].mutepos); } newval = (int) ((newval * mask) + 50) / 100; /* Scale it */ *regval &= ~(mask << shift); /* Clear bits */ *regval |= (newval & mask) << shift; /* Set new value */ *muteval &= mutemask; *muteval |= mute; } static int ad1848_mixer_get(ad1848_info * devc, int dev) { if (!((1 << dev) & devc->supported_devices)) return -EINVAL; dev = devc->mixer_reroute[dev]; return devc->levels[dev]; } static void ad1848_mixer_set_channel(ad1848_info *devc, int dev, int value, int channel) { int regoffs, muteregoffs; unsigned char val, muteval; regoffs = devc->mix_devices[dev][channel].regno; muteregoffs = devc->mix_devices[dev][channel].mutereg; val = ad_read(devc, regoffs); if (muteregoffs != regoffs) { muteval = ad_read(devc, muteregoffs); change_bits(devc, &val, &muteval, dev, channel, value); } else change_bits(devc, &val, &val, dev, channel, value); ad_write(devc, regoffs, val); devc->saved_regs[regoffs] = val; if (muteregoffs != regoffs) { ad_write(devc, muteregoffs, muteval); devc->saved_regs[muteregoffs] = muteval; } } static int ad1848_mixer_set(ad1848_info * devc, int dev, int value) { int left = value & 0x000000ff; int right = (value & 0x0000ff00) >> 8; int retvol; if (dev > 31) return -EINVAL; if (!(devc->supported_devices & (1 << dev))) return -EINVAL; dev = devc->mixer_reroute[dev]; if (devc->mix_devices[dev][LEFT_CHN].nbits == 0) return -EINVAL; if (left > 100) left = 100; if (right > 100) right = 100; if (devc->mix_devices[dev][RIGHT_CHN].nbits == 0) /* Mono control */ right = left; retvol = left | (right << 8); /* Scale volumes */ left = mix_cvt[left]; right = mix_cvt[right]; devc->levels[dev] = retvol; /* * Set the left channel */ ad1848_mixer_set_channel(devc, dev, left, LEFT_CHN); /* * Set the right channel */ if (devc->mix_devices[dev][RIGHT_CHN].nbits == 0) goto out; ad1848_mixer_set_channel(devc, dev, right, RIGHT_CHN); out: return retvol; } static void ad1848_mixer_reset(ad1848_info * devc) { int i; char name[32]; devc->mix_devices = &(ad1848_mix_devices[0]); sprintf(name, "%s_%d", devc->chip_name, nr_ad1848_devs); for (i = 0; i < 32; i++) devc->mixer_reroute[i] = i; devc->supported_rec_devices = MODE1_REC_DEVICES; switch (devc->model) { case MD_4231: case MD_4231A: case MD_1845: devc->supported_devices = MODE2_MIXER_DEVICES; break; case MD_C930: devc->supported_devices = C930_MIXER_DEVICES; devc->mix_devices = &(c930_mix_devices[0]); break; case MD_IWAVE: devc->supported_devices = MODE3_MIXER_DEVICES; devc->mix_devices = &(iwave_mix_devices[0]); break; case MD_4232: devc->supported_devices = MODE3_MIXER_DEVICES; break; case MD_1848: if (soundpro) { devc->supported_devices = SPRO_MIXER_DEVICES; devc->supported_rec_devices = SPRO_REC_DEVICES; devc->mix_devices = &(spro_mix_devices[0]); break; } default: devc->supported_devices = MODE1_MIXER_DEVICES; } devc->orig_devices = devc->supported_devices; devc->orig_rec_devices = devc->supported_rec_devices; devc->levels = load_mixer_volumes(name, default_mixer_levels, 1); for (i = 0; i < SOUND_MIXER_NRDEVICES; i++) { if (devc->supported_devices & (1 << i)) ad1848_mixer_set(devc, i, devc->levels[i]); } ad1848_set_recmask(devc, SOUND_MASK_MIC); devc->mixer_output_port = devc->levels[31] | AUDIO_HEADPHONE | AUDIO_LINE_OUT; if (!soundpro) { if (devc->mixer_output_port & AUDIO_SPEAKER) ad_write(devc, 26, ad_read(devc, 26) & ~0x40); /* Unmute mono out */ else ad_write(devc, 26, ad_read(devc, 26) | 0x40); /* Mute mono out */ } else { /* * From the "wouldn't it be nice if the mixer API had (better) * support for custom stuff" category */ /* Enable surround mode and SB16 mixer */ ad_write(devc, 16, 0x60); } } static int ad1848_mixer_ioctl(int dev, unsigned int cmd, caddr_t arg) { ad1848_info *devc = mixer_devs[dev]->devc; int val; if (cmd == SOUND_MIXER_PRIVATE1) { if (get_user(val, (int *)arg)) return -EFAULT; if (val != 0xffff) { val &= (AUDIO_SPEAKER | AUDIO_HEADPHONE | AUDIO_LINE_OUT); devc->mixer_output_port = val; val |= AUDIO_HEADPHONE | AUDIO_LINE_OUT; /* Always on */ devc->mixer_output_port = val; if (val & AUDIO_SPEAKER) ad_write(devc, 26, ad_read(devc, 26) & ~0x40); /* Unmute mono out */ else ad_write(devc, 26, ad_read(devc, 26) | 0x40); /* Mute mono out */ } val = devc->mixer_output_port; return put_user(val, (int *)arg); } if (cmd == SOUND_MIXER_PRIVATE2) { if (get_user(val, (int *)arg)) return -EFAULT; return(ad1848_control(AD1848_MIXER_REROUTE, val)); } if (((cmd >> 8) & 0xff) == 'M') { if (_SIOC_DIR(cmd) & _SIOC_WRITE) { switch (cmd & 0xff) { case SOUND_MIXER_RECSRC: if (get_user(val, (int *)arg)) return -EFAULT; val = ad1848_set_recmask(devc, val); break; default: if (get_user(val, (int *)arg)) return -EFAULT; val = ad1848_mixer_set(devc, cmd & 0xff, val); break; } return put_user(val, (int *)arg); } else { switch (cmd & 0xff) { /* * Return parameters */ case SOUND_MIXER_RECSRC: val = devc->recmask; break; case SOUND_MIXER_DEVMASK: val = devc->supported_devices; break; case SOUND_MIXER_STEREODEVS: val = devc->supported_devices; if (devc->model != MD_C930) val &= ~(SOUND_MASK_SPEAKER | SOUND_MASK_IMIX); break; case SOUND_MIXER_RECMASK: val = devc->supported_rec_devices; break; case SOUND_MIXER_CAPS: val=SOUND_CAP_EXCL_INPUT; break; default: val = ad1848_mixer_get(devc, cmd & 0xff); break; } return put_user(val, (int *)arg); } } else return -EINVAL; } static int ad1848_set_speed(int dev, int arg) { ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; ad1848_port_info *portc = (ad1848_port_info *) audio_devs[dev]->portc; /* * The sampling speed is encoded in the least significant nibble of I8. The * LSB selects the clock source (0=24.576 MHz, 1=16.9344 MHz) and other * three bits select the divisor (indirectly): * * The available speeds are in the following table. Keep the speeds in * the increasing order. */ typedef struct { int speed; unsigned char bits; } speed_struct; static speed_struct speed_table[] = { {5510, (0 << 1) | 1}, {5510, (0 << 1) | 1}, {6620, (7 << 1) | 1}, {8000, (0 << 1) | 0}, {9600, (7 << 1) | 0}, {11025, (1 << 1) | 1}, {16000, (1 << 1) | 0}, {18900, (2 << 1) | 1}, {22050, (3 << 1) | 1}, {27420, (2 << 1) | 0}, {32000, (3 << 1) | 0}, {33075, (6 << 1) | 1}, {37800, (4 << 1) | 1}, {44100, (5 << 1) | 1}, {48000, (6 << 1) | 0} }; int i, n, selected = -1; n = sizeof(speed_table) / sizeof(speed_struct); if (arg <= 0) return portc->speed; if (devc->model == MD_1845) /* AD1845 has different timer than others */ { if (arg < 4000) arg = 4000; if (arg > 50000) arg = 50000; portc->speed = arg; portc->speed_bits = speed_table[3].bits; return portc->speed; } if (arg < speed_table[0].speed) selected = 0; if (arg > speed_table[n - 1].speed) selected = n - 1; for (i = 1 /*really */ ; selected == -1 && i < n; i++) { if (speed_table[i].speed == arg) selected = i; else if (speed_table[i].speed > arg) { int diff1, diff2; diff1 = arg - speed_table[i - 1].speed; diff2 = speed_table[i].speed - arg; if (diff1 < diff2) selected = i - 1; else selected = i; } } if (selected == -1) { printk(KERN_WARNING "ad1848: Can't find speed???\n"); selected = 3; } portc->speed = speed_table[selected].speed; portc->speed_bits = speed_table[selected].bits; return portc->speed; } static short ad1848_set_channels(int dev, short arg) { ad1848_port_info *portc = (ad1848_port_info *) audio_devs[dev]->portc; if (arg != 1 && arg != 2) return portc->channels; portc->channels = arg; return arg; } static unsigned int ad1848_set_bits(int dev, unsigned int arg) { ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; ad1848_port_info *portc = (ad1848_port_info *) audio_devs[dev]->portc; static struct format_tbl { int format; unsigned char bits; } format2bits[] = { { 0, 0 } , { AFMT_MU_LAW, 1 } , { AFMT_A_LAW, 3 } , { AFMT_IMA_ADPCM, 5 } , { AFMT_U8, 0 } , { AFMT_S16_LE, 2 } , { AFMT_S16_BE, 6 } , { AFMT_S8, 0 } , { AFMT_U16_LE, 0 } , { AFMT_U16_BE, 0 } }; int i, n = sizeof(format2bits) / sizeof(struct format_tbl); if (arg == 0) return portc->audio_format; if (!(arg & ad_format_mask[devc->model])) arg = AFMT_U8; portc->audio_format = arg; for (i = 0; i < n; i++) if (format2bits[i].format == arg) { if ((portc->format_bits = format2bits[i].bits) == 0) return portc->audio_format = AFMT_U8; /* Was not supported */ return arg; } /* Still hanging here. Something must be terribly wrong */ portc->format_bits = 0; return portc->audio_format = AFMT_U8; } static struct audio_driver ad1848_audio_driver = { ad1848_open, ad1848_close, ad1848_output_block, ad1848_start_input, NULL, ad1848_prepare_for_input, ad1848_prepare_for_output, ad1848_halt, NULL, NULL, ad1848_halt_input, ad1848_halt_output, ad1848_trigger, ad1848_set_speed, ad1848_set_bits, ad1848_set_channels }; static struct mixer_operations ad1848_mixer_operations = { "SOUNDPORT", "AD1848/CS4248/CS4231", ad1848_mixer_ioctl }; static int ad1848_open(int dev, int mode) { ad1848_info *devc = NULL; ad1848_port_info *portc; unsigned long flags; if (dev < 0 || dev >= num_audiodevs) return -ENXIO; devc = (ad1848_info *) audio_devs[dev]->devc; portc = (ad1848_port_info *) audio_devs[dev]->portc; save_flags(flags); cli(); if (portc->open_mode || (devc->open_mode & mode)) { restore_flags(flags); return -EBUSY; } devc->dual_dma = 0; if (audio_devs[dev]->flags & DMA_DUPLEX) { devc->dual_dma = 1; } devc->intr_active = 0; devc->audio_mode = 0; devc->open_mode |= mode; portc->open_mode = mode; ad1848_trigger(dev, 0); if (mode & OPEN_READ) devc->record_dev = dev; if (mode & OPEN_WRITE) devc->playback_dev = dev; restore_flags(flags); /* * Mute output until the playback really starts. This decreases clicking (hope so). */ ad_mute(devc); return 0; } static void ad1848_close(int dev) { unsigned long flags; ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; ad1848_port_info *portc = (ad1848_port_info *) audio_devs[dev]->portc; DEB(printk("ad1848_close(void)\n")); save_flags(flags); cli(); devc->intr_active = 0; ad1848_halt(dev); devc->audio_mode = 0; devc->open_mode &= ~portc->open_mode; portc->open_mode = 0; ad_unmute(devc); restore_flags(flags); } static void ad1848_output_block(int dev, unsigned long buf, int count, int intrflag) { unsigned long flags, cnt; ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; ad1848_port_info *portc = (ad1848_port_info *) audio_devs[dev]->portc; cnt = count; if (portc->audio_format == AFMT_IMA_ADPCM) { cnt /= 4; } else { if (portc->audio_format & (AFMT_S16_LE | AFMT_S16_BE)) /* 16 bit data */ cnt >>= 1; } if (portc->channels > 1) cnt >>= 1; cnt--; if ((devc->audio_mode & PCM_ENABLE_OUTPUT) && (audio_devs[dev]->flags & DMA_AUTOMODE) && intrflag && cnt == devc->xfer_count) { devc->audio_mode |= PCM_ENABLE_OUTPUT; devc->intr_active = 1; return; /* * Auto DMA mode on. No need to react */ } save_flags(flags); cli(); ad_write(devc, 15, (unsigned char) (cnt & 0xff)); ad_write(devc, 14, (unsigned char) ((cnt >> 8) & 0xff)); devc->xfer_count = cnt; devc->audio_mode |= PCM_ENABLE_OUTPUT; devc->intr_active = 1; restore_flags(flags); } static void ad1848_start_input(int dev, unsigned long buf, int count, int intrflag) { unsigned long flags, cnt; ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; ad1848_port_info *portc = (ad1848_port_info *) audio_devs[dev]->portc; cnt = count; if (portc->audio_format == AFMT_IMA_ADPCM) { cnt /= 4; } else { if (portc->audio_format & (AFMT_S16_LE | AFMT_S16_BE)) /* 16 bit data */ cnt >>= 1; } if (portc->channels > 1) cnt >>= 1; cnt--; if ((devc->audio_mode & PCM_ENABLE_INPUT) && (audio_devs[dev]->flags & DMA_AUTOMODE) && intrflag && cnt == devc->xfer_count) { devc->audio_mode |= PCM_ENABLE_INPUT; devc->intr_active = 1; return; /* * Auto DMA mode on. No need to react */ } save_flags(flags); cli(); if (devc->model == MD_1848) { ad_write(devc, 15, (unsigned char) (cnt & 0xff)); ad_write(devc, 14, (unsigned char) ((cnt >> 8) & 0xff)); } else { ad_write(devc, 31, (unsigned char) (cnt & 0xff)); ad_write(devc, 30, (unsigned char) ((cnt >> 8) & 0xff)); } ad_unmute(devc); devc->xfer_count = cnt; devc->audio_mode |= PCM_ENABLE_INPUT; devc->intr_active = 1; restore_flags(flags); } static int ad1848_prepare_for_output(int dev, int bsize, int bcount) { int timeout; unsigned char fs, old_fs, tmp = 0; unsigned long flags; ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; ad1848_port_info *portc = (ad1848_port_info *) audio_devs[dev]->portc; ad_mute(devc); save_flags(flags); cli(); fs = portc->speed_bits | (portc->format_bits << 5); if (portc->channels > 1) fs |= 0x10; ad_enter_MCE(devc); /* Enables changes to the format select reg */ if (devc->model == MD_1845) /* Use alternate speed select registers */ { fs &= 0xf0; /* Mask off the rate select bits */ ad_write(devc, 22, (portc->speed >> 8) & 0xff); /* Speed MSB */ ad_write(devc, 23, portc->speed & 0xff); /* Speed LSB */ } old_fs = ad_read(devc, 8); if (devc->model == MD_4232) { tmp = ad_read(devc, 16); ad_write(devc, 16, tmp | 0x30); } if (devc->model == MD_IWAVE) ad_write(devc, 17, 0xc2); /* Disable variable frequency select */ ad_write(devc, 8, fs); /* * Write to I8 starts resynchronization. Wait until it completes. */ timeout = 0; while (timeout < 100 && inb(devc->base) != 0x80) timeout++; timeout = 0; while (timeout < 10000 && inb(devc->base) == 0x80) timeout++; if (devc->model == MD_4232) ad_write(devc, 16, tmp & ~0x30); ad_leave_MCE(devc); /* * Starts the calibration process. */ restore_flags(flags); devc->xfer_count = 0; #if defined(CONFIG_SEQUENCER) && !defined(EXCLUDE_TIMERS) if (dev == timer_installed && devc->timer_running) if ((fs & 0x01) != (old_fs & 0x01)) { ad1848_tmr_reprogram(dev); } #endif ad1848_halt_output(dev); return 0; } static int ad1848_prepare_for_input(int dev, int bsize, int bcount) { int timeout; unsigned char fs, old_fs, tmp = 0; unsigned long flags; ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; ad1848_port_info *portc = (ad1848_port_info *) audio_devs[dev]->portc; if (devc->audio_mode) return 0; save_flags(flags); cli(); fs = portc->speed_bits | (portc->format_bits << 5); if (portc->channels > 1) fs |= 0x10; ad_enter_MCE(devc); /* Enables changes to the format select reg */ if (devc->model == MD_1845) /* Use alternate speed select registers */ { fs &= 0xf0; /* Mask off the rate select bits */ ad_write(devc, 22, (portc->speed >> 8) & 0xff); /* Speed MSB */ ad_write(devc, 23, portc->speed & 0xff); /* Speed LSB */ } if (devc->model == MD_4232) { tmp = ad_read(devc, 16); ad_write(devc, 16, tmp | 0x30); } if (devc->model == MD_IWAVE) ad_write(devc, 17, 0xc2); /* Disable variable frequency select */ /* * If mode >= 2 (CS4231), set I28. It's the capture format register. */ if (devc->model != MD_1848) { old_fs = ad_read(devc, 28); ad_write(devc, 28, fs); /* * Write to I28 starts resynchronization. Wait until it completes. */ timeout = 0; while (timeout < 100 && inb(devc->base) != 0x80) timeout++; timeout = 0; while (timeout < 10000 && inb(devc->base) == 0x80) timeout++; if (devc->model != MD_1848 && devc->model != MD_1845) { /* * CS4231 compatible devices don't have separate sampling rate selection * register for recording an playback. The I8 register is shared so we have to * set the speed encoding bits of it too. */ unsigned char tmp = portc->speed_bits | (ad_read(devc, 8) & 0xf0); ad_write(devc, 8, tmp); /* * Write to I8 starts resynchronization. Wait until it completes. */ timeout = 0; while (timeout < 100 && inb(devc->base) != 0x80) timeout++; timeout = 0; while (timeout < 10000 && inb(devc->base) == 0x80) timeout++; } } else { /* For AD1848 set I8. */ old_fs = ad_read(devc, 8); ad_write(devc, 8, fs); /* * Write to I8 starts resynchronization. Wait until it completes. */ timeout = 0; while (timeout < 100 && inb(devc->base) != 0x80) timeout++; timeout = 0; while (timeout < 10000 && inb(devc->base) == 0x80) timeout++; } if (devc->model == MD_4232) ad_write(devc, 16, tmp & ~0x30); ad_leave_MCE(devc); /* * Starts the calibration process. */ restore_flags(flags); devc->xfer_count = 0; #if defined(CONFIG_SEQUENCER) && !defined(EXCLUDE_TIMERS) if (dev == timer_installed && devc->timer_running) { if ((fs & 0x01) != (old_fs & 0x01)) { ad1848_tmr_reprogram(dev); } } #endif ad1848_halt_input(dev); return 0; } static void ad1848_halt(int dev) { ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; ad1848_port_info *portc = (ad1848_port_info *) audio_devs[dev]->portc; unsigned char bits = ad_read(devc, 9); if (bits & 0x01 && (portc->open_mode & OPEN_WRITE)) ad1848_halt_output(dev); if (bits & 0x02 && (portc->open_mode & OPEN_READ)) ad1848_halt_input(dev); devc->audio_mode = 0; } static void ad1848_halt_input(int dev) { ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; unsigned long flags; if (!(ad_read(devc, 9) & 0x02)) return; /* Capture not enabled */ save_flags(flags); cli(); ad_mute(devc); { int tmout; if(!isa_dma_bridge_buggy) disable_dma(audio_devs[dev]->dmap_in->dma); for (tmout = 0; tmout < 100000; tmout++) if (ad_read(devc, 11) & 0x10) break; ad_write(devc, 9, ad_read(devc, 9) & ~0x02); /* Stop capture */ if(!isa_dma_bridge_buggy) enable_dma(audio_devs[dev]->dmap_in->dma); devc->audio_mode &= ~PCM_ENABLE_INPUT; } outb(0, io_Status(devc)); /* Clear interrupt status */ outb(0, io_Status(devc)); /* Clear interrupt status */ devc->audio_mode &= ~PCM_ENABLE_INPUT; restore_flags(flags); } static void ad1848_halt_output(int dev) { ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; unsigned long flags; if (!(ad_read(devc, 9) & 0x01)) return; /* Playback not enabled */ save_flags(flags); cli(); ad_mute(devc); { int tmout; if(!isa_dma_bridge_buggy) disable_dma(audio_devs[dev]->dmap_out->dma); for (tmout = 0; tmout < 100000; tmout++) if (ad_read(devc, 11) & 0x10) break; ad_write(devc, 9, ad_read(devc, 9) & ~0x01); /* Stop playback */ if(!isa_dma_bridge_buggy) enable_dma(audio_devs[dev]->dmap_out->dma); devc->audio_mode &= ~PCM_ENABLE_OUTPUT; } outb((0), io_Status(devc)); /* Clear interrupt status */ outb((0), io_Status(devc)); /* Clear interrupt status */ devc->audio_mode &= ~PCM_ENABLE_OUTPUT; restore_flags(flags); } static void ad1848_trigger(int dev, int state) { ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; ad1848_port_info *portc = (ad1848_port_info *) audio_devs[dev]->portc; unsigned long flags; unsigned char tmp, old; save_flags(flags); cli(); state &= devc->audio_mode; tmp = old = ad_read(devc, 9); if (portc->open_mode & OPEN_READ) { if (state & PCM_ENABLE_INPUT) tmp |= 0x02; else tmp &= ~0x02; } if (portc->open_mode & OPEN_WRITE) { if (state & PCM_ENABLE_OUTPUT) tmp |= 0x01; else tmp &= ~0x01; } /* ad_mute(devc); */ if (tmp != old) { ad_write(devc, 9, tmp); ad_unmute(devc); } restore_flags(flags); } static void ad1848_init_hw(ad1848_info * devc) { int i; /* * Initial values for the indirect registers of CS4248/AD1848. */ static int init_values[] = { 0xa8, 0xa8, 0x08, 0x08, 0x08, 0x08, 0x00, 0x00, 0x00, 0x0c, 0x02, 0x00, 0x8a, 0x01, 0x00, 0x00, /* Positions 16 to 31 just for CS4231/2 and ad1845 */ 0x80, 0x00, 0x10, 0x10, 0x00, 0x00, 0x1f, 0x40, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; for (i = 0; i < 16; i++) ad_write(devc, i, init_values[i]); ad_mute(devc); /* Initialize some variables */ ad_unmute(devc); /* Leave it unmuted now */ if (devc->model > MD_1848) { ad_write(devc, 12, ad_read(devc, 12) | 0x40); /* Mode2 = enabled */ if (devc->model == MD_IWAVE) ad_write(devc, 12, 0x6c); /* Select codec mode 3 */ for (i = 16; i < 32; i++) ad_write(devc, i, init_values[i]); if (devc->model == MD_IWAVE) ad_write(devc, 16, 0x30); /* Playback and capture counters enabled */ } if (devc->model > MD_1848) { if (devc->audio_flags & DMA_DUPLEX) ad_write(devc, 9, ad_read(devc, 9) & ~0x04); /* Dual DMA mode */ else ad_write(devc, 9, ad_read(devc, 9) | 0x04); /* Single DMA mode */ if (devc->model == MD_1845) ad_write(devc, 27, ad_read(devc, 27) | 0x08); /* Alternate freq select enabled */ if (devc->model == MD_IWAVE) { /* Some magic Interwave specific initialization */ ad_write(devc, 12, 0x6c); /* Select codec mode 3 */ ad_write(devc, 16, 0x30); /* Playback and capture counters enabled */ ad_write(devc, 17, 0xc2); /* Alternate feature enable */ } } else { devc->audio_flags &= ~DMA_DUPLEX; ad_write(devc, 9, ad_read(devc, 9) | 0x04); /* Single DMA mode */ if (soundpro) ad_write(devc, 12, ad_read(devc, 12) | 0x40); /* Mode2 = enabled */ } outb((0), io_Status(devc)); /* Clear pending interrupts */ /* * Toggle the MCE bit. It completes the initialization phase. */ ad_enter_MCE(devc); /* In case the bit was off */ ad_leave_MCE(devc); ad1848_mixer_reset(devc); } int ad1848_detect(int io_base, int *ad_flags, int *osp) { unsigned char tmp; ad1848_info *devc = &adev_info[nr_ad1848_devs]; unsigned char tmp1 = 0xff, tmp2 = 0xff; int optiC930 = 0; /* OPTi 82C930 flag */ int interwave = 0; int ad1847_flag = 0; int cs4248_flag = 0; int i; DDB(printk("ad1848_detect(%x)\n", io_base)); if (ad_flags) { if (*ad_flags == 0x12345678) { interwave = 1; *ad_flags = 0; } if (*ad_flags == 0x12345677) { cs4248_flag = 1; *ad_flags = 0; } } if (nr_ad1848_devs >= MAX_AUDIO_DEV) { printk(KERN_ERR "ad1848 - Too many audio devices\n"); return 0; } if (check_region(io_base, 4)) { printk(KERN_ERR "ad1848.c: Port %x not free.\n", io_base); return 0; } devc->base = io_base; devc->irq_ok = 0; devc->timer_running = 0; devc->MCE_bit = 0x40; devc->irq = 0; devc->open_mode = 0; devc->chip_name = devc->name = "AD1848"; devc->model = MD_1848; /* AD1848 or CS4248 */ devc->levels = NULL; devc->debug_flag = 0; /* * Check that the I/O address is in use. * * The bit 0x80 of the base I/O port is known to be 0 after the * chip has performed its power on initialization. Just assume * this has happened before the OS is starting. * * If the I/O address is unused, it typically returns 0xff. */ if (inb(devc->base) == 0xff) { DDB(printk("ad1848_detect: The base I/O address appears to be dead\n")); } /* * Wait for the device to stop initialization */ DDB(printk("ad1848_detect() - step 0\n")); for (i = 0; i < 10000000; i++) { unsigned char x = inb(devc->base); if (x == 0xff || !(x & 0x80)) break; } DDB(printk("ad1848_detect() - step A\n")); if (inb(devc->base) == 0x80) /* Not ready. Let's wait */ ad_leave_MCE(devc); if ((inb(devc->base) & 0x80) != 0x00) /* Not a AD1848 */ { DDB(printk("ad1848 detect error - step A (%02x)\n", (int) inb(devc->base))); return 0; } /* * Test if it's possible to change contents of the indirect registers. * Registers 0 and 1 are ADC volume registers. The bit 0x10 is read only * so try to avoid using it. */ DDB(printk("ad1848_detect() - step B\n")); ad_write(devc, 0, 0xaa); ad_write(devc, 1, 0x45); /* 0x55 with bit 0x10 clear */ if ((tmp1 = ad_read(devc, 0)) != 0xaa || (tmp2 = ad_read(devc, 1)) != 0x45) { if (tmp2 == 0x65) /* AD1847 has couple of bits hardcoded to 1 */ ad1847_flag = 1; else { DDB(printk("ad1848 detect error - step B (%x/%x)\n", tmp1, tmp2)); return 0; } } DDB(printk("ad1848_detect() - step C\n")); ad_write(devc, 0, 0x45); ad_write(devc, 1, 0xaa); if ((tmp1 = ad_read(devc, 0)) != 0x45 || (tmp2 = ad_read(devc, 1)) != 0xaa) { if (tmp2 == 0x8a) /* AD1847 has few bits hardcoded to 1 */ ad1847_flag = 1; else { DDB(printk("ad1848 detect error - step C (%x/%x)\n", tmp1, tmp2)); return 0; } } /* * The indirect register I12 has some read only bits. Let's * try to change them. */ DDB(printk("ad1848_detect() - step D\n")); tmp = ad_read(devc, 12); ad_write(devc, 12, (~tmp) & 0x0f); if ((tmp & 0x0f) != ((tmp1 = ad_read(devc, 12)) & 0x0f)) { DDB(printk("ad1848 detect error - step D (%x)\n", tmp1)); return 0; } /* * NOTE! Last 4 bits of the reg I12 tell the chip revision. * 0x01=RevB and 0x0A=RevC. */ /* * The original AD1848/CS4248 has just 15 indirect registers. This means * that I0 and I16 should return the same value (etc.). * However this doesn't work with CS4248. Actually it seems to be impossible * to detect if the chip is a CS4231 or CS4248. * Ensure that the Mode2 enable bit of I12 is 0. Otherwise this test fails * with CS4231. */ /* * OPTi 82C930 has mode2 control bit in another place. This test will fail * with it. Accept this situation as a possible indication of this chip. */ DDB(printk("ad1848_detect() - step F\n")); ad_write(devc, 12, 0); /* Mode2=disabled */ for (i = 0; i < 16; i++) { if ((tmp1 = ad_read(devc, i)) != (tmp2 = ad_read(devc, i + 16))) { DDB(printk("ad1848 detect step F(%d/%x/%x) - OPTi chip???\n", i, tmp1, tmp2)); if (!ad1847_flag) optiC930 = 1; break; } } /* * Try to switch the chip to mode2 (CS4231) by setting the MODE2 bit (0x40). * The bit 0x80 is always 1 in CS4248 and CS4231. */ DDB(printk("ad1848_detect() - step G\n")); if (ad_flags && *ad_flags == 400) *ad_flags = 0; else ad_write(devc, 12, 0x40); /* Set mode2, clear 0x80 */ if (ad_flags) *ad_flags = 0; tmp1 = ad_read(devc, 12); if (tmp1 & 0x80) { if (ad_flags) *ad_flags |= AD_F_CS4248; devc->chip_name = "CS4248"; /* Our best knowledge just now */ } if (optiC930 || (tmp1 & 0xc0) == (0x80 | 0x40)) { /* * CS4231 detected - is it? * * Verify that setting I0 doesn't change I16. */ DDB(printk("ad1848_detect() - step H\n")); ad_write(devc, 16, 0); /* Set I16 to known value */ ad_write(devc, 0, 0x45); if ((tmp1 = ad_read(devc, 16)) != 0x45) /* No change -> CS4231? */ { ad_write(devc, 0, 0xaa); if ((tmp1 = ad_read(devc, 16)) == 0xaa) /* Rotten bits? */ { DDB(printk("ad1848 detect error - step H(%x)\n", tmp1)); return 0; } /* * Verify that some bits of I25 are read only. */ DDB(printk("ad1848_detect() - step I\n")); tmp1 = ad_read(devc, 25); /* Original bits */ ad_write(devc, 25, ~tmp1); /* Invert all bits */ if ((ad_read(devc, 25) & 0xe7) == (tmp1 & 0xe7)) { int id; /* * It's at least CS4231 */ devc->chip_name = "CS4231"; devc->model = MD_4231; /* * It could be an AD1845 or CS4231A as well. * CS4231 and AD1845 report the same revision info in I25 * while the CS4231A reports different. */ id = ad_read(devc, 25); if ((id & 0xe7) == 0x80) /* Device busy??? */ id = ad_read(devc, 25); if ((id & 0xe7) == 0x80) /* Device still busy??? */ id = ad_read(devc, 25); DDB(printk("ad1848_detect() - step J (%02x/%02x)\n", id, ad_read(devc, 25))); if ((id & 0xe7) == 0x80) { /* * It must be a CS4231 or AD1845. The register I23 of * CS4231 is undefined and it appears to be read only. * AD1845 uses I23 for setting sample rate. Assume * the chip is AD1845 if I23 is changeable. */ unsigned char tmp = ad_read(devc, 23); ad_write(devc, 23, ~tmp); if (interwave) { devc->model = MD_IWAVE; devc->chip_name = "IWave"; } else if (ad_read(devc, 23) != tmp) /* AD1845 ? */ { devc->chip_name = "AD1845"; devc->model = MD_1845; } else if (cs4248_flag) { if (ad_flags) *ad_flags |= AD_F_CS4248; devc->chip_name = "CS4248"; devc->model = MD_1848; ad_write(devc, 12, ad_read(devc, 12) & ~0x40); /* Mode2 off */ } ad_write(devc, 23, tmp); /* Restore */ } else { switch (id & 0x1f) { case 3: /* CS4236/CS4235 */ { int xid; ad_write(devc, 12, ad_read(devc, 12) | 0x60); /* switch to mode 3 */ ad_write(devc, 23, 0x9c); /* select extended register 25 */ xid = inb(io_Indexed_Data(devc)); ad_write(devc, 12, ad_read(devc, 12) & ~0x60); /* back to mode 0 */ if ((xid & 0x1f) == 0x1d) { devc->chip_name = "CS4235"; devc->model = MD_4235; } else { devc->chip_name = "CS4236"; devc->model = MD_4232; } } break; case 2: /* CS4232/CS4232A */ devc->chip_name = "CS4232"; devc->model = MD_4232; break; case 0: if ((id & 0xe0) == 0xa0) { devc->chip_name = "CS4231A"; devc->model = MD_4231A; } else { devc->chip_name = "CS4321"; devc->model = MD_4231; } break; default: /* maybe */ DDB(printk("ad1848: I25 = %02x/%02x\n", ad_read(devc, 25), ad_read(devc, 25) & 0xe7)); if (optiC930) { devc->chip_name = "82C930"; devc->model = MD_C930; } else { devc->chip_name = "CS4231"; devc->model = MD_4231; } } } } ad_write(devc, 25, tmp1); /* Restore bits */ DDB(printk("ad1848_detect() - step K\n")); } } else if (tmp1 == 0x0a) { /* * Is it perhaps a SoundPro CMI8330? * If so, then we should be able to change indirect registers * greater than I15 after activating MODE2, even though reading * back I12 does not show it. */ /* * Let's try comparing register values */ for (i = 0; i < 16; i++) { if ((tmp1 = ad_read(devc, i)) != (tmp2 = ad_read(devc, i + 16))) { DDB(printk("ad1848 detect step H(%d/%x/%x) - SoundPro chip?\n", i, tmp1, tmp2)); soundpro = 1; devc->chip_name = "SoundPro CMI 8330"; break; } } } DDB(printk("ad1848_detect() - step L\n")); if (ad_flags) { if (devc->model != MD_1848) *ad_flags |= AD_F_CS4231; } DDB(printk("ad1848_detect() - Detected OK\n")); if (devc->model == MD_1848 && ad1847_flag) devc->chip_name = "AD1847"; return 1; } int ad1848_init(char *name, int io_base, int irq, int dma_playback, int dma_capture, int share_dma, int *osp) { /* * NOTE! If irq < 0, there is another driver which has allocated the IRQ * so that this driver doesn't need to allocate/deallocate it. * The actually used IRQ is ABS(irq). */ int my_dev; char dev_name[100]; int e; ad1848_info *devc = &adev_info[nr_ad1848_devs]; ad1848_port_info *portc = NULL; devc->irq = (irq > 0) ? irq : 0; devc->open_mode = 0; devc->timer_ticks = 0; devc->dma1 = dma_playback; devc->dma2 = dma_capture; devc->audio_flags = DMA_AUTOMODE; devc->playback_dev = devc->record_dev = 0; if (name != NULL) devc->name = name; if (name != NULL && name[0] != 0) sprintf(dev_name, "%s (%s)", name, devc->chip_name); else sprintf(dev_name, "Generic audio codec (%s)", devc->chip_name); request_region(devc->base, 4, devc->name); conf_printf2(dev_name, devc->base, devc->irq, dma_playback, dma_capture); if (devc->model == MD_1848 || devc->model == MD_C930) devc->audio_flags |= DMA_HARDSTOP; if (devc->model > MD_1848) { if (devc->dma1 == devc->dma2 || devc->dma2 == -1 || devc->dma1 == -1) devc->audio_flags &= ~DMA_DUPLEX; else devc->audio_flags |= DMA_DUPLEX; } portc = (ad1848_port_info *) kmalloc(sizeof(ad1848_port_info), GFP_KERNEL); if(portc==NULL) return -1; if ((my_dev = sound_install_audiodrv(AUDIO_DRIVER_VERSION, dev_name, &ad1848_audio_driver, sizeof(struct audio_driver), devc->audio_flags, ad_format_mask[devc->model], devc, dma_playback, dma_capture)) < 0) { kfree(portc); portc=NULL; return -1; } audio_devs[my_dev]->portc = portc; audio_devs[my_dev]->mixer_dev = -1; memset((char *) portc, 0, sizeof(*portc)); nr_ad1848_devs++; ad1848_init_hw(devc); if (irq > 0) { devc->dev_no = my_dev; if (request_irq(devc->irq, adintr, 0, devc->name, (void *)my_dev) < 0) { printk(KERN_WARNING "ad1848: Unable to allocate IRQ\n"); /* Don't free it either then.. */ devc->irq = 0; } if (capabilities[devc->model].flags & CAP_F_TIMER) { #ifndef __SMP__ int x; unsigned char tmp = ad_read(devc, 16); #endif devc->timer_ticks = 0; ad_write(devc, 21, 0x00); /* Timer MSB */ ad_write(devc, 20, 0x10); /* Timer LSB */ #ifndef __SMP__ ad_write(devc, 16, tmp | 0x40); /* Enable timer */ for (x = 0; x < 100000 && devc->timer_ticks == 0; x++); ad_write(devc, 16, tmp & ~0x40); /* Disable timer */ if (devc->timer_ticks == 0) printk(KERN_WARNING "ad1848: Interrupt test failed (IRQ%d)\n", irq); else { DDB(printk("Interrupt test OK\n")); devc->irq_ok = 1; } #else devc->irq_ok=1; #endif } else devc->irq_ok = 1; /* Couldn't test. assume it's OK */ } else if (irq < 0) irq2dev[-irq] = devc->dev_no = my_dev; #if defined(CONFIG_SEQUENCER) && !defined(EXCLUDE_TIMERS) if ((capabilities[devc->model].flags & CAP_F_TIMER) && devc->irq_ok) ad1848_tmr_install(my_dev); #endif if (!share_dma) { if (sound_alloc_dma(dma_playback, devc->name)) printk(KERN_WARNING "ad1848.c: Can't allocate DMA%d\n", dma_playback); if (dma_capture != dma_playback) if (sound_alloc_dma(dma_capture, devc->name)) printk(KERN_WARNING "ad1848.c: Can't allocate DMA%d\n", dma_capture); } if ((e = sound_install_mixer(MIXER_DRIVER_VERSION, dev_name, &ad1848_mixer_operations, sizeof(struct mixer_operations), devc)) >= 0) { audio_devs[my_dev]->mixer_dev = e; } return my_dev; } int ad1848_control(int cmd, int arg) { ad1848_info *devc; if (nr_ad1848_devs < 1) return -ENODEV; devc = &adev_info[nr_ad1848_devs - 1]; switch (cmd) { case AD1848_SET_XTAL: /* Change clock frequency of AD1845 (only ) */ if (devc->model != MD_1845) return -EINVAL; ad_enter_MCE(devc); ad_write(devc, 29, (ad_read(devc, 29) & 0x1f) | (arg << 5)); ad_leave_MCE(devc); break; case AD1848_MIXER_REROUTE: { int o = (arg >> 8) & 0xff; int n = arg & 0xff; if (o < 0 || o >= SOUND_MIXER_NRDEVICES) return -EINVAL; if (!(devc->supported_devices & (1 << o)) && !(devc->supported_rec_devices & (1 << o))) return -EINVAL; if (n == SOUND_MIXER_NONE) { /* Just hide this control */ ad1848_mixer_set(devc, o, 0); /* Shut up it */ devc->supported_devices &= ~(1 << o); devc->supported_rec_devices &= ~(1 << o); break; } /* Make the mixer control identified by o to appear as n */ if (n < 0 || n >= SOUND_MIXER_NRDEVICES) return -EINVAL; devc->mixer_reroute[n] = o; /* Rename the control */ if (devc->supported_devices & (1 << o)) devc->supported_devices |= (1 << n); if (devc->supported_rec_devices & (1 << o)) devc->supported_rec_devices |= (1 << n); devc->supported_devices &= ~(1 << o); devc->supported_rec_devices &= ~(1 << o); } break; } return 0; } void ad1848_unload(int io_base, int irq, int dma_playback, int dma_capture, int share_dma) { int i, mixer, dev = 0; ad1848_info *devc = NULL; for (i = 0; devc == NULL && i < nr_ad1848_devs; i++) { if (adev_info[i].base == io_base) { devc = &adev_info[i]; dev = devc->dev_no; } } if (devc != NULL) { if(audio_devs[dev]->portc!=NULL) kfree(audio_devs[dev]->portc); release_region(devc->base, 4); if (!share_dma) { if (devc->irq > 0) /* There is no point in freeing irq, if it wasn't allocated */ free_irq(devc->irq, (void *)devc->dev_no); sound_free_dma(dma_playback); if (dma_playback != dma_capture) sound_free_dma(dma_capture); } mixer = audio_devs[devc->dev_no]->mixer_dev; if(mixer>=0) sound_unload_mixerdev(mixer); nr_ad1848_devs--; for ( ; i < nr_ad1848_devs ; i++) adev_info[i] = adev_info[i+1]; } else printk(KERN_ERR "ad1848: Can't find device to be unloaded. Base=%x\n", io_base); } void adintr(int irq, void *dev_id, struct pt_regs *dummy) { unsigned char status; ad1848_info *devc; int dev; int alt_stat = 0xff; unsigned char c930_stat = 0; int cnt = 0; dev = (int)dev_id; devc = (ad1848_info *) audio_devs[dev]->devc; interrupt_again: /* Jump back here if int status doesn't reset */ status = inb(io_Status(devc)); if (status == 0x80) printk(KERN_DEBUG "adintr: Why?\n"); if (devc->model == MD_1848) outb((0), io_Status(devc)); /* Clear interrupt status */ if (status & 0x01) { if (devc->model == MD_C930) { /* 82C930 has interrupt status register in MAD16 register MC11 */ unsigned long flags; save_flags(flags); cli(); /* 0xe0e is C930 address port * 0xe0f is C930 data port */ outb(11, 0xe0e); c930_stat = inb(0xe0f); outb((~c930_stat), 0xe0f); restore_flags(flags); alt_stat = (c930_stat << 2) & 0x30; } else if (devc->model != MD_1848) { alt_stat = ad_read(devc, 24); ad_write(devc, 24, ad_read(devc, 24) & ~alt_stat); /* Selective ack */ } if ((devc->open_mode & OPEN_READ) && (devc->audio_mode & PCM_ENABLE_INPUT) && (alt_stat & 0x20)) { DMAbuf_inputintr(devc->record_dev); } if ((devc->open_mode & OPEN_WRITE) && (devc->audio_mode & PCM_ENABLE_OUTPUT) && (alt_stat & 0x10)) { DMAbuf_outputintr(devc->playback_dev, 1); } if (devc->model != MD_1848 && (alt_stat & 0x40)) /* Timer interrupt */ { devc->timer_ticks++; #if defined(CONFIG_SEQUENCER) && !defined(EXCLUDE_TIMERS) if (timer_installed == dev && devc->timer_running) sound_timer_interrupt(); #endif } } /* * Sometimes playback or capture interrupts occur while a timer interrupt * is being handled. The interrupt will not be retriggered if we don't * handle it now. Check if an interrupt is still pending and restart * the handler in this case. */ if (inb(io_Status(devc)) & 0x01 && cnt++ < 4) { goto interrupt_again; } } /* * Experimental initialization sequence for the integrated sound system * of Compaq Deskpro XL. */ static int init_deskpro(struct address_info *hw_config) { unsigned char tmp; if ((tmp = inb(0xc44)) == 0xff) { DDB(printk("init_deskpro: Dead port 0xc44\n")); return 0; } outb((tmp | 0x04), 0xc44); /* Select bank 1 */ if (inb(0xc44) != 0x04) { DDB(printk("init_deskpro: Invalid bank1 signature in port 0xc44\n")); return 0; } /* * OK. It looks like a Deskpro so let's proceed. */ /* * I/O port 0xc44 Audio configuration register. * * bits 0xc0: Audio revision bits * 0x00 = Compaq Business Audio * 0x40 = MS Sound System Compatible (reset default) * 0x80 = Reserved * 0xc0 = Reserved * bit 0x20: No Wait State Enable * 0x00 = Disabled (reset default, DMA mode) * 0x20 = Enabled (programmed I/O mode) * bit 0x10: MS Sound System Decode Enable * 0x00 = Decoding disabled (reset default) * 0x10 = Decoding enabled * bit 0x08: FM Synthesis Decode Enable * 0x00 = Decoding Disabled (reset default) * 0x08 = Decoding enabled * bit 0x04 Bank select * 0x00 = Bank 0 * 0x04 = Bank 1 * bits 0x03 MSS Base address * 0x00 = 0x530 (reset default) * 0x01 = 0x604 * 0x02 = 0xf40 * 0x03 = 0xe80 */ #ifdef DEBUGXL /* Debug printing */ printk("Port 0xc44 (before): "); outb((tmp & ~0x04), 0xc44); printk("%02x ", inb(0xc44)); outb((tmp | 0x04), 0xc44); printk("%02x\n", inb(0xc44)); #endif /* Set bank 1 of the register */ tmp = 0x58; /* MSS Mode, MSS&FM decode enabled */ switch (hw_config->io_base) { case 0x530: tmp |= 0x00; break; case 0x604: tmp |= 0x01; break; case 0xf40: tmp |= 0x02; break; case 0xe80: tmp |= 0x03; break; default: DDB(printk("init_deskpro: Invalid MSS port %x\n", hw_config->io_base)); return 0; } outb((tmp & ~0x04), 0xc44); /* Write to bank=0 */ #ifdef DEBUGXL /* Debug printing */ printk("Port 0xc44 (after): "); outb((tmp & ~0x04), 0xc44); /* Select bank=0 */ printk("%02x ", inb(0xc44)); outb((tmp | 0x04), 0xc44); /* Select bank=1 */ printk("%02x\n", inb(0xc44)); #endif /* * I/O port 0xc45 FM Address Decode/MSS ID Register. * * bank=0, bits 0xfe: FM synthesis Decode Compare bits 7:1 (default=0x88) * bank=0, bit 0x01: SBIC Power Control Bit * 0x00 = Powered up * 0x01 = Powered down * bank=1, bits 0xfc: MSS ID (default=0x40) */ #ifdef DEBUGXL /* Debug printing */ printk("Port 0xc45 (before): "); outb((tmp & ~0x04), 0xc44); /* Select bank=0 */ printk("%02x ", inb(0xc45)); outb((tmp | 0x04), 0xc44); /* Select bank=1 */ printk("%02x\n", inb(0xc45)); #endif outb((tmp & ~0x04), 0xc44); /* Select bank=0 */ outb((0x88), 0xc45); /* FM base 7:0 = 0x88 */ outb((tmp | 0x04), 0xc44); /* Select bank=1 */ outb((0x10), 0xc45); /* MSS ID = 0x10 (MSS port returns 0x04) */ #ifdef DEBUGXL /* Debug printing */ printk("Port 0xc45 (after): "); outb((tmp & ~0x04), 0xc44); /* Select bank=0 */ printk("%02x ", inb(0xc45)); outb((tmp | 0x04), 0xc44); /* Select bank=1 */ printk("%02x\n", inb(0xc45)); #endif /* * I/O port 0xc46 FM Address Decode/Address ASIC Revision Register. * * bank=0, bits 0xff: FM synthesis Decode Compare bits 15:8 (default=0x03) * bank=1, bits 0xff: Audio addressing ASIC id */ #ifdef DEBUGXL /* Debug printing */ printk("Port 0xc46 (before): "); outb((tmp & ~0x04), 0xc44); /* Select bank=0 */ printk("%02x ", inb(0xc46)); outb((tmp | 0x04), 0xc44); /* Select bank=1 */ printk("%02x\n", inb(0xc46)); #endif outb((tmp & ~0x04), 0xc44); /* Select bank=0 */ outb((0x03), 0xc46); /* FM base 15:8 = 0x03 */ outb((tmp | 0x04), 0xc44); /* Select bank=1 */ outb((0x11), 0xc46); /* ASIC ID = 0x11 */ #ifdef DEBUGXL /* Debug printing */ printk("Port 0xc46 (after): "); outb((tmp & ~0x04), 0xc44); /* Select bank=0 */ printk("%02x ", inb(0xc46)); outb((tmp | 0x04), 0xc44); /* Select bank=1 */ printk("%02x\n", inb(0xc46)); #endif /* * I/O port 0xc47 FM Address Decode Register. * * bank=0, bits 0xff: Decode enable selection for various FM address bits * bank=1, bits 0xff: Reserved */ #ifdef DEBUGXL /* Debug printing */ printk("Port 0xc47 (before): "); outb((tmp & ~0x04), 0xc44); /* Select bank=0 */ printk("%02x ", inb(0xc47)); outb((tmp | 0x04), 0xc44); /* Select bank=1 */ printk("%02x\n", inb(0xc47)); #endif outb((tmp & ~0x04), 0xc44); /* Select bank=0 */ outb((0x7c), 0xc47); /* FM decode enable bits = 0x7c */ outb((tmp | 0x04), 0xc44); /* Select bank=1 */ outb((0x00), 0xc47); /* Reserved bank1 = 0x00 */ #ifdef DEBUGXL /* Debug printing */ printk("Port 0xc47 (after): "); outb((tmp & ~0x04), 0xc44); /* Select bank=0 */ printk("%02x ", inb(0xc47)); outb((tmp | 0x04), 0xc44); /* Select bank=1 */ printk("%02x\n", inb(0xc47)); #endif /* * I/O port 0xc6f = Audio Disable Function Register */ #ifdef DEBUGXL printk("Port 0xc6f (before) = %02x\n", inb(0xc6f)); #endif outb((0x80), 0xc6f); #ifdef DEBUGXL printk("Port 0xc6f (after) = %02x\n", inb(0xc6f)); #endif return 1; } int probe_ms_sound(struct address_info *hw_config) { unsigned char tmp; DDB(printk("Entered probe_ms_sound(%x, %d)\n", hw_config->io_base, hw_config->card_subtype)); if (check_region(hw_config->io_base, 8)) { printk(KERN_ERR "MSS: I/O port conflict\n"); return 0; } if (hw_config->card_subtype == 1) /* Has no IRQ/DMA registers */ { /* check_opl3(0x388, hw_config); */ return ad1848_detect(hw_config->io_base + 4, NULL, hw_config->osp); } if (deskpro_xl && hw_config->card_subtype == 2) /* Compaq Deskpro XL */ { if (!init_deskpro(hw_config)) return 0; } /* * Check if the IO port returns valid signature. The original MS Sound * system returns 0x04 while some cards (AudioTrix Pro for example) * return 0x00 or 0x0f. */ if ((tmp = inb(hw_config->io_base + 3)) == 0xff) /* Bus float */ { int ret; DDB(printk("I/O address is inactive (%x)\n", tmp)); if (!(ret = ad1848_detect(hw_config->io_base + 4, NULL, hw_config->osp))) return 0; return 1; } DDB(printk("MSS signature = %x\n", tmp & 0x3f)); if ((tmp & 0x3f) != 0x04 && (tmp & 0x3f) != 0x0f && (tmp & 0x3f) != 0x00) { int ret; MDB(printk(KERN_ERR "No MSS signature detected on port 0x%x (0x%x)\n", hw_config->io_base, (int) inb(hw_config->io_base + 3))); DDB(printk("Trying to detect codec anyway but IRQ/DMA may not work\n")); if (!(ret = ad1848_detect(hw_config->io_base + 4, NULL, hw_config->osp))) return 0; hw_config->card_subtype = 1; return 1; } if ((hw_config->irq != 5) && (hw_config->irq != 7) && (hw_config->irq != 9) && (hw_config->irq != 10) && (hw_config->irq != 11) && (hw_config->irq != 12)) { printk(KERN_ERR "MSS: Bad IRQ %d\n", hw_config->irq); return 0; } if (hw_config->dma != 0 && hw_config->dma != 1 && hw_config->dma != 3) { printk(KERN_ERR "MSS: Bad DMA %d\n", hw_config->dma); return 0; } /* * Check that DMA0 is not in use with a 8 bit board. */ if (hw_config->dma == 0 && inb(hw_config->io_base + 3) & 0x80) { printk(KERN_ERR "MSS: Can't use DMA0 with a 8 bit card/slot\n"); return 0; } if (hw_config->irq > 7 && hw_config->irq != 9 && inb(hw_config->io_base + 3) & 0x80) { printk(KERN_ERR "MSS: Can't use IRQ%d with a 8 bit card/slot\n", hw_config->irq); return 0; } return ad1848_detect(hw_config->io_base + 4, NULL, hw_config->osp); } void attach_ms_sound(struct address_info *hw_config) { static char interrupt_bits[12] = { -1, -1, -1, -1, -1, 0x00, -1, 0x08, -1, 0x10, 0x18, 0x20 }; char bits, dma2_bit = 0; static char dma_bits[4] = { 1, 2, 0, 3 }; int config_port = hw_config->io_base + 0; int version_port = hw_config->io_base + 3; int dma = hw_config->dma; int dma2 = hw_config->dma2; if (hw_config->card_subtype == 1) /* Has no IRQ/DMA registers */ { hw_config->slots[0] = ad1848_init("MS Sound System", hw_config->io_base + 4, hw_config->irq, hw_config->dma, hw_config->dma2, 0, hw_config->osp); request_region(hw_config->io_base, 4, "WSS config"); return; } /* * Set the IRQ and DMA addresses. */ bits = interrupt_bits[hw_config->irq]; if (bits == -1) { printk(KERN_ERR "MSS: Bad IRQ %d\n", hw_config->irq); return; } outb((bits | 0x40), config_port); if ((inb(version_port) & 0x40) == 0) printk(KERN_ERR "[MSS: IRQ Conflict?]\n"); /* * Handle the capture DMA channel */ if (dma2 != -1 && dma2 != dma) { if (!((dma == 0 && dma2 == 1) || (dma == 1 && dma2 == 0) || (dma == 3 && dma2 == 0))) { /* Unsupported combination. Try to swap channels */ int tmp = dma; dma = dma2; dma2 = tmp; } if ((dma == 0 && dma2 == 1) || (dma == 1 && dma2 == 0) || (dma == 3 && dma2 == 0)) { dma2_bit = 0x04; /* Enable capture DMA */ } else { printk(KERN_WARNING "MSS: Invalid capture DMA\n"); dma2 = dma; } } else { dma2 = dma; } hw_config->dma = dma; hw_config->dma2 = dma2; outb((bits | dma_bits[dma] | dma2_bit), config_port); /* Write IRQ+DMA setup */ hw_config->slots[0] = ad1848_init("MSS audio codec", hw_config->io_base + 4, hw_config->irq, dma, dma2, 0, hw_config->osp); request_region(hw_config->io_base, 4, "WSS config"); } void unload_ms_sound(struct address_info *hw_config) { ad1848_unload(hw_config->io_base + 4, hw_config->irq, hw_config->dma, hw_config->dma2, 0); sound_unload_audiodev(hw_config->slots[0]); release_region(hw_config->io_base, 4); } #if defined(CONFIG_SEQUENCER) && !defined(EXCLUDE_TIMERS) /* * Timer stuff (for /dev/music). */ static unsigned int current_interval = 0; static unsigned int ad1848_tmr_start(int dev, unsigned int usecs) { unsigned long flags; ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; unsigned long xtal_nsecs; /* nanoseconds per xtal oscillator tick */ unsigned long divider; save_flags(flags); cli(); /* * Length of the timer interval (in nanoseconds) depends on the * selected crystal oscillator. Check this from bit 0x01 of I8. * * AD1845 has just one oscillator which has cycle time of 10.050 us * (when a 24.576 MHz xtal oscillator is used). * * Convert requested interval to nanoseconds before computing * the timer divider. */ if (devc->model == MD_1845) xtal_nsecs = 10050; else if (ad_read(devc, 8) & 0x01) xtal_nsecs = 9920; else xtal_nsecs = 9969; divider = (usecs * 1000 + xtal_nsecs / 2) / xtal_nsecs; if (divider < 100) /* Don't allow shorter intervals than about 1ms */ divider = 100; if (divider > 65535) /* Overflow check */ divider = 65535; ad_write(devc, 21, (divider >> 8) & 0xff); /* Set upper bits */ ad_write(devc, 20, divider & 0xff); /* Set lower bits */ ad_write(devc, 16, ad_read(devc, 16) | 0x40); /* Start the timer */ devc->timer_running = 1; restore_flags(flags); return current_interval = (divider * xtal_nsecs + 500) / 1000; } static void ad1848_tmr_reprogram(int dev) { /* * Audio driver has changed sampling rate so that a different xtal * oscillator was selected. We have to reprogram the timer rate. */ ad1848_tmr_start(dev, current_interval); sound_timer_syncinterval(current_interval); } static void ad1848_tmr_disable(int dev) { unsigned long flags; ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; save_flags(flags); cli(); ad_write(devc, 16, ad_read(devc, 16) & ~0x40); devc->timer_running = 0; restore_flags(flags); } static void ad1848_tmr_restart(int dev) { unsigned long flags; ad1848_info *devc = (ad1848_info *) audio_devs[dev]->devc; if (current_interval == 0) return; save_flags(flags); cli(); ad_write(devc, 16, ad_read(devc, 16) | 0x40); devc->timer_running = 1; restore_flags(flags); } static struct sound_lowlev_timer ad1848_tmr = { 0, 2, ad1848_tmr_start, ad1848_tmr_disable, ad1848_tmr_restart }; static int ad1848_tmr_install(int dev) { if (timer_installed != -1) return 0; /* Don't install another timer */ timer_installed = ad1848_tmr.dev = dev; sound_timer_init(&ad1848_tmr, audio_devs[dev]->name); return 1; } #endif EXPORT_SYMBOL(ad1848_detect); EXPORT_SYMBOL(ad1848_init); EXPORT_SYMBOL(ad1848_unload); EXPORT_SYMBOL(ad1848_control); EXPORT_SYMBOL(adintr); EXPORT_SYMBOL(probe_ms_sound); EXPORT_SYMBOL(attach_ms_sound); EXPORT_SYMBOL(unload_ms_sound); #ifdef MODULE MODULE_PARM(io, "i"); /* I/O for a raw AD1848 card */ MODULE_PARM(irq, "i"); /* IRQ to use */ MODULE_PARM(dma, "i"); /* First DMA channel */ MODULE_PARM(dma2, "i"); /* Second DMA channel */ MODULE_PARM(type, "i"); /* Card type */ MODULE_PARM(deskpro_xl, "i"); /* Special magic for Deskpro XL boxen */ MODULE_PARM(soundpro, "i"); /* More special magic for SoundPro chips */ int io = -1; int irq = -1; int dma = -1; int dma2 = -1; int type = 0; static int loaded = 0; struct address_info hw_config; int init_module(void) { printk(KERN_INFO "ad1848/cs4248 codec driver Copyright (C) by Hannu Savolainen 1993-1996\n"); if(io != -1) { if(irq == -1 || dma == -1) { printk(KERN_WARNING "ad1848: must give I/O , IRQ and DMA.\n"); return -EINVAL; } hw_config.irq = irq; hw_config.io_base = io; hw_config.dma = dma; hw_config.dma2 = dma2; hw_config.card_subtype = type; if(!probe_ms_sound(&hw_config)) return -ENODEV; attach_ms_sound(&hw_config); loaded=1; } SOUND_LOCK; return 0; } void cleanup_module(void) { SOUND_LOCK_END; if(loaded) unload_ms_sound(&hw_config); } #endif #endif |